Download Samsung N870 Service manual

SERVICE MANUAL FOR
8050
BY: Grass.Ren
Repair Technology Research Department /EDVD
Feb.2004
8050 N/B Maintenance
Contents
1. Hardware Engineering Specification …………………………………………………………………..
1.1 Introduce ……………………………………………………………………………………………….
1.2 System Overview ……………………………………………………………………………………….
1.3 System Hardware Parts ………………………………………………………………………………....
2. System View & Disassembly …………………………………………………………………………..
2.1 System View …………………………………………………………………………………………...
2.2 System Disassembly …………………………………………………………………………………….
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3. Definition & Location of Connectors / Switches Setting ………………………………………………
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4. Definition & Location of Major Component …………………………………………………………..
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5. Pin Description of Major Component…………………………………………………………………..
5.1 Pentium4 (Willamette/Northwood) processor …………………………………………………………...
5.2 Sis650 North Bridge …………………………………………………………………………………….
5.3 Sis962 South Bridge …………………………………………………………………………………….
6. System Block Diagram ……………………………………………………….………………………….
7. Maintenance Diagnostics ………………………………………………………………………………..
7.1 Introduction ……………………………………………………………………………………………
7.2 Debug Card ……………………………………… ……………………………………………………
7.3 Error code………………………………… …………………………………………………………..
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Contents
8. Trouble Shooting …………………………………………………………………………………………
8.1 No Power ……………………………………………………………………………………………….
8.2 Battery Can not Be Charged …………………………………………………………………………….
8.3 No Display ………………………………… …………………………………………………………..
8.4 External Monitor No Display …………………………………………………………………………....
8.5 Memory Test Error …………………………………………………………………………………….
8.6 Keyboard/Touch-pad Test Error ………………………………………………………………………..
8.7 USB Port Test error……………………………………………………………………………………..
8.8 Hard Disk Drive Test Error……………………………………………………………………………...
8.9 CD-ROM Test Error ……………………………………………………………………………………
8.10 Audio Test Failure……………………………………………………………………………………..
8.11 LAN Test Error ……………………………………………………………………………………….
8.12 Modem Test Error…………… ……………………………………………………………………….
8.13 Mini-PCI Test Error……….. ……… ………………………………………………………………...
8.14 Card Bus&Reader Test Error…………………………………………………………………………..
8.15 TV Encoder Test Failure ………………………………………………………….…………………
8.16 IEEE1394 Test Failure …………………………………………………………………………….…..
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9. Spare Parts List ………………………………………………………………………………………….
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10. System Exploded View …………………………………………………………………………………
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11. Circuit Diagram ………………………………………………………………………………………..
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12. Reference Material …………………………………………………………………………………….
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1. Engineer Hardware Specification
1.1 Introduce
The MiTAC 8050 model is designed for Intel Banias processor with 400MHz FSB with Micro-FCPGA package.
It can support Banias 1.5G ~ 1.9GHz/Dothan 2.0GHz and above.
This system is based on PCI architecture and is fully compatible with IBM PC/AT specification, which has
standard hardware peripheral interface. The power management complies with Advanced Configuration and
Power Interface (ACPI) 2.0. It also provides easy configuration through CMOS setup, which is built in system
BIOS software and can be pop-up by pressing F2 key at system start up or warm reset. System also provides icon
LEDs to display system status, such as AC Power indicator, Battery Power indicator, Battery status indicator,
HDD,CD-ROM, NUM LOCK, CAP LOCK, SCROLL LOCK, RF on/off Card Reader indicator. It also equipped
with LAN, 56K Fax MODEM, 3 USB port, S-Video and audio line in/out , external microphone function.
The memory subsystem supports two expansion DDR SDRAM slot with unbuffered PC1600/PC2100 DDRSDRAM.
The Montara-GME GMCH Host Memory Controller integrates a high performance host interface for Intel
Banias processor, a high performance 2D/3D Graphic Engine, a high performance memory controller, Digital
Video port (DVOB & DVOC) interface, and Intel Hub interface Technology connecting with Intel 82801DBM
ICH4-M.
The Intel ICH4-M integrates three Universal Serial Bus 2.0 Host Controllers Interface (UHCI), the Audio
Controller with AC97 interface, the Ethernet includes a 32-bit PCI controller, the IDE Master/Slave controllers,
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and Intel Hub interface technology.
The MOBILITY M10 provides one of the fastest and most advanced 2D, 3D, and multimedia graphics2
performance for notebooks. It’s architecture introduces the latest achievements in the graphics industry, which
enable the use of the progressive new features in upcoming applications, but without compromising performance.
ATIs support of support of DirectX® 9 features, highly optimized Open GL® support, and flexible memory
configurations allow implementations targeted at the gaming enthusiast, consumer, business and workstation
platforms.
The Realtek RTL8100C(L) is a highly integrated, cost-effective single-chip Fast Ethernet controller that provides
32-bit performance, PCI bus master capability, and full compliance with IEEE 802.3u 100Base-T specifications
and IEEE 802.3x Full Duplex Flow Control. It also supports the Advanced Configuration Power management
Interface (ACPI).
The VT6307L is a single chip PCI Host Controller for IEEE 1394-1995 Release 1.0 and IEEE 1394a P2000. It
implements the Link and PHY layers for IEEE 1394-1995 High Performance Serial Bus specification release 1.0
and 1394a P2000. It is compliant with 1394 Open HCI 1.0 and 1.1 with DMA engine support for high
performance data transfer via a 32-bit bus master PCEI host bus interface. The VT6307L supports 100, 200 and
400 Mbit/sec transmission via an integrated 2-port PHY. The VT6307L services two types of data packets:
asynchronous and isochronous(real time). The 1394 link core performs arbitration requesting, packet generation
and checking, and bus cycle master operations. It also has root node capability and performs retry operations.
The RICOH R5C592 CardBus/Media Reader controller functions as a single slot PCI to Cardbus bridge and also
PCI interface smart card and MS/SD/MMC flash card reader. The R5C592 provide one Cardbus slot and all reader
interface may operate simultaneously.
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The CH7011A is a display controller device which accepts a digital graphics input signal, and encodes and
transmits data to a TV output (analog composite, s-video or RGB). The device accepts data over one 12-bit wide
variable voltage data port which supports five different data format including RGB and YcrCb. The TV-Out
processor will perform non-interlace to interlace conversion with scaling and flicker filters, and encode the data
into any of the NTSC or PAL video standards. The scaling and flicker filter is adaptive and programmable to
enable superior text display. Eight graphics resolutions are supported up to 1024 X 768 with full vertical and
horizontal underscan capability in all modes. A high accuracy low jitter phase locked loop is integrated to create
outstanding video quality. Support is provided for Macrovision and RGB bypass mode which enable driving a
VGA CRT with the input data.
The W83L950D is a high performance microcontroller on-chip supporting functions optimized for embedded
control.These include ROM, RAM, four types of timers, a serial communication interface, optional I²C bus
interface, host interface, A/D converter, D/A converter, I/O ports, and other functions needed in control system
configurations, so that compact, high performance systems can be implemented easily.
A full set of software drivers and utilities are available to allow advanced operating systems such as Windows ME,
Windows 2000 and Windows XP to take full advantage of the hardware capabilities. Features such as bus
mastering IDE, Plug and Play, Advanced Power Management (APM) with application restart, software-controlled
power shutdown.
Following chapters will have more detail description for each individual sub-systems and functions.
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1.2 System Overview(1)
CPU
Intel Mobile Pentium-M Processor 1.5G ~ 1.9GHz/Dothan 2.0GHz and above
-Thermal spec 35W TDP
Chip Set
Intel 855GME+ICH4
L2 Cache
1MB on-die for Pentium-M/ 2MB for Dothan
System BIOS
512KB Flash EPROM - include System BIOS, VGA BIOS - Plug&Play capability -ACPI
Memory
0MB DDR266/333 SDRAM memory on board
- 200pin DDR266/333 SDRAM SO-DIMM Memory Module
- Expandable to 1,024MB
- 1.25-inch height memory module supported
Video Controller
1.SMA
2.Reserve external VGA for Ati M10/M11
Optical drive
Combo / DVD-RW, DVD-RAM (12.7mm)
FDD
External USB I/F Option
HDD
2.5" 30GB / 40GB / 60GB / 80GB HDD(9.5mm) 4200rpm or 5400rpm
- Ultra DMA 100
Display
15.4" Wide WXGA+ TFT
-Resolution: 1280x800
- 1 CCFT Typical 185cd/m2
-16.77 Million Colors with dithering
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1.2 System Overview(2)
Continue to previous page
Keyboard
US/UK/Japanese keyboard layout(Use the Orignal KBD that other model used)
- 19mm key pitch / 3mm stroke
- Hot key spec: Fn+F1 : WirelessLAN ON/OFF, Fn+F3/E4 : Volume down/up, Fn+F5 :
LCD/CRT output change
Fn+F6/F7: Brightness up/down, Fn+F11: Display ON/OFF, Fn+F12: Standby
Pointing Device
TouchPad (No scroll button)
TypeII x 1
-PCMCIA Standard Rev.2.1 , CardBus support , w/o ZV port
Audio System
Built-in Sound system
- SCMS support - AC97 I/F
- 16-bit Sampling and Playback - 16-bit stereo - Full duplex supported - 3D sound supported
- AC-3 support
- Built-in 2W Woofer
- Built-in stereo speaker, Built-in microphone
- Sound Volume control by Hot-Key (Fn + F3 : Volume down, Fn + F4 : Volume up)
Card Reader
Support Mulit Card Reader
I/O Port
USB(2.0) x 3
IEEE1394 port x 1(4pins)
Mic-in(mono) x 1
Headphone-out(stereo)/SPDIFx 1
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1.2 System Overview(3)
Continue to previous page
Line-in x 1
TV-out (PAL/NTSC) x 1 (Macrovision supported)
RJ-45 LAN Jack x 1 (with cap) RJ-11Modem Jack x 1 (with cap)
Mini-PCI connetor (for WirelessLAN Card)
VGA port x 1 DC-in x 1
Communication
56Kbps(V.90) Fax Modem(MDC) and 100Base-TX LAN
Wireless LAN (IEEE802.11b, g,a/g)
Battery
Li-ion Battery 2200mAh(6-cell) - Battery Life: (TBD)
-RTC bckup battery(Lithium) Standard -Power-ON charge available
Power Supply
60W Universal AC Adapter(100-240V)
Safety Lock
Security Lock hole
Dimension
W353.8 x D250 x H25~32mm
Weight
(P)3.0kg
OS
Windows XP Home Service Pack 1
Accessories
TBD
Windows Logo
Support PC2001 Specification
- need to get the Logo for WindowsXP Home, WHQL Certified
EMI / Safety / Regulation EMI:CE/FCC/UL/TUV, BSMI/CCC(TBD)
Wireless:CE/FCC,WiFi, PTT:CE/FCC, USB:USB2.0 Logo, Energy Star, Harmonic Noise
regulations
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1.3 System Hardware Parts
1.3.1 Intel Banias processors in Micro-FCPGA package.
Intel Banias Processors with 478 pins Micro-FCPGA package.
The first Intel mobile processor with the Intel NetBurst micro-architecture which features include hyper-pipelined
technology, a rapid execution engine, a 400MHz system, an execution trace cache, advanced dynamic execution,
advanced transfer cache, enhanced floating point and multi-media unit, and Streaming SIMD Extensions 2
(SSE2).
The Streaming SIMD Extensions 2 (SSE2) enable break-through levels of performance in multimedia applications
including 3-D graphics, video decoding/encoding, and speech recognition.
Use Source-Synchronous Transfer (SST) of address and data to improve performance by transferring data four
times per bus clock.
Support Enhanced Intel SpeedStep technology, which enables real-time dynamic switching of the voltage and
frequency between two performance modes.
1.3.2 Clock Generator
System frequency synthesizer: ICS950810 Programmable output frequency, divider ratios, output rise/fall time,
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output skew. Programmable spread percentage for EMI control. Watchdog timer technology to reset system if
system malfunctions. Programmable watchdog safe frequency. Support I2C Index read/write and block read/write
operations. Use external 14.318MHz crystal.
1.3.3 Montara-GME GMCH IGUI 3D Graphic DDR/SDR Chipset
Montara-GME GMCH IGUI Host Memory Controller integrates a high performance host interface for Intel
Banias processor, a high performance 2D/3D Graphic Engine, a high performance memory controller, an AGP 4X
interface, and Intel®’ I/O Hub architecture INTEL 82801DBM ICH4-M.
Montara-GME GMCH Host Interface features the AGTL & AGTL+ compliant bus driver technology with
integrated on-die termination to support Intel Banias processors. Montara-GME GMCH provides a 12-deep InOrder-Queue to support maximum outstanding transactions up to 12. It integrated a high performance 2D/3D
Graphic Engine, Video Accelerator and Advanced Hardware Acceleration MPEGI/MPEGII Video Decoder for
the Intel Banias series based PC systems. It also integrates a high performance 2.1GB/s DDR266 Memory
controller to sustain the bandwidth demand from the integrated GUI or external AGP master, host processor, as
well as the multi I/O masters. In addition to integrated GUI, Montara-GME GMCH also can support external AGP
slot with AGP 1X/2X/4X capability and Fast Write Transactions. A high bandwidth and mature Intel®’ I/O Hub
architecture is incorporated to connect Montara-GME GMCH and INTEL 82801DBM ICH4-Mtogether. Intel®’
I/O Hub architecture is developed into three layers, the Multi-threaded I/O Link Layer delivering 1.2GB
bandwidth to connect embedded DMA Master devices and external PCI masters to interface to Multi-threaded I/O
Link layer, the Multi-threaded I/O Link Encoder/Decoder in INTEL 82801DBM ICH4-M to transfer data w/ 533
MB/s bandwidth
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from/to Multi-threaded I/O Link layer to/from Montara-GME GMCH, and the Multi-threaded I/O Link
Encoder/Decoder in Montara-GME GMCH to transfer data w/ 533 MB/s from/to Multi-threaded I/O Link layer
to/from INTEL 82801DBM ICH4-M.
An Unified Memory Controller supporting DDR266 DRAM is incorporated, delivering a high performance data
transfer to/from memory subsystem from/to the Host processor, the integrated graphic engine or external AGP
master, or the I/O bus masters. The memory controller also supports the Suspend to RAM function by retaining
the CKE# pins asserted in ACPI S3 state in which only AUX source deliver power. The Montara-GME GMCH
adopts the Shared Memory Architecture, eliminating the need and thus the cost of the frame buffer memory by
organizing the frame buffer in the system memory. The frame buffer size can be allocated from 8MB to 64MB.
Features
Processor/Host Bus Support
Intel® Banias processor
Support host bus Dynamic Bus Inversion (DBI)
2X Address, 4X data
Supports system bus at 400MT/s (100 MHz) Supports 64-bit host bus addressing
8-deep In-Order-Queue
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AGTL+ bus driver technology with integrated GTL termination resistors and low voltage operation
(1.05V)
Supports Enhanced Intel® Speed Step TM Technology (EIST) and Geyserville III
Support for DPWR# signal to Banias processor for PSB power management
Memory System
Directly supports one DDR channel, 64-bts wide (72-b with ECC).
Supports 200-MHz and 266-MHz DDR devices with max of 2 Double-Sided SO-DIMMs(4 rows populated)
with unbuffered PC1600/PC2100 DDR(with ECC).
Supports 128-Mb, 256-Mb and 512-Mbit technologies providing maximum capacity of 1-GB with only x 16
devices.
All supported devices have 4 banks.
Supports up to 16 simultaneous open pages.
Supports page sizes of 2KB, 4KB, 8KB, and 16KB. Page size is individually selected for every row. UMA
support only.
System Interrupt
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Supports 8259 and Processor
System Bus interrupt delivery mechanism
Supports interrupts signaled as upstream Memory Writes from PCI and Hub interface
MSI sent to the CPU through the system Bus
From IOxAPIC in ICH4-M
Provides redirection for upstream interrupts to the System Bus
Video Stream Decoder
Improved HW Motion Compensation for MPEG2
All format decoder (18 ATSC formats) supported Dynamic Bob and Weave support for Video Streams
Software DVD at 60 fields/second and 30 frames/second full screen
Support for 720x480 pixel resolution DVD quality encoding at low CPU utilization Video Overlay
Single high quality scalable overlay and second Sprite to support second overlay
Multiple overlay functionality provided via Arithmetic Stretch Blt
Direct YUV from Overlay to TV-out
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Independent Gamma Correction
Independent Brightness / Contrast / Saturation
Independent Tint / Hue support
Destination Color keying
Source Chroma keying
Maximum source resolution of 1920x1080 pixels
Maximum overlay clock of 133 MHz/200 MHz provides a pixel resolution up to 1600x1200@ 60Hz or
1280x1024@ 85 Hz
Display
Analog Display Support 350 MHz integrated 24-bit RAMDAC that can drive a standard progressive scan
analog monitor up to 1800x1350 @ 85 Hz accompanying I2C and DDC channels provided through
multiplexed interface hot plug and display support
Dual independent pipe with single display support Simultaneous: Same images and native display timings on
each display device
DVO (DVOB) support
Digital video out port DVOB with 165-MHz dot clock on 12-bit interface
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Variety of DVO devices channel
Compliant with DVI Specification 1.0, thereby providing support for a flat panel up to 2048x1536 pixel
resolution, or digital CRT up to 1920x1080 pixel resolution
1.3.4 I/O Controller Hub : INTEL 82801DBM
The INTEL 82801DBM ICH4-M integrates three Universal Serial Bus 2.0 Host Controllers, the Audio Controller
with AC 97 Interface, the IDE Master/Slave controllers, and Intel®’ I/O Hub architecture. The PCI to LPC Bridge,
I/O Advanced Programmable Interrupt Controller, legacy system I/O and legacy power management
functionalities are integrated as well.
The integrated Universal Serial Bus Host Controllers features Dual Independent UHCI Compliant Host controllers
with six USB ports delivering 480 Mb/s bandwidth and rich connectivity. Besides, Legacy USB devices as well as
over current detection are also implemented.
The Integrated AC97 v2.3 compliance Audio Controller that features a 7-channels of audio speaker out and HSP
v.90 modem support. Additionally, the AC97 interface supports 4 separate SDATAIN pins that is capable of
supporting multiple audio codecs with one separate modem codec.
The integrated IDE Master/Slave controllers features Dual Independent IDE channels supporting PIO mode
transfers up to 16 Mbytes/sec and Ultra DMA 33/66/100. It provides two separate data paths for the dual IDE
channels that sustain the high data transfer rate in the multitasking environment.
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INTEL 82801DBM ICH4-M supports 6 PCI masters and complies with PCI 2.2 specification. It also incorporates
the legacy system I/O like: two 82C37 compatible DMA controllers, Channels 0-3 are hardwired to 8 bit, three
8254 compatible programmable 16-bit counters channels 5-7, hardwired keyboard controller and PS2 mouse
interface(not use in MiTAC 8050 model), Real Time clock with 512Bytes CMOS SRAM and two 82C59
compatible Interrupt controllers. Besides, the I/O APIC managing up to 14 interrupts with both Serial and FSB
interrupt delivery modes is supported.
The integrated power management module incorporates the ACPI 1.0b compliance functions, the APM 1.2
compliance functions, and the PCI bus power management interface spec. v1.1. Numerous power-up events and
power down events are also supported. 21 general purposed I/O pins are provided to give an easy to use logic for
specific application. In addition, the INTEL 82801DBM ICH4-M supports Deeper Sleep power state for Intel
Mobile processor.
A high bandwidth and mature Intel®’ I/O Hub architecture is incorporated to connect Montara and Intel
82801DBM ICH4-M Hub interface together. Intel®’ I/O Hub architecture is developed.
1.3.5 Introducing MOBILITY M10 (Option)
The MOBILITY M10 provides one of the fastest and most advanced 2D, 3D, and multimedia graphics
performance for notebooks. Its architecture introduces the latest achievements in the graphics industry, which
enable the use of the progressive new features in upcoming applications, but without compromising performance.
ATI’s support of DirectX® 9 features, highly optimized OpenGL® support, and flexible memory configurations
allow implementations targeted at the gaming enthusiast, consumer, business and workstation platforms.
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SMARTSHADER™ 2.0 — Advanced Shader Technology
Provides complete hardware-accelerated support for the new DirectX® 9 programmable shader model,
enabling more complex and realistic texture and lighting effects than ever before.
Significant improvement over first-generation shaders introduced in DirectX® 8, with a much more
powerful and intuitive instruction set. Offers full support for this feature in OpenGL® applications.
MOOTHVISION™ 2.0 — Flexible Anti-Aliasing and Anisotropic Filtering
2x/4x/6x full-scene anti-aliasing modes
Adaptive algorithm with programmable sample patterns
2x/4x/8x/16x anisotropic filtering modes
Adaptive algorithm with bi-linear (performance) and tri-linear (quality) options
High Performance Memory Support
Incorporates support for DDR SDRAM/SGRAM.
Features key items from ATI’s third generation HYPER Z™ III technology that conserves memory
bandwidth for improved performance in demanding applications.
Dual Display Support
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Leading-edge technology, fully optimized with HYDRA VISION™, flexibly supports multiple
combinations of notebook LCD, traditional CRT monitors, flat panel displays and TV.
Features Dual Channel DVI support.
230MHz LVDS transmitter supports LCD panels up to QXGA (2048x1536) resolution.
Integrated 165MHz TMDS transmitter supports external flat panels up to UXGA (1600x1200) resolution.
High performance DAC speeds of 400MHz.
Features in Detail
VIDEO Acceleration
M10 allows the integration of industry leading digital video features, including advanced de-interlacing
algorithms for unprecedented video quality and integrated digital TV decode capability. Includes
programmable,independent gamma control for the video overlay.
New FULLSTREAM™ technology removes blocky artifacts from streaming and Internet video and
provides sharper image quality.
Integrated general purpose xDCT engine (capable of performing both forward and inverse discrete cosine
transform) and motion compensation (MC) support for the acceleration of MPEG encoding and decoding
as well as DV (digital video) encoding and decoding.
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1.3.6 TV CH7011
The CH7011 is a Display controller device which accepts a digital graphics input signal, and encodes and
transmits data to a TV output (analog composite, s-video or RGB). The device accepts data over one 12-bit wide
variable voltage data port which supports five different data formats including RGB and YCrCb.The TV-Out
processor will perform non-interlace to interlace conversion with scaling and flicker filters, and encode the data
into any of the NTSC or PAL video standards. The scaling and flicker filter is adaptive and programmable to
enable superior text display. Eight graphics resolutions are supported up to 1024 by 768 with full vertical and
horizontal underscan capability in all modes. A high accuracy low jitter phase locked loop is integrated to create
outstanding video quality. Support is provided for Macrovision™ and RGB bypass mode which enables driving a
VGA CRT with the input data.
Features
TV output supporting up to 1024x768 graphics resolutions
Macro vision™ 7.X copy protection support
Programmable digital interface supports RGB and YCrCb
True scale rendering engine supports under scan in all TV output resolutions
Enhanced text sharpness and adaptive flicker removal with up to 7 lines of filtering
Support for all NTSC and PAL formats
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Provides CVBS, S-Video and SCART (RGB) outputs
TV connection detect
Programmable power management
10-bit video DAC outputs
Fully programmable through serial port
Complete Windows and DOS driver support
Low voltage interface support to graphics device
1.3.7 AC’97 AUDIO SYSTEM: Advance Logic, Inc, ALC655
The ALC655 is a 16-bit, full duplex AC'97 2.3 compatible six channels audio CODEC designed for PC
multimedia systems,including host/soft audio and AMR/CNR based designs. The ALC655 incorporates
proprietary converter technology to meet performance requirements on PC99/2001 systems. The ALC655
CODEC provides three pairs of stereo outputs with 5-Bitvolume controls, a mono output, and multiple stereo and
mono inputs, along with flexible mixing, gain and mute functions to provide a complete integrated audio solution
for PCs. The digital interface circuitry of the ALC655 CODEC operates from a 3.3V power supply for use in
notebook and PC applications. The ALC655 integrates 50mW/20ohm headset audio amplifiers at Front-Out and
Surr-Out, built-in 14.318M 24.576MHz PLL and PCBEEP generator, those can save BOM costs. The ALC655
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also supports the S/PDIF input and output function, which can offer easy connection of PCs to consumer
electronic products, such as AC3 decoder/speaker and mini disk devices. ALC655 supports host/soft audio from
Intel ICHx chipsets as well as audio controller based VIA/SIS/ALI/AMD/nVIDIA/ATI chipset. Bundled Windows
series drivers (Win XP/ME/2000/98/NT), EAX/Direct Sound 3D/ I3DL2/ A3D compatible sound effect utilities
(supporting Karaoke, 26-kind of environment sound emulation,10-band equalizer), HRTF 3D positional audio and
Sensaura™ 3D (optional) provide an excellent entertainment package and game experience for PC users. Besides,
ALC655 includes Realtek’s impedance sensing techniques that makes device load on outputs and inputs can be
detected.
Meets performance requirements for audio on PC99/2001 systems
Meets Microsoft WHQL/WLP 2.0 audio requirements
16-bit Stereo full-duplex CODEC with 48KHz sampling rate
Compliant with AC’97 2.3 specifications
Front-Out, Surround-Out, MIC-In and LINE In Jack Sensing
14.318MHz- 24.576MHz PLL to save crystal
12.288MHz BITCLK input can be consumed
Integrated PCBEEP generator to save buzzer
Interrupt capability
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Three analog line-level stereo inputs with 5-bit volume control: LINE_IN, CD, AUX
High quality differential CD input
Two analog line-level mono input: PCBEEP,PHONE-IN
Two software selectable MIC inputs
A dedicated Front-MIC input for front panel applications (software selectable)
Boost preamplifier for MIC input shared with Center and LFE output
Both Front-out and Surround-Out built-in
LINE Input shared with surround output;
MIC 50mW/20 amplifier
1.3.8 MDC:PCTEL MODEM DAUGHTER CARD PCT2303W (ASKEY
V1456VQL-P1)
The PCT2303W chipset is designed to meet the demand of this emerging worldwide AMR/MDC market. Theof
PC-TEL’s well proven PCT2303W chipset and the HSP56TM MR software modem driver allows systems
manufactures to implement modem functions in PCs at a lower bill of materials (BOM) while maintaining higher
system performance.
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PC-TEL has streamlined the traditional modem into the Host Signal Processing (HSP) solution. Operating with
the Pentium class processors, HSP becomes part of the host computer’s system software. It requires less power to
operate and less physical space than standard modem solutions. PC-TEL’s HSP modem is an easily integrated,
cost-effective communications solution that is flexible enough to carry you into the future.
The PCT2303W chip set is an integrated direct access arrangement (DAA) and Codec that provides a
programmable line interface to meet international telephone line requirements. The PCT2303W chip set is
available in two 16-pin small outline packages (AC’97 interface on PCT303A and phone-line interface on
PCT303W). The chip set eliminates the need for an AFE, an isolation transformer, relays, opto-isolators, and 2-to
4-wire hybrid. The PCT2303W chip set dramatically reduces the number of discrete components and cost
required to achieve compliance with international regulatory requirements. The PCT2303W complies with
AC’97 Interface specification Rev. 2.1.
The chip set is fully programmable to meet world-wide telephone line interface requirements including those
described by CTR21, NET4, JATE, FCC, and various country-specific PTT specifications. The programmable
parameters of the PCT2303W chip set include AC termination, DC termination, ringer impedance, and ringer
threshold. The PCT2303W chip set has been designed to meet stringent world-wide requirements for out-of-band
energy, billing-tone immunity, lightning surges, and safety requirements.
Features
Virtual com port with a DTE throughout up to 460.8Kbps.
G3 Fax compatible
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Auto dial and auto answer
Ring detection
Codec/DAA Features
AC97 2.1 compliant
86dB dynamic range TX/RX paths
2-4-wire hybrid
Integrated ring detector
High voltage isolation of 4000V
Support for “Caller ID”
Compliant with FCC Part68, CTR21, Net4 and JATE
Low power standby
Low profile SOIC package 16 pins 10x3x1.55mm
Low power consumption
10mA @ 3.3V operation
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1mA @ 3.3V power down
Integrated modem codec
Standard Features
Data ITU-T V.90 (56Kbps), V.34 (4.8Kbps TO 33.6 Kbps), V.32 bis (4.8Kbps to 14.4Kbps), V.22 bis (1.2 bps
to 2.4 Kbps), V.21 and Bell 103 and 212A(300 to 1200 bps) modulation protocol.
Data Compression ITU-T V.42bis MNP Class 5
Error Correction ITU-T V.42 LAPM MNP 2-4
Fax ITU-T V. 17, V.29, V.27ter, V.21, Channel 2, Group 3, EIA Class I
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1.3.9 IEEE1394 VT6307L (Option)
1.3.9.1 Overview
The VT6307 IEEE 1394 OHCI Host Controller provides high performance serial connectivity. It implements the
Link and Phy layers for IEEE 1394-1995 High Performance Serial Bus specification release 1.0 and 1394a-2000.
It is compliant with 1394 Open HCI 1.0 and 1.1 with DMA engine support for high performance data transfer via
a 32-bit bus master PCI host bus interface. The VT6307 supports 100, 200 and 400 M bit/sec transmission via an
integrated 2-port PHY. The VT6307 services two types of data packets: asynchronous and isochronous (real time).
The 1394 link core performs arbitration requesting, packet generation and checking, and bus cycle master
operations. It also has root node capability and performs retry operations. The VT6307 is ready to provide
industry-standard IEEE 1394 peripheral connections for desktop and mobile PC platforms. Support for the
VT6307 is built into Microsoft Windows 98, Windows ME, Windows 2000, and Windows XP.
1.3.9.2. Features
32 bit CRC generator and checker for receive and transmit data
On-chip isochronous and asynchronous receive and transmit FIFOs for packets (2K for general receive plus
2K for isochronous transmit plus 2K for asynchronous transmit)
8 isochronous transmit contexts
4 isochronous receive contexts
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3-deep physical post-write queue
2-deep physical response queue
Dual buffer mode enhancements
Skip Processing enhancements
Block Read Request handling
Ack_tardy processing
1.3.10 System Flash Memory (BIOS)
Firmware Hub for Intel® 810, 810E, 815, 815E,815EP, 820, 840, 850 Chipsets
Flexible Erase Capability
Uniform 4 K Byte Sectors
Uniform 16 K Byte overlay blocks for SST49LF002A
Uniform 64 K Byte overlay blocks for SST49LF004ATop boot block protection
16 K Byte for SST49LF002A
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64 K Byte for SST49LF004A
Chip-Erase for PP Mode
Single 3.0-3.6V Read and Write Operations
Superior Reliability
Firmware Hub Hardware Interface Mode
5-signal communication interface supporting byte Read and Write
33 MHz clock frequency operation
WP# and TBL# pins provide hardware write protect for entire chip and/or top Boot Block
Block Locking Register for all blocks
Standard SDP Command Set
Data# Polling and Toggle Bit for End-of-Write detection
5 GPI pins for system design flexibility
4 ID pins for multi-chip selection
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1.3.11 Memory System
1.3.11.1 64MB, 128MB, 256MB, 512MB (x64) 200-Pin DDR SDRAM SODIMM
JEDEC-standard 200-pin, small-outline, dual in-line memory module (SODIMM)
Utilizes 200 Mb/s and 266 Mb/s DDR SDRAM components
64MB (8 Meg x 64 [H]); 128MB (16 Meg x 64, [H] and [HD]); 256MB (32 Meg x 64 [HD]);
(64Meg x 64 [HD])
512MB
VDD= VDDQ= +2.5V ±0.2V
VDDSPD = +2.2V to +5.5V
2.5V I/O (SSTL_2 compatible)
Commands entered on each positive CK edge
DQS edge-aligned with data for READs; center-aligned with data for WRITEs
Internal, pipelined double data rate (DDR) architecture; two data accesses per clock cycle Bidirectional data
strobe (DQS) transmitted/received with data—i.e.,source-synchronous data capture
Differential clock inputs (CK and CK# - can be multiple clocks, CK0/CK0#, CK1/CK1#, etc.)
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Four internal device banks for concurrent operation
Selectable burst lengths: 2, 4, or 8
Auto precharge option
Auto Refresh and Self Refresh Modes
15.6µs (MT4VDDT864H, MT8VDDT1664HD), 7.8125µs (MT4VDDT1664H, MT8VDDT3264HD,
MT8VDDT6464HD) maximum average periodic refresh interval
Serial Presence Detect (SPD) with EEPROM
Fast data transfer rates PC2100 or PC1600
Selectable READ CAS latency for maximum compatibility
Gold-plated edge contacts
1.3.12 PHY: 3.3-V 10Base-T/100Base-TX Integrated PHY Ceiver ,The ICS1893
is a low-power, physical-layer device (PHY)
General
The Realtek RTL8100C(L) is a highly integrated, cost-effective single-chip Fast Ethernet controller that provides
32-bit performance, PCI bus master capability, and full compliance with IEEE 802.3u 100Base-T specifications
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and IEEE 802.3x Full Duplex Flow Control. It also supports the Advanced Configuration Power management
Interface (ACPI), PCI power management for modern operating systems that are capable of Operating System
Directed Power Management (OSPM) to achieve the most efficient power management possible.The
RTL8100C(L) does not support CardBus mode as the RTL8139C does. In addition to the ACPI feature, the
RTL8100C(L) also supports remote wake-up (including AMD Magic Packet, LinkChg, and Microsoft® wakeupframe) in both ACPI and APM environments. The RTL8100C(L) is capable of performing an internal reset
through the application of auxiliary power. When auxiliary power is applied and the main power remains off, the
RTL8100C(L) is ready and waiting for the Magic Packet or Link Change to wake the system up. Also, the
LWAKE pin provides 4 different output signals including active high, active low, positive pulse, and negative
pulse. The versatility of the RTL8100C(L) LWAKE pin provides motherboards with Wake-On-LAN (WOL)
functionality. The RTL8100C(L) also supports Analog Auto-Power-down, that is, the analog part of the
RTL8100C(L) can be shut down temporarily according to user requirements or when the RTL8100C(L) is in a
power down state with the wakeup function disabled.In addition, when the analog part is shut down and the Isolate
B pin is low (i.e. the main power is off), then both the analog and digital parts stop functioning and the power
consumption of the RTL8100C(L) will be negligible. The RTL8100C(L) also supports an auxiliary power
auto-detect function, and will auto-configure related bits of their own PCI power management registers in
PCI configuration space.
128 pin QFP/LQFP
Integrated Fast Ethernet MAC, Physical chip and transceiver in one chip
10 Mb/s and 100 Mb/s operation
Supports 10 Mb/s and 100 Mb/s N-way Auto-negotiation operation
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PCI local bus single-chip Fast Ethernet controller
Compliant to PCI Revision 2.2Supports PCI clock 16.75MHz-40MHz
Supports PCI target fast back-to-back transaction
Provides PCI bus master data transfers and PCI
Memory space or I/O space mapped data transfers of RTL8100C(L)'s operational registers
Supports PCI VPD (Vital Product Data)
Supports ACPI, PCI power management
Supports 25MHz crystal or 25MHz OSC as the internal
Clock source. The frequency deviation of either crystal or OSC must be within 50 PPM.
Compliant to PC99/PC2001 standard
Supports Wake-On-LAN function and remote wake-up (Magic Packet*, LinkChg and Microsoft® wakeup frame)
Supports 4 Wake-On-LAN (WOL) signals (active high, active low, positive pulse, and negative pulse)
Supports auxiliary power-on internal reset, to be ready for remote wake-up when main power still
remains off
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Supports auxiliary power auto-detect, and sets the related capability of power management registers in PCI
configuration space.
Includes a programmable, PCI burst size and early Tx/Rx threshold. Supports a 32-bit general-purpose
timer with the external PCI clock as clock source, to generate timer-interrupt
Contains two large (2Kbyte) independent receive and transmit FIFOs
Advanced power saving mode when LAN function or wakeup function is not used
Uses 93C46 (64*16-bit EEPROM) to store resource configuration, ID parameter, and VPD data.
Supports LED pins for various network activity indications
Supports loopback capability
Half/Full duplex capability
Supports Full Duplex Flow Control (IEEE 802.3x)
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2. System View and Disassembly
2.1 System View
2.1.1 Front View
1394 Jack
Line Out Connector
Line In Connector
MIC In Connector
SD Card Slot
Top Cover Latch
2.1.2 Left-side View
VGA Port
S-Video Port
USB Ports *1
Ventilation Openings
RJ-11 Connector
RJ-45 Connector
PCMCIA Card Socket
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2.1.3 Right-side View
CD-ROM/DVD-ROM Drive
Kensington Lock
2.1.4 Rear View
Kensington Lock
Power Connector
USB Port*2
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2.1.5 Bottom View
Hard Disk Drive
DDR SDRAM Card
Wireless Card
CPU
Battery Park
Stereo Speaker Set
2.1.6 Top-open View
LCD Screen
Power Button
Stereo Speaker Set
Keyboard
Device LED Indicators
Touch Pad
Hard Disk Drive Indicator
Battery Power Charging Indicator
Power Indicator
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2.2 System Disassembly
The section discusses at length each major component for disassembly/reassembly and show corresponding
illustrations.Use the chart below to determine the disassembly sequence for removing components from the
notebook.
NOTE: Before you start to install/replace these modules, disconnect all peripheral devices and make sure the
notebook is not turned on or connected to AC power.
2.2.1 Battery Pack
2.2.2 Keyboard
Modular Components
2.2.3 CPU
2.2.4 HDD Module
2.2.5 DVD-ROM Drive
2.2.6 Wireless Card
NOTEBOOK
2.2.7 Modem Card
2.2.8 DDR-SDRAM
2.2.9 LCD Assembly
LCD Assembly Components
2.2.10 LCD Panel
2.2.11 Inverter Board
2.2.12 System Board
Base Unit Components
2.2.13 Touch Pad
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2.2.1 Battery Pack
Disassembly
1. Carefully put the notebook upside down.
2. Slide the two release lever outwards to the “unlock” (
compartment (). (Figure 2-1)
) position (), while take the battery pack out of the
Figure 2-1 Remove the battery pack
Reassembly
1. Replace the battery pack into the compartment. The battery pack should be correctly connected when you
hear a clicking sound.
2. Slide the release lever to the “lock” (
) position.
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2.2.2 Keyboard
Disassembly
1. Remove the battery pack. (Refer to section 2.2.1 Disassembly)
2. Open the top cover.
3. Loosen the four latches locking the keyboard. (Figure 2-2)
4. Slightly lift up the keyboard and disconnect the cable from the mother board, then separate the keyboard.
(Figure 2-3)
Figure 2-2 Loosen the four latches
Figure 2-3 Disconnect the cable
Reassembly
1. Reconnect the keyboard cable and fit the keyboard back into place with four latches.
2. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.3 CPU
Disassembly
1. Remove the battery pack. (Refer to section 2.2.1 Disassembly)
2. Remove three screws fastening the heatsink cover. (Figure 2-4)
3. Remove three spring screws that secure the heatsink upon the CPU and disconnect the fan’s power cord
from system board. (Figure 2-5)
Figure 2-4 Remove three screws
Figure 2-5 Free the heatsink
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4. To remove the existing CPU, Loosen the screw by a flat screwdriver,upraise the CPU socket to unlock
the CPU. (Figure 2-6)
Figure 2-6 Remove the CPU
Reassembly
1. Carefully, align the arrowhead corner of the CPU with the beveled corner of the socket, then insert CPU
pins into the holes. Tighten the screw by a flat screwdriver to locking the CPU.
2. Connect the fan’s power cord to the system board, fit the heatsink upon the CPU and secure with three
spring screws.
3. Replace the CPU cover and secure with three screws.
4. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.4 HDD Module
Disassembly
1. Carefully put the notebook upside down. Remove the battery pack. (Refer to section 2.2.1 Disassembly)
2. Remove two screws fastening the HDD compartment cover. (Figure 2-7)
3. Remove the one screw and slide the HDD module out of the compartment. (Figure 2-8)
Figure 2-7 Remove the HDD compartment cover
Figure 2-8 Remove HDD module
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4. Remove four screws to separate the hard disk drive from the bracket, remove four screws.
(Figure 2-9)
Figure 2-9 Remove hard disk drive
Reassembly
1. Attach the bracket to hard disk drive and secure with four screws.
2. Slide the HDD module into the compartment and secure with one screw.
3. Place the HDD compartment cover and secure with two screws.
4. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.5 CD/DVD-ROM Drive
Disassembly
1. Carefully put the notebook upside down. Remove the battery pack. (Refer to section 2.2.1 Disassembly)
2. Remove one screw fastening the CD/DVD-ROM drive. (Figure 2-10)
3. Push firmly to release the tray. Then gently pull out the CD/DVD-ROM drive by holding the tray that
pops out. (Figure 2-11)
Figure 2-10 Remove one screw
Figure 2-11 Remove the CD/DVDROM drive
Reassembly
1. Push the CD/DVD-ROM drive into the compartment and secure with one screw.
2. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.6 Wireless Card
Disassembly
1. Carefully put the notebook upside down. Remove the battery pack. (Refer to sections 2.2.1 Disassembly)
2. Remove the two screws fastening the Mini PCI compartment cover. (Figure 2-12)
3. Disconnect the wireless card’s antennae first (). Then pull the retaining clips outwards () and remove
the wireless card (). (Figure 2-13)
Figure 2-12 Remove two screws
Figure 2-13 Remove the Wireless card
Reassembly
1. To install the wireless card, match the wireless card 's notched part with the socket's projected part and firmly
insert it into the socket. Then push down until the retaining clips lock the wireless card into position. Then
sure that the antennae fully populated.
2. Tighten the screws to secure the wireless card compartment cover to the housing.
3. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.7 Modem Card
Disassembly
1. Carefully put the notebook upside down. Remove the battery pack. (Refer to section 2.2.1 Disassembly)
2. Remove two screws fastening modem card’s compartment cover. (Refer to steps 1-2 of section 2.2.6
Disassembly)
3. Remove two screws fastening the modem card. (Figure 2-14)
4. Lift up the modem card and disconnect the cord. (Figure 2-15)
Figure 2-14 Remove two screws
Figure 2-15 Disconnect the cord
Reassembly
1. Reconnect the cord and fit the modem card.
2. Fasten the modem card by two screws.
3. Replace the modem card’s compartment cover by two screws. (Refer to step 2 of section 2.2.6 reassembly).
4. Replace the battery pack. (Refer to section 2.2.1 reassembly)
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2.2.8 DDR-SDRAM
Disassembly
1. Carefully put the notebook upside down. And remove the battery pack. (See section 2.2.1 disassembly)
2. Remove two screws fastening the DDR compartment cover to access the SO-DIMM socket. (Figure 2-16)
Figure 2-16 Remove the cover
Figure 2-17 Remove the SO-DIMM
3. Pull the retaining clips outwards () and remove the SO-DIMM (). (Figure 2-17)
Reassembly
1. To install the DDR, match the DDR's notched part with the socket's projected part and firmly insert the
SO-DIMM into the socket at 20-degree angle. Then push down until the retaining clips lock the DDR
into position.
2. Replace two screws to fasten the DDR compartment cover.
3. Replace the battery pack. (See section 2.2.1 reassembly)
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2.2.9 LCD ASSY
Disassembly
1. Remove the battery pack, keyboard,CPU, hard disk drive, CD/DVD-drive and wireless card.
(See sections 2.2.1,2.2.2, 2.2.3, 2.2.4, 2.2.5 and 2.2.6 Disassembly)
2. Remove the nineteen screws on the bottom of notebook. (Figure 2-18)
3. Remove the four screws that secure the hinge cover. (Figure 2-19)
Figure 2-18 Remove nineteen screws
Figure 2-19 Remove four screws
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4. Remove the two screws and disconnect the touch pad’s cable, then free the top cover.(Figure 2-20)
5. Remove the two hinge covers. (Figure 2-21)
Figure 2-20 Free the Top cover
Figure 2-21 Remove the hinge covers
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6. Disconnect the two cables and remove the four screws. (Figure 2-22)
7. Remove the eight screws. (Figure 2-23)
Figure 2-22 Remove the four screws and
Disconnect the two cables
Figure 2-23 Remove the eight screws
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8. Carefully pull the antenna wires out. Now you can lift up the LCD ASSY from base unit. (Figure 2-24)
Figure 2-24 Free the LCD ASSY
Reassembly
1. Attach the LCD assembly to the base unit and secure with four screws.
2. Rip the antenna wires back into Min-PCI compartment.
3. Reconnect the two cables to the system board. Screw the hinge covers by two screws.
4. Replace the shield and secure with eight screws.
5. Replace the top cover and secure with two screws. And reconnect the touch pad’s cable.
6. Upside down the notebook. secure the housing by nineteen screws and secure two screws in the rear.
7. Replace the Wireless card, CD/DVD-ROM, hard disk drive, CPU, keyboard and battery pack. (Refer to
sections 2.2.6, 2.2.5, 2.2.4, 2.2.3, 2.2.2 and 2.2.1 reassembly)
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2.2.10 LCD Panel
Disassembly
1. Remove the battery, keyboard, hard disk drive, CD/DVD-ROM drive and LCD assembly. (Refer to
section 2.2.1, 2.2.2, 2.2.4, 2.2.5 and 2.2.9 Disassembly)
2. Remove the two rubber pads and two screws on the corners of the panel. (Figure 2-25)
3. Insert a flat screwdriver to the lower part of the LCD cover and gently pry the frame out. Repeat the
process until the cover is completely separated from the housing.
4. Remove the twelve screws and disconnect the cable. (Figure 2-26)
Figure 2-25 Remove LCD cover
Figure 2-26 Remove twelve screws and
disconnect the cable
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5. Remove the six screws that secure the LCD bracket. (Figure 2-27)
6. Disconnect the cable to free the LCD panel. (Figure 2-28)
Figure 2-27 Remove the six screws
Figure 2-28 Free the LCD panel
Reassembly
1. Replace the cable to the LCD.
2. Attach the LCD panel’s bracket back to LCD panel and secure with six screws.
3. Replace the LCD panel into LCD housing.and reconnect two cables to inverter board and secure with two
screws.
4. Fasten the LCD panel by ten screws.
5. Fit the LCD cover and secure with two screws and rubber pads.
6. Replace the LCD assembly, CD/DVD-ROM drive, hard disk drive, keyboard, battery pack. (See sections
2.2.9, 2.2.5, 2.2.4, 2.2.2, and 2.2.1 reassembly)
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2.2.11 Inverter Board
Disassembly
1. Remove the battery, keyboard, hard disk drive, CD/DVD-ROM drive and LCD assembly. (Refer to
section 2.2.1, 2.2.2, 2.2.4, 2.2.5 and 2.2.9 Disassembly)
2. Remove the LCD cover and LCD panel. (Refer to the steps 1-4 of section 2.2.10 Disassembly )
3. Remove the one screw fastening the inverter board and disconnect the cable, Then free the inverter board.
(Figure 2-29)
Figure 2-29 Free the inverter board
Reassembly
1. Reconnect the cable. Fit the inverter board back into place and secure with one screw.
2. Replace the LCD Panel and LCD cover. (Refer to section 2.2.10 reassembly)
3. Replace the LCD assembly. (Refer to section 2.2.9 reassembly)
4. Replace the CD/DVD-ROM drive, hard disk drive, keyboard and battery pack. (Refer to sections 2.2.5,
2.2.4, 2.2.2 and 2.2.1 reassembly)
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2.2.12 System Board
Disassembly
1. Remove the battery, keyboard, hard disk drive, CD/DVD-ROM drive, Wireless card and LCD assembly.
(Refer to sections 2.2.1, 2.2.2, 2.2.4, 2.2.5, 2.2.6 and 2.2.9 Disassembly)
2. Remove the four screws that secure the system board and disconnect the two speaker’s cables. Then lift it
up from the housing. (Figure 2-30)
3. Disconnect the one speaker’s cables from the system board and remove the two screws, Then separate the
bracket and free the system board. (Figure 2-31)
Figure 2-30 Remove four screws and
disconnect the two cables
Figure 2-31 Free the system board
Reassembly
1. Fit the bracket and secure with two screws .
2. Turn over the system board. Reconnect the speaker’s cords.
3. Replace the system board back into the housing and secure with four screws, then reconnect the cable.
4. Replace the LCD assembly, CD/DVD-ROM, HDD, keyboard and battery pack. (Refer to previous section
reassembly)
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2.2.13 Touch Pad
Disassembly
1. Remove the battery pack, keyboard, hard disk drive and CD/DVD-drive. (See sections 2.2.1,2.2.2 , 2.2.4 and
2.2.5 Disassembly)
2. Remove the top cover. (See steps 1-5 in section 2.2.9 Disassembly)
3. Remove the two screws and free the touch pad. (Figure 2-32).
Figure 2-32 Remove the two screws
Reassembly
1. Replace the touch pad and secure the two screws.
2. Replace the top cover. (Refer to the section in 2.2.9 reassembly)
3. Replace the battery pack, keyboard, hard disk drive and CD/DVD-drive. (See sections 2.2.1,2.2.2 ,
2.2.4 and 2.2.5 Disassembly).
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3. Definition & Location of Connectors / Switches
3.1 Mother Board - A
J1 : Inverter Board Connector
J3
J2
J1
J6
SW2
J2 : LCD panel connector
J3 : Internal Left Speaker Connector
J4 : Touch-pad Module Connector
J5 : Internal Key-board Connector
J6 : PCMCIA Card Connector
J7 : Internal Right Speaker Connector
SW4
J5
J7
SW5
J4
SW2 : Power Button
SW4 : Left Button Switch of Touch-pad
SW5 : Right Button Switch of Touch-pad
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3. Definition & Location of Connectors / Switches
3.2 Mother Board - B
PJ701 : AC Adaptor Connector
J706
J702
J709
J704
J701&J706 : USB Port Connector
J702 : CRT Connector
J701
J713
J703 : Battery Connector
J704 : External VGA Connector
PJ701
J705 : Internal Subwoofer Speaker
J707
J707: FAN Connector
J708 : CD-ROM IDE Connector
J712
J711
J709: Lan & Phone Lan Connector
J710 : RTC Battery Connector
J711&J712 : DDR SO-DIMM Module Socket
J713 : Mini-PCI Connector
J703
J714 : Hard Disk Driver Connector
J710
J705
J708
J714
-----To next page-----
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3. Definition & Location of Connectors / Switches
3.2 Mother Board - B
-----Continue From Previous Page----J715
J717
J715&J717: Modem Daughter Board Connector
J716 : SD&MS Card Socket
J718 : IEEE 1394 Connector
J719 : External Micro Phone Jack
J720 : Line Out HP/OPT Jack
J718
J721 : External Line-in Jack
J720
J721
J719
J716
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4. Definition & Location of Major Components
4.1 Mother Board - A
PU2 : +3VS/+5VS Voltage Generator
PU3 : CPU Core Voltage Generator
PU14: +1.8V/+1.35V Voltage Generator
PU2
PU3
PU15 : +2.5VS/+1.25V Voltage Generator
U2 : TV Encoder Controller
U15: SYS BIOS Controller
U16: WINBOND KBC Controller
U15
U524: TPA02012 Audio Amplifier
U524
PU15
U2
U16
PU14
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4. Definition & Location of Major Components
4.2 Mother Board - B
U706 : Thermal Sensor/Fan Controller
U713 : Intel BANIAS CPU
U719
U714 : Intel 855GM/GME North Bridge
U715 : Intel ICH4-M South Bridge
U727
U719 : LAN-RTL8100CL Controller
U724
U724 : IEEE1394 Controller
U713
U706
U725 : SUBWOOFER AMP Controller
U726 : Audio CODEC(ALC655)
U727 : CB710 Card Bus Reader Controller
U714
U725
U715
U726
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5. Pin Descriptions of Major Components
5.1 Intel Banias Pentium M Processor(1)
Signal Name
Type
A[31:3]#
I/O
A20M#
I
ADS#
I/O
ADSTB[1:0]#
I/O
BCLK[1:0]
I
BNR#
I/O
BPM[2:0]#
BPM[3]
O
I/O
Description
A[31:3]# (Address) define a 2 32 -byte physical memory address space.
In sub-phase 1 of the address phase, these pins transmit the address of a
transaction. In sub-phase 2, these pins transmit transaction type
information. These signals must connect the appropriate pins of both
agents on the Intel Pentium M processor system bus. A[31:3]# are source
synchronous signals and are latched into the receiving buffers by
ADSTB[1:0]#. Address signals are used as straps which are sampled
before RESET# is deasserted.
If A20M# (Address-20 Mask) is asserted, the processor masks physical
address bit 20 (A20#) before looking up a line in any internal cache and
before driving a read/write transaction on the bus. Asserting A20M#
emulates the 8086 processor's address wrap-around at the 1-Mbyte
boundary. Assertion of A20M# is only supported in real mode.
A20M# is an asynchronous signal. However, to ensure recognition of
this signal following an Input/Output write instruction, it must be valid
along with the TRDY# assertion of the corresponding Input/Output
Write bus transaction.
ADS# (Address Strobe) is asserted to indicate the validity of the
transaction address on the A[31:3]# and REQ[4:0]# pins. All bus agents
observe the ADS# activation to begin parity checking, protocol
checking, address decode, internal snoop, or deferred reply ID match
operations associated with the new transaction.
Address strobes are used to latch A[31:3]# and REQ[4:0]# on their rising
and falling edges. Strobes are associated with signals as shown below.
Signals
Associated Strobe
REQ[4:0]#, A[16:3]#
ADSTB[0]#
A[31:17]#
ADSTB[1]#
The differential pair BCLK (Bus Clock) determines the system bus
frequency. All processor system bus agents must receive these signals to
drive their outputs and latch their inputs.
BNR# (Block Next Request) is used to assert a bus stall by any bus agent
that is unable to accept new bus transactions. During a bus stall, the
current bus owner cannot issue any new transactions.
BPM[3:0]# (Breakpoint Monitor) are breakpoint and performance
monitor signals. They are outputs from the processor that indicate the
status of breakpoints and programmable counters used for monitoring
processor performance. BPM[3:0]# should connect the appropriate pins
of all Intel Pentium M processor system bus agents. This includes debug
or performance monitoring tools.
Signal Name
BPRI#
BR0#
COMPP3:0]
D[63:0]#
DBR#
Type
Description
I
BPRI# (Bus Priority Request) is used to arbitrate for ownership of the
processor system bus. It must connect the appropriate pins of both
processor system bus agents. Observing BPRI# active (as asserted by
the priority agent) causes the other agent to stop issuing new requests,
unless such requests are part of an ongoing locked operation. The
priority agent keeps BPRI# asserted until all of its requests are
completed, then releases the bus by deasserting BPRI#.
I/O BR0# is used by the processor to request the bus. The arbitration is done
between the Intel Pentium M processor (Symmetric Agent) and the
MCH-M (High Priority Agent) of the Intel 855PM or Intel 855GM
chipset.
Analog COMP[3:0] must be terminated on the system board using precision
(1% tolerance) resistors. Refer to the platform design guides for more
implementation details.
I/O D[63:0]# (Data) are the data signals. These signals provide a 64-bit data
path between the processor system bus agents, and must connect the
appropriate pins on both agents. The data driver asserts DRDY# to
indicate a valid data transfer.
D[63:0]# are quad-pumped signals and will thus be driven four times in
a common clock period. D[63:0]# are latched off the falling edge of
both DSTBP[3:0]# and DSTBN[3:0]#. Each group of 16 data signals
correspond to a pair of one DSTBP# and one DSTBN#. The following
table shows the grouping of data signals to data strobes and DINV#.
Quad-Pumped Signal Groups
Data Group
DSTBN#/DSTBP#
DINV#
D[15:0]#
0
0
D[31:16]#
1
1
D[47:32]#
2
2
D[63:48]#
3
3
Furthermore, the DINV# pins determine the polarity of the data signals.
Each group of 16 data signals corresponds to one DINV# signal. When
the DINV# signal is active, the corresponding data group is inverted and
therefore sampled active high.
O
DBR# (Data Bus Reset) is used only in processor systems where no
debug port is implemented on the system board. DBR# is used by a
debug port interposer so that an in-target probe can drive system reset. If
a debug port is implemented in the system, DBR# is a no connect.
DBR# is not a processor signal.
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Signal Name
DBSY#
DEFER#
DINV[3:0]#
DPSLP#
DRDY#
Type
Description
I/O
DBSY# (Data Bus Busy) is asserted by the agent responsible for driving
data on the processor system bus to indicate that the data bus is in use.
The data bus is released after DBSY# is deasserted. This signal must
connect the appropriate pins on both processor system bus agents.
DEFER# is asserted by an agent to indicate that a transaction cannot be
guaranteed in-order completion. Assertion of DEFER# is normally the
responsibility of the addressed memory or Input/Output agent. This
signal must connect the appropriate pins of both processor system bus
agents.
DINV[3:0]# (Data Bus Inversion) are source synchronous and indicate
the polarity of the D[63:0]# signals. The DINV[3:0]# signals are
activated when the data on the data bus is inverted. The bus agent will
invert the data bus signals if more than half the bits, within the covered
group, would change level in the next cycle.
DINV[3:0]# Assignment To Data Bus
Bus Signal
Data Bus Signals
DINV[3]#
D[63:48]#
DINV[2]#
D[47:32]#
DINV[1]#
D[31:16]#
DINV[0]#
D[15:0]#
DPSLP# when asserted on the platform causes the processor to
transition from the Sleep state to the Deep Sleep state. In order to return
to the Sleep state, DPSLP# must be deasserted. DPSLP# is driven by the
ICH4-M component and also connects to the MCH-M component of the
Intel 855PM or Intel 855GM chipset.
DRDY# (Data Ready) is asserted by the data driver on each data
transfer, indicating valid data on the data bus. In a multi-common clock
data transfer, DRDY# may be deasserted to insert idle clocks. This
signal must connect the appropriate pins of both processor system bus
agents.
Data strobe used to latch in D[63:0]#.
Signals
Associated Strobe
D[15:0]#, DINV[0]#
DSTBN[0]#
D[31:16]#, DINV[1]#
DSTBN[1]#
D[47:32]#, DINV[2]#
DSTBN[2]#
D[63:48]#, DINV[3]#
DSTBN[3]#
Data strobe used to latch in D[63:0]#.
Signals
Associated Strobe
D[15:0]#, DINV[0]#
DSTBP[0]#
D[31:16]#, DINV[1]#
DSTBP[1]#
D[47:32]#, DINV[2]#
DSTBP[2]#
D[63:48]#, DINV[3]#
DSTBP[3]#
I
I/O
I
I/O
DSTBN[3:0]#
I/O
DSTBP[3:0]#
I/O
Type
Description
DPWR#
Signal Name
I
FERR#/PBE#
O
GTLREF
I
DPWR# is a control signal from the Intel 855PM and Intel 855GM
chipsets used to reduce power on the Intel Pentium M data bus input
buffers.
FERR# (Floating-point Error)/PBE#(Pending Break Event) is a
multiplexed signal and its meaning is qualified by STPCLK#. When
STPCLK# is not asserted, FERR#/PBE# indicates a floating point when
the processor detects an unmasked floating-point error. FERR# is
similar to the ERROR# signal on the Intel 80387 coprocessor, and is
included for compatibility with systems using MS-DOS* type
floating-point error reporting. When STPCLK# is asserted, an assertion
of FERR#/PBE# indicates that the processor has a pending break event
waiting for service. The assertion of FERR#/PBE# indicates that the
processor should be returned to the Normal state. When FERR#/PBE# is
asserted, indicating a break event, it will remain asserted until
STPCLK# is deasserted. Assertion of PREQ# when STPCLK# is active
will also cause an FERR# break event.
GTLREF determines the signal reference level for AGTL+ input pins.
GTLREF should be set at 2/3 VCCP . GTLREF is used by the AGTL+
receivers to determine if a signal is a logical 0 or logical 1.
HIT# (Snoop Hit) and HITM# (Hit Modified) convey transaction snoop
operation results. Either system bus agent may assert both HIT# and
HITM# together to indicate that it requires a snoop stall, which can be
continued by reasserting HIT# and HITM# together.
IERR# (Internal Error) is asserted by a processor as the result of an
internal error. Assertion of IERR# is usually accompanied by a
SHUTDOWN transaction on the processor system bus. This transaction
may optionally be converted to an external error signal (e.g., NMI) by
system core logic. The processor will keep IERR# asserted until the
assertion of RESET#, BINIT#, or INIT#.
IGNNE# (Ignore Numeric Error) is asserted to force the processor to
ignore a numeric error and continue to execute noncontrol floating-point
instructions. If IGNNE# is deasserted, the processor generates an
exception on a noncontrol floating-point instruction if a previous
floating-point instruction caused an error. IGNNE# has no effect when
the NE bit in control register 0 (CR0) is set.
IGNNE# is an asynchronous signal. However, to ensure recognition of
this signal following an Input/Output write instruction, it must be valid
along with the TRDY# assertion of the corresponding Input/Output
Write bus transaction.
REQ[4:0]# (Request Command) must connect the appropriate pins of
both processor system bus agents. They are asserted by the current bus
owner to define the currently active transaction type. These signals are
source synchronous to ADSTB[0]#.
HIT#
HITM#
I/O
I/O
IERR#
O
IGNNE#
I
REQ[4:0]#
I/O
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Type
Description
INIT#
Signal Name
I
LINT[1:0]
I
INIT# (Initialization), when asserted, resets integer registers inside the
processor without affecting its internal caches or floating-point registers.
The processor then begins execution at the power on Reset vector
configured during power on configuration. The processor continues to
handle snoop requests during INIT# assertion. INIT# is an asynchronous
signal. However, to ensure recognition of this signal following an
Input/Output Write instruction, it must be valid along with the TRDY#
assertion of the corresponding Input/Output Write bus transaction.
INIT# must connect the appropriate pins of both processor system bus
agents. If INIT# is sampled active on the active to inactive transition of
RESET#, then the processor executes its Built-in Self-Test (BIST)
LINT[1:0] (Local APIC Interrupt) must connect the appropriate pins of
all APIC Bus agents. When the APIC is disabled, the LINT0 signal
becomes INTR, a maskable interrupt request signal, and LINT1
becomes NMI, a nonmaskable interrupt. INTR and NMI are backward
compatible with the signals of those names on the Pentium processor.
Both signals are asynchronous.
Both of these signals must be software configured using BIOS
programming of the APIC register space and used either as NMI/INTR
or LINT[1:0]. Because the APIC is enabled by default after Reset,
operation of these pins as LINT[1:0] is the default configuration.
LOCK# indicates to the system that a transaction must occur atomically.
This signal must connect the appropriate pins of both processor system
bus agents. For a locked sequence of transactions, LOCK# is asserted
from the beginning of the first transaction to the end of the last
transaction.
When the priority agent asserts BPRI# to arbitrate for ownership of the
processor system bus, it will wait until it observes LOCK# deasserted.
This enables symmetric agents to retain ownership of the processor
system bus throughout the bus locked operation and ensure the
atomicity of lock.
Probe Ready signal used by debug tools to determine processor debug
readiness.
Probe Request signal used by debug tools to request debug operation of
the processor.
PROCHOT# (Processor Hot) will go active when the processor
temperature monitoring sensor detects that the processor has reached its
maximum safe operating temperature. This indicates that the processor
Thermal Control Circuit has been activated, if enabled.
This signal may require voltage translation on the motherboard.
Processor Power Status Indicator signal. This signal is asserted when the
processor is in a lower state (Deep Sleep and Deeper Sleep).
LOCK#
I/O
PRDY#
O
PREQ#
I
PROCHOT#
O
PSI#
O
Type
Description
PWRGOOD
Signal Name
I
ITP_CLK[1:0]
I
RESET#
I
RS[2:0]#
I
RSVD
-
SLP#
I
PWRGOOD (Power Good) is a processor input. The processor requires
this signal as a clean indication that the clocks and power supplies are
stable and within their specifications. ‘Clean’ implies that the signal will
remain low (capable of sinking leakage current), without glitches, from
the time that the power supplies are turned on until they come within
specification. The signal must then transition monotonically to a high
state. PWRGOOD can be driven inactive at any time, but clocks and
power must again be stable before a subsequent rising edge of
PWRGOOD.
The PWRGOOD signal must be supplied to the processor; it is used to
protect internal circuits against voltage sequencing issues. It should be
driven high throughout the boundary scan operation.
ITP_CLK[1:0] are copies of BCLK that are used only in processor
systems where no debug port is implemented on the system board.
ITP_CLK[1:0] are used as BCLK[1:0] references for a debug port
implemented on an interposer. If a debug port is implemented in the
system, ITP_CLK[1:0] are no connects. These are not processor signals.
Asserting the RESET# signal resets the processor to a known state and
invalidates its internal caches without writing back any of their contents.
For a power-on Reset, RESET# must stay active for at least two
milliseconds after VCC and BCLK have reached their proper
specifications. On observing active RESET#, both system bus agents
will deassert their outputs within two clocks. All processor straps must
be valid within the specified setup time before RESET# is deasserted.
RS[2:0]# (Response Status) are driven by the response agent (the agent
responsible for completion of the current transaction), and must connect
the appropriate pins of both processor system bus agents.
These pins are RESERVED and must be left unconnected on the board.
However, it is recommended that routing channels to these pins on the
board be kept open for possible future use. Please refer to the platform
design guides for more details.
SLP# (Sleep), when asserted in Stop-Grant state, causes the processor to
enter the Sleep state. During Sleep state, the processor stops providing
internal clock signals to all units, leaving only the Phase-Locked Loop
(PLL) still operating. Processors in this state will not recognize snoops
or interrupts. The processor will recognize only assertion of the
RESET# signal, deassertion of SLP#, and removal of the BCLK input
while in Sleep state. If SLP# is deasserted, the processor exits Sleep
state and returns to Stop-Grant state, restarting its internal clock signals
to the bus and processor core units. If DPSLP# is asserted while in the
Sleep state, the processor will exit the Sleep state and transition to the
Deep Sleep state.
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Signal Name
SMI#
STPCLK#
TCK
TDI
TDO
TEST1,
TEST2,
TEST3
THERMDA
THERMDC
THERMTRIP#
TMS
TRDY#
TRST#
Type
I
Description
SMI# (System Management Interrupt) is asserted asynchronously by
system logic. On accepting a System Management Interrupt, the
processor saves the current state and enter System Management Mode
(SMM). An SMI Acknowledge transaction is issued, and the processor
begins program execution from the SMM handler.
If SMI# is asserted during the deassertion of RESET# the processor will
tristate its outputs.
I
STPCLK# (Stop Clock), when asserted, causes the processor to enter a
low power Stop-Grant state. The processor issues a Stop-Grant
Acknowledge transaction, and stops providing internal clock signals to
all processor core units except the system bus and APIC units. The
processor continues to snoop bus transactions and service interrupts
while in Stop-Grant state. When STPCLK# is deasserted, the processor
restarts its internal clock to all units and resumes execution. The
assertion of STPCLK# has no effect on the bus clock; STPCLK# is an
asynchronous input.
I
TCK (Test Clock) provides the clock input for the processor Test Bus
(also known as the Test Access Port).
I
TDI (Test Data In) transfers serial test data into the processor. TDI
provides the serial input needed for JTAG specification support.
O
TDO (Test Data Out) transfers serial test data out of the processor. TDO
provides the serial output needed for JTAG specification support.
I
TEST1, TEST2, and TEST3 must be left unconnected but should have a
stuffing option connection to V SS separately using 1-k, pull-down
resisitors.
Other Thermal Diode Anode.
Other Thermal Diode Cathode.
O
The processor protects itself from catastrophic overheating by use of an
internal thermal sensor. This sensor is set well above the normal
operating temperature to ensure that there are no false trips. The
processor will stop all execution when the junction temperature exceeds
approximately 125°C. This is signalled to the system by the
THERMTRIP# (Thermal Trip) pin.
I
TMS (Test Mode Select) is a JTAG specification support signal used by
debug tools.
I
TRDY# (Target Ready) is asserted by the target to indicate that it is
ready to receive a write or implicit writeback data transfer. TRDY#
must connect the appropriate pins of both system bus agents.
I
TRST# (Test Reset) resets the Test Access Port (TAP) logic. TRST#
must be driven low during power on Reset.
Type
Description
VCC
VCCA[3:0]
VCCP
VCCQ[1:0]
Signal Name
I
I
I
I
VCCSENSE
O
VID[5:0]
O
VSSSENSE
O
Processor core power supply.
VCCA provides isolated power for the internal processor core PLL’s.
Processor I/O Power Supply.
Quiet power supply for on die COMP circuitry. These pins should be
connected to VCCP on the motherboard. However, these connections
should enable addition of decoupling on the VCCQ lines if necessary.
VCCSENSE is an isolated low impedance connection to processor core
power (VCC ). It can be used to sense or measure power near the silicon
with little noise.
VID[5:0] (Voltage ID) pins are used to support automatic selection of
power supply voltages (Vcc). Unlike some previous generations of
processors, these are CMOS signals that are driven by the Intel Pentium
M processor. The voltage supply for these pins must be valid before the
VR can supply Vcc to the processor. Conversely, the VR output must be
disabled until the voltage supply for the VID pins becomes valid. The
VID pins are needed to support the processor voltage specification
variations.
VSSSENSE is an isolated low impedance connection to processor core
VSS. It can be used to sense or measure ground near the silicon with
little noise.
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Host Interface Signal Descriptions
Type
Description
ADS#
Signal Name
I/O
AGTL+
BNR#
I/O
AGTL+
BPRI#
O
AGTL+
Address Strobe: The system bus owner asserts ADS# to indicate the
first of two cycles of a request phase. The GMCH can assert this
signal for snoop cycles and
interrupt messages.
Block Next Request: Used to block the current request bus owner
from issuing a new request. This signal is used to dynamically control
the CPU bus pipeline depth.
Bus Priority Request: The GMCH is the only Priority Agent on the
system bus. It asserts this signal to obtain the ownership of the
address bus. This signal has priority over symmetric bus requests and
will cause the current symmetric owner to
stop issuing new transactions unless the HLOCK# signal was
asserted.
Bus Request 0#: The GMCH pulls the processor bus BREQ0# signal
low during CPURST#. The signal is sampled by the processor on the
active-to-inactive transition of CPURST#. The minimum setup time
for this signal is 4 BCLKs. The minimum hold time is 2 clocks and
the maximum hold time is 20 BCLKs. BREQ0# should be tristated
after the hold time requirement has been satisfied.
During regular operation, the GMCH will use BREQ0# as an early
indication for FSB Address and Ctl input buffer and sense amp
activation.
CPU Reset: The CPURST# pin is an output from the GMCH. The
GMCH asserts CPURST# while RESET# (PCIRST# from ICH4-M)
is asserted and for approximately 1 ms after RESET# is deasserted.
The CPURST# allows the processor to begin execution in a known
state.
Note that the ICH4-M must provide CPU strap set-up and hold-times
around CPURST#.
This requires strict synchronization between GMCH, CPURST#
deassertion and ICH4-M driving the straps.
Data Bus Busy: Used by the data bus owner to hold the data bus for
transfers requiring more than one cycle.
Defer: GMCH will generate a deferred response as defined by the
rules of the GMCH’s Dynamic Defer policy. The GMCH will also
use the DEFER# signal to indicate a CPU retry response.
BREQ0#
CPURST#
DBSY#
DEFER#
I/O
AGTL+
O
AGTL+
I/O
AGTL+
O
AGTL+
Type
Description
DINV[3:0]#
Signal Name
I/O
AGTL+
DPSLP#
I
CMOS
DRDY#
I/O
AGTL+
I/O
AGTL+
Dynamic Bus Inversion: Driven along with the HD[63:0]# signals.
Indicates if the associated signals are inverted or not. DINV[3:0]# are
asserted such that the number of data bits driven electrically low (low
voltage) within the corresponding 16-bit group never exceeds 8.
DINV# Data Bits
DINV[3]# HD[63:48]#
DINV[2]# HD[47:32]#
DINV[1]# HD[31:16]#
DINV[0]# HD[16:0]#
Deep Sleep #: This signal comes from the ICH4-M device, providing
an indication of C3 and C4 state control to the CPU. Deassertion of
this signal is used as an early indication for C3 and C4 wake up (to
active HPLL). Note that this is a low-voltage
CMOS buffer operating on the FSB VTT power plane.
Data Ready: Asserted for each cycle that data is transferred.
HA[31:3]#
HADSTB[1:0]#
I/O
AGTL+
HD[63:0]#
I/O
AGTL+
Host Address Bus: HA[31:3]# connects to the CPU address bus.
During processor cycles the HA[31:3]# are inputs. The GMCH drives
HA[31:3]# during snoop cycles on behalf of Hub interface.
HA[31:3]# are transferred at 2x rate. Note that the
address is inverted on the CPU bus.
Host Address Strobe: HA[31:3]# connects to the CPU address bus.
During CPU cycles, the source synchronous strobes are used to
transfer HA[31:3]# and HREQ[4:0]# at the 2x transfer rate.
Strobe Address Bits
HADSTB[0]# HA[16:3]#, HREQ[4:0]#
HADSTB[1]# HA[31:17]#
Host Data: These signals are connected to the CPU data bus.
HD[63:0]# are transferred at 4x rate. Note that the data signals are
inverted on the CPU bus.
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Host Interface Signal Descriptions (Continued)
Signal Name
HDSTBP[3:0]#
HDSTBN[3:0]#
Type
Description
I/O
AGTL+
Differential Host Data Strobes: The differential source synchronous
strobes are used to transfer HD[63:0]# and DINV[3:0]# at the 4x
transfer rate.
Strobe Data Bits
HDSTBP[3]#, HDSTBN[3]# HD[63:48]#, DINV[3]#
HDSTBP[2]#, HDSTBN[2]# HD[47:32]#, DINV[2]#
HDSTBP[1]#, HDSTBN[1]# HD[31:16]#, DINV[1]#
HDSTBP[0]#, HDSTBN[0]# HD[15:0]#, DINV[0]#
Hit: Indicates that a caching agent holds an unmodified version of the
requested line. Also, driven in conjunction with HITM# by the target
to extend the snoop window.
Hit Modified: Indicates that a caching agent holds a modified version
of the requested line and that this agent assumes responsibility for
providing the line.
Also, driven in conjunction with HIT# to extend the snoop window.
Host Lock: All CPU bus cycles sampled with the assertion of
HLOCK# and ADS#, until the negation of HLOCK# must be atomic,
i.e. no Hub interface snoopable access to system memory is allowed
when HLOCK# is asserted by the CPU.
Host Request Command: Defines the attributes of the request.
HREQ[4:0]# are transferred at 2x rate. Asserted by the requesting
agent during both halves of the Request Phase. In the first half the
signals define the transaction type to a level of
detail that is sufficient to begin a snoop request. In the second half the
signals carry additional information to define the complete transaction
type.
The transactions supported by the GMCH Host Bridge are defined in
the Host Interface section of this document.
Host Target Ready: Indicates that the target of the processor
transaction is able to enter the data transfer phase.
Response Status: Indicates the type of response according to the
following the table:
RS[2:0]# Response type
000 Idle state
001 Retry response
010 Deferred response
011 Reserved (not driven by GMCH)
100 Hard Failure (not driven by GMCH)
101 No data response
110 Implicit Write back
111 Normal data response
HIT#
I/O
AGTL+
HITM#
I/O
AGTL+
HLOCK#
HREQ[4:0]#
HTRDY#
RS[2:0]#
I/O
AGTL+
I/O
AGTL+
O
AGTL+
O
AGTL+
DDR SDRAM Interface Descriptions
Type
Description
SCS[3:0]#
Signal Name
O
SSTL_2
SMA[12:0]
O
SSTL_2
O
SSTL_2
Chip Select: These pins select the particular DDR SDRAM
components during the active state.
NOTE: There is one SCS# per DDR-SDRAM Physical SO-DIMM
device row.
These signals can be toggled on every rising System Memory Clock
edge (SCMDCLK).
Multiplexed Memory Address: These signals are used to provide
the multiplexed row and column address to the DDR SDRAM.
Bank Select (Memory Bank Address): These signals define which
banks are selected within each DDR SDRAM row. The SMA and
SBA signals combine to address every possible location within a
DDR SDRAM device.
DDR Row Address Strobe: SRAS# may be heavily loaded and
requires tw0 DDR SDRAM clock cycles for setup time to the DDR
SDRAMs. Used with SCAS# and SWE# (along with SCS#) to define
the system memory commands.
DDR Column Address Strobe: SCAS# may be heavily loaded and
requires two clock cycles for setup time to the DDR SDRAMs. Used
with SRAS# and SWE# (along with SCS#) to define the system
memory commands.
Write Enable: Used with SCAS# and SRAS# (along with SCS#) to
define the DDR SDRAM commands. SWE# is asserted during writes
to DDR SDRAM.
SWE# may be heavily loaded and requires two clock cycles for setup
time to the DDR SDRAMs.
Data Lines: These signals are used to interface to the DDR SDRAM
data bus.
NOTE: ECC error detection is supported: by the SDQ[71:64] signals.
SBA[1:0]
SRAS#
O
SSTL_2
SCAS#
O
SSTL_2
SWE#
O
SSTL_2
SDQ[71:0]
I/O
SSTL_2
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DDR SDRAM Interface Descriptions (Continued)
Signal Name
Type
Description
SDQS[8:0]
I/O
SSTL_2
SCKE[3:0]
O
SSTL_2
SMAB[5,4,2,1]
O
SSTL_2
SDM[8:0]
O
SSTL_2
RCVENOUT#
O
SSTL_2
O
SSTL_2
Data Strobes: Data strobes are used for capturing data. During
writes, SDQS is centered on data. During reads, SDQS is edge
aligned with data. The following list matches the data strobe with the
data bytes.
There is an associated data strobe (DQS) for each data signal (DQ)
and check bit
(CB) group.
SDQS[7] -> SDQ[63:56]
SDQS[6] -> SDQ[55:48]
SDQS[5] -> SDQ[47:40]
SDQS[4] -> SDQ[39:32]
SDQS[3] -> SDQ[31:24]
SDQS[2] -> SDQ[23:16]
SDQS[1] -> SDQ[15:8]
SDQS[0] -> SDQ[7:0]
NOTE: ECC error detection is supported by the SDQS[8] signal.
Clock Enable: These pins are used to signal a self-refresh or power
down command to the DDR SDRAM array when entering system
suspend. SCKE is also used to dynamically power down inactive
DDR SDRAM rows. There is one
SCKE per DDR SDRAM row. These signals can be toggled on every
rising SCK edge.
Memory Address Copies: These signals are identical to
SMA[5,4,2,1] and are used to reduce loading for selective
CPC(clock-per-command). These copies are not inverted.
Data Mask: When activated during writes, the corresponding data
groups in the DDR SDRAM are masked. There is one SDM for every
eight data lines. SDM can be sampled on both edges of the data
strobes.
NOTE: ECC error detection is supported by the SDM[8] signal.
Clock Output: Reserved, NC.
RCVENIN#
AGP Addressing Signal Descriptions
Signal Name
Type
Description
Pipelined Read: This signal is asserted by the AGP master to
indicate a full width address is to be enqueued on by the target using
the AD bus. One address is placed
in the AGP request queue on each rising clock edge while PIPE# is
asserted. When PIPE# is deasserted no new requests are queued
across the AD bus.
During SBA Operation: This signal is not used if SBA (Side Band
Addressing) is selected.
During FRAME# Operation: This signal is not used during AGP
FRAME# operation.
PIPE# is a sustained tri-state signal from masters (graphics
controller), and is an input to the GMCH.
I
Side-band Address: These signals are used by the AGP master
GSBA[7:0]
AGP
(graphics controller) to pass address and command to the GMCH. The
SBA bus and AD bus operate independently. That is, transactions can
proceed on the SBA bus and the
AD bus simultaneously.
During PIPE# Operation: These signals are not used during PIPE#
operation.
During FRAME# Operation: These signals are not used during
AGP FRAME# operation.
NOTE: When sideband addressing is disabled, these signals are
isolated (no external/internal pull-ups are required).
5 contains two mechanisms to queue requests by the AGP master. Note that the master can only use
one mechanism. The master may not switch methods without a full reset of the system. When PIPE# is
used to queue addresses the master isnot allowed to queue addresses using the SBA bus. For example,
during configuration time, if the master indicates that it can use either mechanism, the configuration
software will indicate which mechanism the master will use. Once this choice has been made, the
master will continue to use the mechanism selected until the master is reset (and reprogrammed) to use
the other mode. This change of modes is not a dynamic mechanism, but rather a static decision when
the device is first being configured after reset
GPIPE#
I
AGP
Clock Input: Reserved, NC.
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AGP Status Signal Descriptions
Signal Name
GST[2:0]
AGP Flow Control Signals
Type
O
AGP
Description
Status: Provides
information from
the arbiter to an
AGP Master on
what it may do.
ST[2:0] only
have meaning
to the master
when its GNT# is
asserted. When
GNT# is
deasserted
these signals have
no meaning and
must be gnored.
ST[2:0
Meaning
000
Previously requested low priority
read data is being returned to the
master arbiter to an AGP
001
100
Previously requested high priority
read data is being returned to the
master
The master is to provide low priority
write data for a previously queued
write command
The master is to provide high
priority write data for a previously
queued write command.
Reserved
101
Reserved
110
Reserved
111
The master has been given
permission to start a bus transaction.
The master may queue AGP requests
by asserting PIPE# or start a PCI
transaction by asserting FRAME#
010
011
Type
Description
GRBF#
Signal Name
I
AGP
GWBF#
I
AGP
Read Buffer Full: Read buffer full indicates if the master is ready to
accept previously requested low priority read data. When RBF# is
asserted the GMCH is not allowed to initiate the return low priority
read data. That is, the GMCH can finish
returning the data for the request currently being serviced. RBF# is
only sampled at the beginning of a cycle.
If the AGP master is always ready to accept return read data then it is
not required to implement this signal.
During FRAME# Operation: This signal is not used during AGP
FRAME# operation.
Write-Buffer Full: indicates if the master is ready to accept Fast
Write data from the GMCH. When WBF# is asserted the GMCH is
not allowed to drive Fast Write data to the AGP master. WBF# is
only sampled at the beginning of a cycle.
If the AGP master is always ready to accept fast write data then it is
not required to implement this signal.
During FRAME# Operation: This signal is not used during AGP
FRAME# operation.
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AGP/PCI Signals-Semantics Descriptions
Signal Name
GFRAME#
GIRDY#
AGP Strobe Descriptions
Type
Description
I/O
AGP
G_FRAME: Frame.
During PIPE# and SBA Operation: Not used by AGP SBA and
PIPE# operations.
During Fast Write Operation: Used to frame transactions as an
output during Fast Writes.
During FRAME# Operation: G_FRAME# is an output when the
GMCH acts as an initiator on the AGP Interface. G_FRAME# is
asserted by the GMCH to indicate the
beginning and duration of an access. G_FRAME# is an input when
the GMCH acts as a FRAME#-based AGP target. As a
FRAME#-based AGP target, the GMCH latches the C/BE[3:0]# and
the AD[31:0] signals on the first clock edge on which
GMCH samples FRAME# active.
G_IRDY#: Initiator Ready.
During PIPE# and SBA Operation: Not used while enqueueing
requests via AGP SBA and PIPE#, but used during the data phase of
PIPE# and SBA transactions.
During FRAME# Operation: G_IRDY# is an output when GMCH
acts as a FRAME#-based AGP initiator and an input when the GMCH
acts as a FRAME#-based AGP target. The assertion of G_IRDY#
indicates the current FRAME#-based AGP bus initiator's ability to
complete the current data phase of the transaction.
During Fast Write Operation: In Fast Write mode, G_IRDY#
indicates that the AGP-compliant master is ready to provide all write
data for the current transaction. Once G_IRDY# is asserted for a write
operation, the master is not allowed to insert wait states. The master is
never allowed to insert a wait state during the initial data transfer (32
bytes) of a write transaction. However, it may insert wait states after
each 32-byte block is transferred.
I/O
AGP
Type
Description
GADSTB[0]
Signal Name
I/O
AGP
GADSTB#[0]
I/O
AGP
GADSTB[1]
I/O
AGP
GADSTB#[1]
I/O
AGP
GSBSTB
I
AGP
GSBSTB#
I
AGP
Address/Data Bus Strobe-0: provides timing for 2x and 4x data on
AD[15:0] and C/BE[1:0]# signals. The agent that is providing the
data will drive this signal.
Address/Data Bus Strobe-0 Complement: With AD STB0, forms a
differential strobe pair that provides timing information for the
AD[15:0] and C/BE[1:0]# signals. The agent that is providing the
data will drive this signal.
Address/Data Bus Strobe-1: Provides timing for 2x and 4x data on
AD[31:16] and C/BE[3:2]# signals. The agent that is providing the
data will drive this signal.
Address/Data Bus Strobe-1 Complement: With AD STB1, forms a
differential strobe pair that provides timing information for the
AD[15:0] and C/BE[1:0]# signals in 4X mode. The agent that is
providing the data will drive this signal.
Sideband Strobe: Provides timing for 2x and 4x data on the
SBA[7:0] bus. It is driven by the AGP master after the system has
been configured for 2x or 4x sideband address mode.
Sideband Strobe Complement: The differential complement to the
SB_STB signal. It is used to provide timing 4x mode.
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AGP/PCI Signals-Semantics Descriptions (Continued)
Type
Description
GTRDY#
Signal Name
I/O
AGP
GSTOP#
I/O
AGP
GDEVSEL#
I/O
AGP
GREQ#
I
AGP
G_TRDY#: Target Ready.
During PIPE# and SBA Operation: Not used while enqueueing
requests via AGP SBA and PIPE#, but used during the data phase of
PIPE# and SBA transactions.
During FRAME# Operation: G_TRDY# is an input when the
GMCH acts as an AGP initiator and is an output when the GMCH
acts as a FRAME#-based AGP target. The assertion of G_TRDY#
indicates the target’s ability to complete the current data phase of the
transaction.
During Fast Write Operation: In Fast Write mode, G_TRDY#
indicates the AGP-compliant target is ready to receive write data for
the entire transaction (when the transfer size is less than or equal to 32
bytes) or is ready to transfer the initial or
subsequent block (32 bytes) of data when the transfer size is greater
than 32 bytes. The target is allowed to insert wait states after each
block (32 bytes) is transferred on write transactions.
G_STOP#: Stop.
During PIPE# and SBA Operation: This signal is not used during
PIPE# or SBA operation.
During FRAME# Operation: G_STOP# is an input when the
GMCH acts as a FRAME#-based AGP initiator and is an output when
the GMCH acts as a FRAME#-based AGP target. G_STOP# is used
for disconnect, retry, and abort sequences on the AGP interface.
G_ DEVSEL#: Device Select.
During PIPE# and SBA Operation: This signal is not used during
PIPE# or SBA operation.
During FRAME# Operation: G_DEVSEL#, when asserted,
indicates that a FRAME#-based AGP target device has decoded its
address as the target of the current access. The GMCH asserts
G_DEVSEL# based on the DDR SDRAM
address range being accessed by a PCI initiator. As an input,
G_DEVSEL# indicates whether the AGP master has recognized a
PCI cycle to it.
G_REQ#: Request.
During SBA Operation: This signal is not used during SBA
operation.
During PIPE# and FRAME# Operation: G_REQ#, when asserted,
indicates that the AGP master is requesting use of the AGP interface
to run a FRAME#- or PIPE#-based operation.
Signal Name
Type
Description
O
AGP
G_GNT#: Grant.
During SBA, PIPE# and FRAME# Operation: G_GNT#, along
with the information on the ST[2:0] signals (status bus), indicates
how the AGP interface will be used next. Refer to the AGP Interface
Specification, Revision 2.0 for further explanation
of the ST[2:0] values and their meanings.
I/O
GAD[31:0]
G_AD[31:0]: Address/Data Bus.
AGP
During PIPE# and FRAME# Operation: The G_AD[31:0] signals
are used to transfer both address and data information on the AGP
interface.
During SBA Operation: The G_AD[31:0] signals are used to
transfer data on the AGP interface.
I/O
Command/Byte Enable.
GCBE#[3:0]
During FRAME# Operation: During the address phase of a
AGP
transaction, the G_CBE[3:0]# signals define the bus command.
During the data phase, the G_CBE[3:0]# signals are used as byte
enables. The byte enables determine which byte lanes carry
meaningful data. The commands issued on the G_CBE# signals
during FRAME#-based AGP transactions are the same G_CBE#
command described in the PCI 2.2 specification.
During PIPE# Operation: When an address is enqueued using
PIPE#, the C/BE# signals carry command information. The command
encoding used during PIPE#-based AGP is different than the
command encoding used during FRAME#-based AGP cycles (or
standard PCI cycles on a PCI bus).
During SBA Operation: These signals are not used during SBA
operation.
I/O
GPAR
Parity.
AGP
During FRAME# Operation: G_PAR is driven by the GMCH when
it acts as a FRAME#-based AGP initiator during address and data
phases for a write cycle, and during the address phase for a read
cycle. G_PAR is driven by the GMCH when it acts as a
FRAME#-based AGP target during each data phase of a
FRAME#-based AGP memory read cycle. Even parity is generated
across G_AD[31:0] and G_CBE[3:0]#.
During SBA and PIPE# Operation: This signal is not used during
SBA and PIPE# operation.
PCIRST# from the ICH4-M is assumed to be connected to RSTIN# and is used to reset AGP interface
logic within the GMCH. The AGP agent will also typically use PCIRST# provided by the ICH4-M as
an input to reset its internal logic.
GGNT#
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Digital Video Output B (DVOB) Port Signal Descriptions
Hub Interface Signals
Signal Name
Type
I/O
Hub
I/O
Hub
I/O
Hub
HL[10:0]
HLSTB
HLSTB#
Description
Packet Data: Data signals used for HI read and write operations.
Type
ICLKAP
O
LVDS
O
LVDS
O
LVDS
O
LVDS
O
LVDS
O
LVDS
O
LVDS
O
LVDS
ICLKAM
IYAP[3:0]
IYAM[3:0]
ICLKBP
ICLKBM
IYBP[3:0]
IYBM[3:0]
Type
O
DVO
Packet Strobe: One of two differential strobe signals used to transmit
or receive packet data over HI.
Packet Strobe Complement: One of two differential strobe signals
used to transmit or receive packet data over HI.
Dedicated LVDS LCD Flat Panel Interface Signal Descriptions
Name
Name
DVOBD[11:0]
Voltage
1.25 V± 225 mV
1.25 V±225 mV
1.25 V±225 mV
1.25 V±225 mV
1.25 V±225 mV
1.25 V±225 mV
1.25 V±225 mV
1.25 V± 225 mV
Description
Channel A differential clock pair output (true):
245-800 MHz
Channel A differential clock pair output
(compliment): 245-800 MHz.
Channel A differential data pair 3:0 output (true):
245-800MHz.
Channel A differential data pair 3:0 output
(compliment): 245-800 MHz.
Channel B differential clock pair output (true):
245-800 MHz.
Channel B differential clock pair output
(compliment): 245-800 MHz.
Channel B differential data pair 3:0 output (true):
245-800MHz.
Channel B differential data pair 3:0 output
(compliment): 245-800 MHz.
DVOBHSYNC
O
DVO
DVOBVSYNC
O
DVO
DVOBBLANK# O
DVO
DVOBFLDSTL I
DVO
Description
DVOB Data: This data bus is used to drive 12-bit RGB data on each
edge of the differential clock signals, DVOBCLK and DVOBCLK#.
This provides 24-bits of data per clock period. In dual channel mode,
this provides the lower 12-bits of pixel data.
DVOBD[11:0] should be left as left as NC (“Not Connected”) if not
used.
Horizontal Sync: HSYNC signal for the DVOB interface.
DVOBHSYNC should be left as left as NC (“Not Connected”) if not
used.
Vertical Sync: VSYNC signal for the DVOB interface.
DVOBVSYNC should be left as left as NC (“Not Connected”) if the
signal is NOT used when using internal graphics device.
Flicker Blank or Border Period Indication: DVOBBLANK# is a
programmable output pin driven by the GMCH.
When programmed as a blank period indication, this pin indicates
active pixels excluding the border. When programmed as a border
period indication, this pin indicates active pixel including the border
pixels.
DVOBBLANK# should be left as left as NC (“Not Connected”) if not
used.
TV Field and Flat Panel Stall Signal. This input can be
programmed to be either a TV Field input from the TV encoder or
Stall input from the flat panel.
DVOB TV Field Signal: When used as a Field input, it synchronizes
the overlay field with the TV encoder field when the overlay is
displaying an interleaved source.
DVOB Flat Panel Stall Signal: When used as the Stall input, it
indicates that the pixel pipeline should stall one horizontal line. The
signal changes during horizontal blanking. The panel fitting logic,
when expanding the image vertically, uses this.
DVOBFLDSTL needs to be pulled down if not used.
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DVOB and DVOC Port Common Signal Descriptions
Name
DVOBCINTR#
ADDID[7:0]
DVODETECT
Type
Description
I
DVO
I
DVO
DVOBC Interrupt: This pin is used to signal an interrupt, typically
used to indicate a hot plug or unplug of a digital display.
ADDID[7:0]: These pins are used to communicate to the Video BIOS
when an external device is interfaced to the DVO port.
Note: Bit[7] needs to be strapped low when an on-board DVO device
is present.
The other pins should be left as NC.
DVODETECT: This strapping signal indicates to the GMCH
whether a DVO device is present or not. When a DVO device is
connected, then DVODETECT = 0.
I
DVO
Digital Video Output C (DVOC) Port Signal Descriptions
Type
Description
DVOCD[11:0]
Name
O
DVO
DVOCHSYNC
O
DVO
DVOCVSYNC
O
DVO
DVOCBLANK#
O
DVO
DVOCFLDSTL
I
DVO
DVOC Data: This data bus is used to drive 12-bit RGB data on each
edge of the differential clock signals, DVOCCLK and DVOCCLK#.
This provides 24-bits of data per clock period. In dual channel mode,
this provides the upper 12-bits of pixel data.
DVOCD[11:0] should be left as left as NC (“Not Connected”) if not
used.
Horizontal Sync: HSYNC signal for the DVOC interface.
DVOCHSYNC should be left as left as NC (“Not Connected”) if not
used.
Vertical Sync: VSYNC signal for the DVOC interface.
DVOCVSYNC should be left as left as NC (“Not Connected”) if the
signal is NOT used when using internal graphics device.
Flicker Blank or Border Period Indication: DVOCBLANK# is a
programmable output pin driven by the GMCH.
When programmed as a blank period indication, this pin indicates
active pixels excluding the border. When programmed as a border
period indication, this pin indicates active pixel including the border
pixels.
DVOCBLANK# should be left as left as NC (“Not Connected”) if not
used.
TV Field and Flat Panel Stall Signal. This input can be
programmed to be either a TV Field input from the TV encoder or
Stall input from the flat panel.
DVOC TV Field Signal: When used as a Field input, it synchronizes
the overlay field with the TV encoder field when the overlay is
displaying an interleaved source.
DVOC Flat Panel Stall Signal: When used as the Stall input, it
indicates that the pixel pipeline should stall one horizontal line. The
signal changes during horizontal blanking. The panel fitting logic,
when expanding the image vertically, uses this.
DVOCFLDSTL needs to be pulled down if not used.
Analog CRT Display Signal Descriptions
Pin Name
VSYNC
HSYNC
RED
RED#
GREEN
GREEN#
BLUE
BLUE#
Type
Description
O
CMOS
O
CMOS
O
Analog
CRT Vertical Synchronization: This signal is used as the vertical
sync signal.
CRT Horizontal Synchronization: This signal is used as the
horizontal sync signal.
Red (Analog Video Output): This signal is a CRT Analog video
output from the internal color palette DAC. The DAC is designed for
a 37.5-§Ù equivalent load on each pin (e.g., 75-§Ù resistor on the
board, in parallel with the 75-§Ù CRT load).
Red# (Analog Output): Tied to ground.
O
Analog
O
Analog
O
Analog
O
Analog
O
Analog
Green (Analog Video Output): This signal is a CRT analog video
output from the internal color palette DAC. The DAC is designed for
a 37.5-§Ù equivalent load on each pin (e.g.,75-§Ù resistor on the
board, in parallel with the 75- §Ù CRT load).
Green# (Analog Output): Tied to ground.
Blue (Analog Video Output) : This signal is a CRT Analog video
output from the internal color palette DAC. The DAC is designed for
a 37.5-§Ù equivalent load on each pin (e.g., 75ohm resistor on the board, in parallel with the 75-§Ù CRT load).
Blue# (Analog Output): Tied to ground.
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GPIO Signal Descriptions
GPIO I/F Total
RSTIN#
PWROK
AGPBUSY#
EXTTS_0
LCLKCTLA
LCLKCTLB
PANELVDDEN
PANELBKLTE
N
PANELBKLTC
TL
DDCACLK
DDCADATA
DDCPCLK
DDCPDATA
Type
I
CMOS
I
CMOS
O
CMOS
I
CMOS
O
CMOS
O
CMOS
O
CMOS
O
CMOS
O
CMOS
I/O
CMOS
I/O
CMOS
I/O
CMOS
I/O
CMOS
Comments
Reset: Primary Reset, Connected to PCIRST# of ICH4-M.
GPIO I/F Total
Type
MI2CCLK
I/O
DVO
MI2CDATA
I/O
DVO
MDVICLK
I/O
DVO
MDVIDATA
I/O
DVO
MDDCDATA
I/O
DVO
MDDCCLK
I/O
DVO
Power OK: Indicates that power to GMCH is stable.
AGPBUSY: Output of the GMCH IGD to the ICH4-M, which
indicates that certain graphics activity is taking place. It will indicate
to the ACPI software not to enter the C3 state. It will
also cause a C3/C4 exit if C3/C4 was being entered, or was already
entered when
AGPBUSY# went active. Not active when the IGD is in any ACPI
state other than D0.
External Thermal Sensor Input: This signal is an active low input
to the GMCH and is used to monitor the thermal condition around the
system memory and is used for triggering a read throttle. The GMCH
can be optionally programmed to send a SERR, SCI, or SMI message
to the ICH4-M upon the triggering
of this signal.
SSC Chip Clock Control: Can be used to control an external clock
chip with SSC control.
SSC Chip Data Control: Can be used to control an external clock
chip for SSC control.
LVDS LCD Flat Panel Power Control: This signal is used enable
power to the panel interface.
LVDS LCD Flat Panel Backlight Enable: This signal is used to
enable the backlight inverter (BLI)
LVDS LCD Flat Panel Backlight Brightness Control: This signal
is used as the Pulse
Width Modulated (PWM) control signal to control the backlight
inverter.
CRT DDC Clock: This signal is used as the DDC clock signal
between the CRT monitor and the GMCH.
CRT DDC Data: This signal is used as the DDC data signal between
the CRT monitor and the GMCH.
Panel DDC Clock: This signal is used as the DDC clock signal
between the LFP and the GMCH.
Panel DDC Data: This signal is used as the DDC data signal
between the LFP and the GMCH.
Comments
DVO I2C Clock: This signal is used as the I2C_CLK for a digital
display (i.e. TV-Out Encoder, TMDS transmitter). This signal is
tri-stated during a hard reset.
DVO I2C Data: This signal is used as the I2C_DATA for a digital
display (i.e. TV-Out Encoder, TMDS transmitter). This signal is
tri-stated during a hard reset.
DVI DDC Clock: This signal is used as the DDC clock for a digital
display connector (i.e. primary digital monitor). This signal is
tri-stated during a hard reset.
DVI DDC Data: The signal is used as the DDC data for a digital
display connector (i.e. primary digital monitor). This signal is
tri-stated during a hard reset.
DVI DDC Clock: The signal is used as the DDC data for a digital
display connector (i.e. secondary digital monitor). This signal is
tri-stated during a hard reset.
DVI DDC Data: The signal is used as the DDC clock for a digital
display connector (i.e. secondary digital monitor). This signal is
tri-stated during a hard reset.
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Firmware Hub Interface Signals
Hub Interface Signals
Signal Name
Type
Description
HI[11:0]
I/O
Hub Interface Signals
HI_STB/HI_STBS
I/O
HI_STB#/
HI_STBF
I/O
Hub Interface Strobe/ Hub Interface Strobe Second: One of two
differential strobe signals used to transmit and receive data through
the hub interface.
Hub Interface 1.5 mode this signal is not differential and is the
second of the two strobe signals.
Hub Interface Strobe Complement / Hub Interface Strobe First:
One of two differential strobe signals used to transmit and receive
data through the hub interface.
Hub Interface 1.5 mode this signal is not differential and is the first
of the two strobe signals.
Hub Interface Compensation: Used for hub interface buffer
compensation.
Hub Interface Voltage Swing: Analog input used to control the
voltage swing and impedance strength of hub interface pins.
HICOMP
HI_VSWING
I/O
I
Signal Name
FWH[3:0]/
LAD[3:0]
FWH[4]/
LFRAME#
Type
Firmware Hub Signals. Muxed with LPC address signals.
I/O
LFRAME# Firmware Hub Signals. Muxed with LPC LFRAME#
signal.
PCI Interface Signals
Type
Description
AD[31:0]
Signal Name
I/O
C/BE[3:0]#
I/O
DEVSEL#
I/O
PCI Address/Data: AD[31:0] is a multiplexed address and data
bus. During the first clock of a transaction, AD[31:0] contain a
physical address (32 bits). During subsequent clocks, AD[31:0]
contain data. The ICH4 drives all 0s on AD[31:0] during the address
phase of all PCI Special Cycles.
Bus Command and Byte Enables: The command and byte enable
signals are multiplexed on the same PCI pins. During the address
phase of a transaction, C/BE[3:0]# define the bus command. During
the data phase, C/BE[3:0]# define the Byte Enables.
C/BE[3:0]#
Command Type
0000
Interrupt Acknowledge
0001
Special Cycle
0010
I/O Read
0011
I/O Write
0110
Memory Read
0111
Memory Write
1010
Configuration Read
1011
Configuration Write
1100
Memory Read Multiple
1110
Memory Read Line
1111
Memory Write and Invalidate
All command encodings not shown are reserved. The ICH4 does not
decode reserved values, and therefore will not respond if a PCI
master generates a cycle using one of the reserved values.
Device Select: The ICH4 asserts DEVSEL# to claim a PCI
transaction. As an output, the ICH4 asserts DEVSEL# when a PCI
master peripheral attempts an access to an internal ICH4 address or
an address destined for the hub interface (main memory or AGP).
As an input, DEVSEL# indicates the response to an ICH4-initiated
transaction on the PCI bus. DEVSEL# is tri-stated from the leading
edge of PCIRST#. DEVSEL# remains tri-stated by the ICH4 until
driven by a Target device.
LAN Connect Interface Signals
Type
Description
LAN_CLK
Signal Name
I
LAN_RXD[2:0]
I
LAN_TXD[2:0]
O
LAN_RSTSYNC
O
LAN I/F Clock: Driven by the LAN Connect component.
Frequency range is 5 MHz to 50 MHz.
Received Data: The LAN Connect component uses these signals to
transfer data and control information to the integrated LAN
Controller. These signals have integrated weak pull-up resistors.
Transmit Data: The integrated LAN Controller uses these signals
to transfer data and control information to the LAN Connect
component.
LAN Reset/Sync: The LAN Connect component’s Reset and Sync
signals are multiplexed onto this pin.
EEPROM Interface Signals
Signal Name
Type
Description
EE_SHCLK
O
EEPROM Shift Clock: Serial shift clock output to the EEPROM.
EE_DIN
I
EE_DOUT
O
EE_CS
O
EEPROM Data In: Transfers data from the EEPROM to the ICH3.
This signal has an integrated pull-up resistor.
EEPROM Data Out: Transfers data from the ICH3 to the
EEPROM.
EEPROM Chip Select: Chip select signal to the EEPROM.
Description
I/O
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PCI Interface Signals (Continued)
PCI Interface Signals (Continued)
Signal Name
FRAME#
IRDY#
TRDY#
PAR
Type
Description
I/O
Cycle Frame: The current Initiator drives FRAME# to indicate the
beginning and duration of a PCI transaction. While the Initiator
asserts FRAME#, data transfers continue. When the Initiator
negates FRAME#, the transaction is in the final data phase.
FRAME# is an input to the ICH4 when the ICH4 is the Target, and
FRAME# is an output from the ICH4 when the ICH4 is the Initiator.
FRAME# remains tri- stated by the ICH4 until driven by an
Initiator.
Initiator Ready: IRDY# indicates the ICH4's ability, as an
Initiator, to complete the current data phase of the transaction. It is
used in conjunction with TRDY#. A data phase is completed on any
clock that both IRDY# and TRDY# are sampled asserted. During a
write, IRDY# indicates the ICH4 has valid data present on
AD[31:0]. During a read, it indicates the ICH4 is prepared to latch
data. IRDY# is an input to the ICH4 when the ICH4 is the Target
and an output from the ICH4 when the ICH4 is an Initiator. IRDY#
remains tri-stated by the ICH4 until driven by an Initiator.
Target Ready: TRDY# indicates the ICH4's ability, as a Target, to
complete the current data phase of the transaction. TRDY# is used
in conjunction with IRDY#. A data phase is completed when both
TRDY# and IRDY# are sampled asserted.
During a read, TRDY# indicates that the ICH4, as a Target, has
placed valid data on AD[31:0]. During a write, TRDY# indicates
that the ICH4, as a Target, is prepared to latch data. TRDY# is an
input to the ICH4 when the ICH4 is the Initiator and an output from
the ICH4 when the ICH4 is a Target. TRDY# is tri-stated from the
leading edge of PCIRST#. TRDY# remains tri-stated by the ICH4
until driven by a target.
Calculated/Checked Parity: PAR uses “even” parity calculated on
36 bits, AD[31:0] plus C/BE[3:0]#. “Even” parity means that the
ICH4 counts the number of 1s within the 36 bits plus PAR and the
sum is always even. The ICH4 always calculates PAR on 36 bits
regardless of the valid byte enables. The ICH4 generates PAR for
address and data phases and only guarantees PAR to be valid one
PCI clock after the corresponding address or data phase. The ICH4
drives and tri-states PAR identically to the AD[31:0] lines except
that the ICH4 delays PAR by exactly one PCI clock. PAR is an
output during the address phase (delayed one clock) for all ICH4
initiated transactions. PAR is an output during the data phase
(delayed one clock) when the ICH4 is the Initiator of a PCI write
transaction, and when it is the Target of a read transaction. ICH4
checks parity when it is the Target of a PCI write transaction. If a
parity error is detected, the ICH4 will set the appropriate internal
status bits, and has the option to generate an NMI# or SMI#.
I/O
I/O
I/O
Type
Description
STOP#
Signal Name
I/O
PERR#
I/O
Stop: STOP# indicates that the ICH4, as a Target, is requesting the
Initiator to stop the current transaction. STOP# causes the ICH4, as
an Initiator, to stop the current transaction. STOP# is an output
when the ICH4 is a Target and an input when the ICH4 is an
Initiator. STOP# is tri-stated from the leading edge of PCIRST#.
STOP# remains tri-stated until driven by the ICH4.
Parity Error: An external PCI device drives PERR# when it
receives data that has a parity error. The ICH4 drives PERR# when
it detects a parity error. The ICH4 can either generate an NMI# or
SMI# upon detecting a parity error (either detected internally or
reported via the PERR# signal).
PCI Requests: The ICH4 supports up to 6 masters on the PCI bus.
REQ[5]# is muxed with PC/PCI REQ[B]# (must choose one or the
other, but not both). If not used for PCI or PC/PCI,
REQ[5]#/REQ[B]# can instead be used as GPIO[1].
NOTE: REQ[0]# is programmable to have improved arbitration
latency for for supporting PCI-based 1394 controllers.
PCI Grants: The ICH4 supports up to 6 masters on the PCI bus.
GNT[5]# is muxed with PC/PCI GNT[B]# (must choose one or the
other, but not both). If not needed for PCI or PC/PCI, GNT[5]# can
instead be used as a GPIO.
Pull-up resistors are not required on these signals. If pull-ups are
used, they should be tied to the Vcc3_3 power rail.
GNT[B]#/GNT[5]#/GPIO[17] has an internal pull-up.
PCI Clock: This is a 33 MHz clock. PCICLK provides timing for
all transactions on the PCI Bus.
NOTE: This clock does not stop based on STP_PCI# signal.
PCICLK only stops based on SLP_S1# or SLP_S3#.
PCI Reset: ICH4 asserts PCIRST# to reset devices that reside on
the PCI bus. The ICH4 asserts PCIRST# during power-up and when
S/W initiates a hard reset sequence through the RC (CF9h) register.
The ICH4 drives PCIRST# inactive a minimum of 1 ms after
PWROK is driven active. The ICH4 drives PCIRST# active
a minimum of 1 ms when initiated through the RC register.
PCI Lock: This signal indicates an exclusive bus operation and
may require multiple transactions to complete. ICH4 asserts
PLOCK# when it performs non- exclusive transactions on the PCI
bus. Devices on the PCI bus (other than the ICH4) are not permitted
to assert the PLOCK# signal.
System Error: SERR# can be pulsed active by any PCI device that
detects a system error condition. Upon sampling SERR# active, the
ICH4 has the ability to generate an NMI, SMI#, or interrupt.
REQ[4:0]#
REQ[5]#/
REQ[B]#/
GPIO[1]
I
GNT[4:0]#
GNT[5]#/
GNT[B]#/
GPIO[17]
O
PCICLK
I
PCIRST#
O
PLOCK#
I/O
SERR#
I/OD
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PCI Interface Signals (Continued)
Signal Name
PME#
IDE Interface Signals (Continued)
Type
Description
I/OD
PCI Power Management Event: PCI peripherals drive PME# to
wake the system from low-power states S1-M–S5. PME# assertion
can also be enabled to generate an SCI from the S0 state. In some
cases the ICH4 may drive PME# active due to an internal wake
event. The ICH4 will not drive PME# high, but it will be pulled up
to VccSus3_3 by an internal pull-up resistor.
PCI Clock Run: Used to support PCI Clock Run protocol.
Connects to PCI devices that need to request clock re-start, or
prevention of clock stopping.
NOTE: An external pull-up to the core power plane is required.
PC/PCI DMA Request [A:B]: This request serializes ISA-like
DMA Requests for the purpose of running ISA-compatible DMA
cycles over the PCI bus. This is used by devices such as PCI based
Super I/O or audio codecs which need to perform legacy 8237 DMA
but have no ISA bus.
When not used for PC/PCI requests, these signals can be used as
General Purpose Inputs. REQ[B]# can instead be used as the 6th
PCI bus request.
PC/PCI DMA Acknowledges [A: B]: This grant serializes an
ISA-like DACK# for the purpose of running DMA/ISA Master
cycles over the PCI bus. This is used by devices such as PCI based
Super/IO or audio codecs which need to perform legacy 8237 DMA
but have no ISA bus.
When not used for PC/PCI, these signals can be used as General
Purpose Outputs. GNTB# can also be used as the 6th PCI bus
master grant output. These signal have internal pull-up resistors.
CLKRUN#
I/O
REQ[A]#/
GPIO[0]
REQ[B]#/
REQ[5]#/
GPIO[1]
I
GNT[A]#/
GPIO[16]
GNT[B]#/
GNT[5]#/
GPIO[17]
O
Signal Name
Type
Description
PDD[15:0],
SDD[15:0]
I/O
PDDREQ,
SDDREQ
I
PDDACK#,
SDDACK#
O
PDIOR#/
(PDWSTB/PRDMA
RDY#)
O
Primary and Secondary IDE Device Data: These signals directly
drive the corresponding signals on the primary or secondary IDE
connector. There is a weak internal pull-down resistor on PDD[7]
and SDD[7].
Primary and Secondary IDE Device DMA Request: These input
signals are directly driven from the DRQ signals on the primary or
secondary IDE connector. It is asserted by the IDE device to request
a data transfer, and used in conjunction with the PCI bus master IDE
function and are not associated with any AT compatible DMA
channel. There is a weak internal pull-down resistor on these
signals.
Primary and Secondary IDE Device DMA Acknowledge: These
signals directly drive the DAK# signals on the primary and
secondary IDE connectors. Each is asserted by the ICH4 to indicate
to IDE DMA slave devices that a given data transfer cycle (assertion
of DIOR# or DIOW#) is a DMA data transfer cycle. This signal is
used in conjunction with the PCI bus master IDE function and are
not associated with any AT-compatible DMA channel.
Primary and Secondary Disk I/O Read (PIO and Non-Ultra
DMA): This is the command to the IDE device that it may drive
data onto the PDD or SDD lines. Data is latched by the ICH4 on the
deassertion edge of PDIOR# or SDIOR#. The IDE device is
selected either by the ATA register file chip selects (PDCS1# or
SDCS1#, PDCS3# or SDCS3#) and the PDA or SDA lines, or the
IDE DMA acknowledge (PDDAK# or SDDAK#).
Primary and Secondary Disk Write Strobe (Ultra DMA Writes to
Disk): This is the data write strobe for writes to disk. When writing
to disk, ICH4 drives valid data on rising and falling edges of
PDWSTB or SDWSTB. Primary and Secondary Disk DMA Ready
(Ultra DMA Reads from Disk): This is the DMA ready for reads
from disk. When reading from disk, ICH4 deasserts
PRDMARDY# or SRDMARDY# to pause burst data transfers.
Primary and Secondary Disk I/O Write (PIO and Non-Ultra
DMA): This is the command to the IDE device that it may latch
data from the PDD or SDD lines. Data is latched by the IDE device
on the deassertion edge of PDIOW# or SDIOW#. The IDE device is
selected either by the ATA register file chip selects (PDCS1# or
SDCS1#, PDCS3# or SDCS3#) and the PDA or SDA lines, or the
IDE DMA acknowledge (PDDAK# or SDDAK#).
Primary and Secondary Disk Stop (Ultra DMA): ICH4 asserts this
signal to terminate a burst.
SDIOR#/
(SDWSTB/SRDMA
RDY#)
IDE Interface Signals
Signal Name
Type
Description
PDCS1#, SDCS1#
O
Primary and Secondary IDE Device Chip Selects for 100 Range:
For ATA command register block. This output signal is connected
to the corresponding signal on the primary or secondary IDE
connector.
Primary and Secondary IDE Device Chip Select for 300 Range:
For ATA control register block. This output signal is connected to
the corresponding signal on the primary or secondary IDE
connector.
Primary and Secondary IDE Device Address: These output
signals are connected to the corresponding signals on the primary or
secondary IDE connectors. They are used to indicate which byte in
either the ATA command block or control block is being addressed.
PDCS3#, SDCS3#
O
PDA[2:0],
SDA[2:0]
O
PDIOW#/
(PDSTOP)
SDIOW#/
(SDSTOP)
O
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IDE Interface Signals (Continued)
LPC Interface Signals
Signal Name
Type
Description
PIORDY#/
(PDRSTB/PWDMA
RDY#)
I
Primary and Secondary I/O Channel Ready (PIO): This signal
will keep the strobe active (PDIOR# or SDIOR# on reads, PDIOW#
or SDIOW# on writes) longer than the minimum width. It adds wait
states to PIO transfers.
Primary and Secondary Disk Read Strobe (Ultra DMA Reads from
Disk): When reading from disk, the ICH4 latches data on rising and
falling edges of this signal from the disk.
Primary and Secondary Disk DMA Ready (Ultra DMA Writes to
Disk): When writing to disk, this is de-asserted by the disk to pause
burst data transfers.
SIORDY#/
(SDRSTB/SWDMA
RDY#)
Signal Name
LAD[3:0]/
FWH[3:0]
LFRAME#/
FWH[4]
LDRQ[1:0]#
Type
I/O
O
I
Description
LPC Multiplexed Command, Address, Data: For the LAD[3:0]
signals, internal pull-ups are provided.
LPC Frame: LFRAME# indicates the start of an LPC cycle, or an
abort.
LPC Serial DMA/Master Request Inputs: LDRQ[1:0]# are used
to request DMA or bus master access. These signals are typically
connected to an external Super I/O device. An internal pull-up
resistor is provided on these signals.
USB Interface Signals
Signal Name
Interrupt Signals
Signal Name
SERIRQ
PIRQ[D:A]#
PIRQ[H:E]#/
GPIO[5:2]
Type
Description
I/O
Serial Interrupt Request: This pin implements the serial interrupt
protocol.
PCI Interrupt Requests: In Non-APIC Mode the PIRQx# signals
can be routed to interrupts 3, 4, 5, 6, 7, 9, 10, 11, 12, 14 or 15 as
described in the Interrupt Steering section. Each PIRQx# line has a
separate Route Control Register.
In APIC mode, these signals are connected to the internal I/O APIC
in the following fashion: PIRQ[A]# is connected to IRQ16,
PIRQ[B]# to IRQ17, PIRQ[C]# to IRQ18, and PIRQ[D]# to IRQ19.
This frees the legacy interrupts.
PCI Interrupt Requests: In Non-APIC Mode the PIRQx# signals
can be routed to interrupts 3, 4, 5, 6, 7, 9, 10, 11, 12, 14 or 15 as
described in the Interrupt Steering section. Each PIRQx# line has a
separate Route Control Register.
In APIC mode, these signals are connected to the internal I/O APIC
in the following fashion: PIRQ[E]# is connected to IRQ20,
PIRQ[F]# to IRQ21, PIRQ[G]# to IRQ22, and PIRQ[H]# to IRQ23.
This frees the legacy interrupts. If not needed for interrupts, these
signals can be used as GPIO.
Interrupt Request 14:15: These interrupt inputs are connected to
the IDE drives. IRQ14 is used by the drives connected to the
Primary controller and IRQ15 is used by the drives connected to the
Secondary controller.
APIC Clock: This clock operates up to 33.33 MHz.
I/OD
I/OD
IRQ[14:15]
I
APICCLK
I
APICD[1:0]
I/OD
APIC Data: These bi-directional open drain signals are used to
send and receive data over the APIC bus. As inputs the data is valid
on the rising edge of APICCLK. As outputs, new data is driven
from the rising edge of the APICCLK.
Type
Description
USBP0P,
USBP0N,
USBP1P,
USBP1N
I/O
USBP2P,
USBP2N,
USBP3P,
USBP3N
I/O
USBP4P,
USBP4N,
USBP5P,
USBP4N
I/O
OC[5:0]#
I/O
USBRBIAS
O
USBRBIAS#
I
Universal Serial Bus Port 1:0 Differential: These differential
pairs are used to transmit data/address/command signals for ports 0
and 1. These ports can be routed to USB UHCI Controller #1 or the
USB EHCI Controller.
NOTE: No external resistors are required on these signals. The
ICH4 integrates 15 k . pull-downs and provides an output driver
impedance of 45 . which requires no external series resistor
Universal Serial Bus Port 3:2 Differential: These differential
pairs are used to transmit data/address/command signals for ports 2
and 3. These ports can be routed to USB UHCI Controller #2 or the
USB EHCI Controller.
NOTE: No external resistors are required on these signals. The
ICH4 integrates 15 k . pull-downs and provides an output driver
impedance of 45 . which requires no external series resistor.
Universal Serial Bus Port 5:4 Differential: These differential
pairs are used to transmit data/address/command signals for ports 4
and 5. These ports can be routed to USB UHCI Controller #3 or the
USB EHCI Controller
NOTE: No external resistors are required on these signals. The
ICH4 integrates 15 k . pull-downs and provides an output driver
impedance of 45 . which requires no external series resistor
Overcurrent Indicators: These signals set corresponding bits in
the USB controllers to indicate that an overcurrent condition has
occurred.
USB Resistor Bias: Analog connection point for an external
resistor to ground. USBRBIAS should be connected to
USBRBIAS# as close to the resistor as possible.
USB Resistor Bias Complement: Analog connection point for an
external resistor to ground. USBRBIAS# should be connected to
USBRBIAS as close to the resistor as possible.
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Power Management Interface Signals (Continued)
Power Management Interface Signals
Signal Name
Type
Description
THRM#
I
THRMTRIP#
I
Thermal Alarm: This is an active low signal generated by external
hardware to start the hardware clock throttling mode. The signal can
also generate an SMI# or an SCI.
Thermal Trip: When low, THRMTRIP# indicates that a thermal
trip from the processor occurred; the ICH4 will immediately
transition to a S5 state. The ICH4 will not wait for the processor
stop grant cycle since the processor has overheated.
S1 Sleep Control: SLP_S1# provides Clock Synthesizer or Power
plane control. Optional use is to shut off power to non-critical
systems when in the S1- M (Powered On Suspend), S3 (Suspend To
RAM), S4 (Suspend to Disk) or S5 (Soft Off) states.
S3 Sleep Control: SLP_S3# is for power plane control. It shuts off
power to all non-critical systems when in S3 (Suspend To RAM),
S4 (Suspend to Disk), or S5 (Soft Off) states.
S4 Sleep Control: SLP_S4# is for power plane control. It shuts
power to all non-critical systems when in the S4 (Suspend to Disk)
or S5 (Soft Off) state.
S5 Sleep Control: SLP_S5# is for power plane control. The signal
is used to shut power off to all non-critical systems when in the S5
(Soft Off) states.
Power OK: When asserted, PWROK is an indication to the ICH4
that core power and PCICLK have been stable for at least 1 ms.
PWROK can be driven asynchronously. When PWROK is negated,
the ICH4 asserts PCIRST#.
NOTE: PWROK must deassert for a minimum of 3 RTC clock
periods for the ICH4 to fully reset the power and properly generate
the PCIRST# output
Power Button: The Power Button causes SMI# or SCI to indicate a
system request to go to a sleep state. If the system is already in a
sleep state, this signal causes a wake event. If PWRBTN# is pressed
for more than 4 seconds, this causes an unconditional transition
(power button override) to the S5 state with only the PWRBTN#
available as a wake event. Override occurs even if the system is in
the S1-M–S4 states. This signal has an internal pull-up resistor.
Ring Indicate: This signal is an input from the modem interface. It
can be enabled as a wake event, and this is preserved across power
failures.
System Reset: This pin forces an internal reset after being
debounced. The ICH4 will reset immediately if the SMBus is idle;
otherwise, it will wait up to 25 ms ± 2 ms for the SMBus to idle
before forcing a reset on the system.
Resume Well Reset: This signal is used for resetting the resume
power plane logic.
SLP_S1#
O
SLP_S3#
O
SLP_S4#
O
SLP_S5#
O
PWROK
PWRBTN#
I
I
RI#
I
SYS_RESET#
I
RSMRST#
I
Type
Description
LAN_RST#
Signal Name
I
SUS_STAT#/
LPCPD#
O
C3_STAT#
O
SUSCLK
O
AGPBUSY#
I
STP_PCI#
O
STP_CPU#
O
BATLOW#
I
CPUPERF#
OD
SSMUXSEL
O
VGATE/
VRMPWRGD
I
LAN Reset: This signal must be asserted at least 10 ms after the
resume well power (VccLAN3_3 and VccLAN1_5 is valid. When
deasserted, this signal is an indication that the resume well power is
stable.
Suspend Status: This signal is asserted by the ICH4 to indicate that
the system will be entering a low power state soon. This can be
monitored by devices with memory that need to switch from normal
refresh to suspend refresh mode. It can also be used by other
peripherals as an indication that they should isolate their outputs
that may be going to powered-off planes. This signal is called
LPCPD# on the LPC I/F.
C3_STAT#: This signal will typically be configured as C3_STAT#.
It is used for indicating to an AGP device that a C3 state transition
is beginning or ending. If C3_STAT# functionality is not required,
this signal may be used as a GPO.
NOTE: This signal will be asserted in S1-M on the ICH4-M.
Suspend Clock: Output of the RTC generator circuit to use by other
chips for refresh clock.
AGP Bus Busy: To support the C3 state. This signal is an
indication that the AGP device is busy. When this signal is asserted,
the BM_STS bit will be set. If this functionality is not needed, this
signal may be configured as a GPI.
Stop PCI Clock: This signal is an output to the external clock
generator for it to turn off the PCI clock. Used to support PCI
CLKRUN# protocol. If this functionality is not needed, This signal
can be configured as a GPO.
Stop CPU Clock: Output to the external clock generator for it to
turn off the processor clock. Used to support the C3 state. If this
functionality is not needed, this signal can be configured as a GPO.
Battery Low: This signal is an input from the battery to indicate
that there is insufficient power to boot the system. Assertion will
prevent wake from S1-M–S5 state. Can also be enabled to cause an
SMI# when asserted.
CPU Performance: CPUPERF# is used for Intel SpeedStep
technology support. The signal selects which power state to put the
processor in.
SpeedStep Mux Select: SSMUXSEL is used for Intel SpeedStep
technology support. The signal selects the voltage level for the
processor.
VGATE/VRM Power Good: VGATE/VRMPWRGD is used for
Intel SpeedStep technology support. This is an output from the
processor’s voltage regulator to indicate that the voltage is stable.
This signal may go inactive during an Intel SpeedStep transition.
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Power Management Interface Signals (Continued)
Signal Name
DPRSLPVR
Type
Description
O
Deeper Sleep - Voltage Regulator: This signal is used to lower the
voltage of VRM during C4 and S1-M states. When the signal is
high, the voltage regulator outputs the lower “Deeper Sleep”
voltage. When the signal is low (default), the voltage regulator
outputs the higher “Normal” voltage. During PCIRST#, the output
driver is disabled and an internal pull-down is enabled. This is
needed for implementing a strap on the pin. When PCIRST#
deasserts, the output driver is enabled. To guarantee no glitches on
the DPRSLPVR pin, the pull-down is disabled after the output
driver is fully enabled.
NOTE: DPRSLPVR is sampled at the rising edge of PWROK as a
functional strap.
Processor Interface Signals (Continued)
Type
Description
IGNNE#
Signal Name
O
INIT#
O
NMI
O
SMI#
O
STPCLK#
O
RCIN#
I
A20GATE
I
Ignore Numeric Error: This signal is connected to the ignore error
pin on the processor. IGNNE# is only used if the ICH4 coprocessor
error reporting function is enabled in the General Control Register
(Device 31:Function 0, Offset D0, bit 13). If FERR# is active,
indicating a coprocessor error, a write to the Coprocessor Error
Register (F0h) causes the IGNNE# to be asserted. IGNNE# remains
asserted until FERR# is negated. If FERR# is not asserted when the
Coprocessor Error Register is written, the IGNNE# signal is not
asserted.
Speed Strap: During the reset sequence, ICH4 drives IGNNE# high
if the corresponding bit is set in the FREQ_STRP register.
Initialization: INIT# is asserted by the ICH4 for 16 PCI clocks to
reset the processor. ICH4 can be configured to support CPU BIST.
In that case, INIT# will be active when PCIRST# is active.
Non-Maskable Interrupt: NMI is used to force a non-Maskable
interrupt to the processor. The ICH4 can generate an NMI when
either SERR# or IOCHK# is asserted. The processor detects an NMI
when it detects a rising edge on NMI.
NMI is reset by setting the corresponding NMI source
enable/disable bit in the NMI Status and Control Register.
Speed Strap: During the reset sequence, ICH4 drives NMI high if
the corresponding bit is set in the FREQ_STRP register.
System Management Interrupt: SMI# is an active low output
synchronous to PCICLK. It is asserted by the ICH4 in response to
one of many enabled hardware or software events.
Stop Clock Request: STPCLK# is an active low output
synchronous to PCICLK. It is asserted by the ICH4 in response to
one of many hardware or software events. When the processor
samples STPCLK# asserted, it responds by stopping its internal
clock.
Keyboard Controller Reset CPU: The keyboard controller can
generate INIT# to the processor. This saves the external OR gate
with the ICH4’s other sources of INIT#. When the ICH4 detects the
assertion of this signal, INIT# is generated for 16 PCI clocks.
NOTE: The ICH4 ignores RCIN# assertion during transitions to the
S1-M, S3, S4 and S5 states.
A20 Gate: A20GATE is from the keyboard controller. The signal
acts as an alternative method to force the A20M# signal active. It
saves the external OR gate needed with various other PCIsets.
Processor Interface Signals
Type
Description
A20M#
Signal Name
O
CPUSLP#
O
Mask A20: A20M# will go active based on either setting the
appropriate bit in the Port 92h register, or based on the A20GATE
input being active.
Speed Strap: During the reset sequence, ICH4 drives A20M# high
if the corresponding bit is set in the FREQ_STRP register.
CPU Sleep: This signal puts the processor into a state that saves
substantial power compared to Stop-Grant state. However, during
that time, no snoops occur. The ICH4 can optionally assert the
CPUSLP# signal when going to the S1-M state.
Numeric Coprocessor Error: This signal is tied to the coprocessor
error signal on the processor. FERR# is only used if the ICH4
coprocessor error reporting function is enabled in the General
Control Register (Device 31:Function 0, Offset D0, bit 13). If
FERR# is asserted, the ICH4 generates an internal IRQ13 to its
interrupt controller unit. It is also used to gate the IGNNE# signal to
ensure that IGNNE# is not asserted to the processor unless FERR#
is active. FERR# requires an external weak pull-up to ensure a high
level when the coprocessor error function is disabled.
NOTE: FERR# can be used in some states for notification by the
processor of pending interrupt events. This functionality is
independent of the General Control Register bit setting.
CPU Interrupt: INTR is asserted by the ICH4 to signal the
processor that an interrupt request is pending and needs to be
serviced. It is an asynchronous output and normally driven low.
Speed Strap: During the reset sequence, ICH4 drives INTR high if
the corresponding bit is set in the FREQ_STRP register.
FERR#
INTR
I
O
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Processor Interface Signals (Continued)
Signal Name
CPUPWRGD
DPSLP#
Real Time Clock Interface Signals
Type
Description
OD
CPU Power Good: This signal should be connected to the
processor’s PWRGOOD input. To allow for Intel ® SpeedStep™
technology support, this signal is kept high during an Intel
SpeedStep technology state transition to prevent loss of processor
context. This is an open-drain output signal (external pull-up
resistor required) that represents a logical AND of the ICH4’s
PWROK and VGATE / VRMPWRGD signals.
Deeper Sleep: This signal is asserted by the ICH4 to the processor.
When the signal is low, the processor enters the Deeper Sleep state
by gating off the processor Core clock inside the processor. When
the signal is high (default), the processor is not in the Deeper Sleep
state. This signal behaves identically to the STP_CPU# signal, but
at the processor voltage level.
O
SMBus Interface Signals
Signal Name
Type
Description
SMBDATA
I/OD
SMBus Data: External pull-up is required.
SMBCLK
I/OD
SMBus Clock: External pull-up is required.
SMBALERT#/
GPIO[11]
I
Signal Name
Description
Special
Crystal Input 1: This signal is connected to the 32.768 kHz crystal.
RTCX2
Special
Crystal Input 2: This signal is connected to the 32.768 kHz crystal.
Other Clock Signals
Signal Name
Type
Description
CLK14
I
CLK48
I
CLK66
I
Oscillator Clock: Used for 8254 timers. It runs at 14.31818 MHz.
This clock is permitted to stop during S1-M (or lower) states.
48 MHz Clock: This clock is used to run the USB controller. It runs
at 48 MHz. This clock is permitted to stop during S1-M (or lower)
states.
66 MHz Clock: This is used to run the hub interface. It runs at 66
MHz. This clock is permitted to stop during S1-M (or lower) states.
Miscellaneous Signals
Type
Description
SPKR
Signal Name
O
RTCRST#
I
Speaker: The SPKR signal is the output of counter 2 and is
internally “ANDed” with Port 61h bit 1 to provide Speaker Data
Enable. This signal drives an external speaker driver device, which
in turn drives the system speaker. Upon PCIRST#, its output state is
0.
NOTE: SPKR is sampled at the rising edge of PWROK as a
functional strap.
RTC Reset: When asserted, this signal resets register bits in the
RTC well and sets the RTC_PWR_STS bit (bit 2 in
GEN_PMCON3 register).
NOTES:
1. Clearing CMOS in an ICH4-based platform can be done by using
a jumper on RTCRST# or GPI, or using SAFEMODE strap.
Implementations should not attempt to clear CMOS by using a
jumper to pull VccRTC low.
2. Unless entering the XOR Chain Test Mode, the RTCRST# input
must always be high when all other RTC power planes are on.
SMBus Alert: This signal is used to wake the system or generate
SMI#. If not used for SMBALERT#, it can be used as a GPI.
System Management Interface Signals
Signal Name
Type
RTCX1
Type
Description
INTRUDER#
I
SMLINK[1:0]
I/OD
Intruder Detect: Can be set to disable system if box detected open.
This signal’s status is readable, so it can be used like a GPI if the
Intruder Detection is not needed.
System Management Link: SMBus link to optional external
system management ASIC or LAN controller. External pull-ups are
required.
Note that SMLINK[0] corresponds to an SMBus Clock signal, and
SMLINK[1] corresponds to an SMBus Data signal.
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8050 N/B Maintenance
5.3 Intel 82801DBM I/O Controller Hub 4 Mobile (ICH4-M)(8)
AC’97 Link Signals
Signal Name
Power and Ground Signals
Type
Description
AC ’97 Reset: This signal is a master hardware reset to external
Codec(s).
O
AC ’97 Sync: This signal is a 48 kHz fixed rate sample sync to the
AC_SYNC
Codec(s).
I
AC97 Bit Clock: This signal is a 12.288 MHz serial data clock
AC_BIT_CLK
generated by the external Codec(s). This signal has an integrated
pull-down resistor.
AC97 Serial Data Out: Serial TDM data output to the Codec(s).
O
AC_SDOUT
NOTE: AC_SDOUT is sampled at the rising edge of PWROK as a
functional strap.
I
AC97 Serial Data In 2:0: These signals are Serial TDM data inputs
AC_SDIN[1:0]
from the three Codecs.
NOTE: An integrated pull-down resistor on AC_BIT_CLK is enabled when either: The ACLINK
Shutoff bit in the AC’97 Global Control Register is set to 1, or Both Function 5 and Function 6 of
Device 31 are disabled. Otherwise, the integrated pull-down resistor is disabled.
AC_RST#
O
Signal Name
VCC3_3
VCC1_5
VCCHI
V5REF
HIREF
VCCSUS3_3
VCCSUS1_5
General Purpose I/O Signals
Signal Name
GPIO[43:32]
GPIO[31:29]
GPIO[28:27]
GPIO[26]
GPIO[25]
GPIO[24:18]
Type
I/O
O
I/O
I/O
I/O
I/O
Can be input or output. Main power well.
Not implemented.
Can be input or output. Resume power well. Unmuxed.
Not implemented.
Can be input or output. Resume power well. Unmuxed.
Not Implemented in Mobile (Assign to native Functionality).
Fixed as Output only. Main power well. Can be used instead as
PC/PCI GNT[A:B]#. GPIO[17] can also alternatively be used for
PCI GNT[5]#. Integrated pull-up resistor.
I
Not implemented.
GPIO[15:14]
I
Fixed as Input only. Resume power well. Unmuxed.
GPIO[13:12]
I
Fixed as Input only. Resume power well. Can be used instead as
GPIO[11]
SMBALERT#.
I
Not implemented.
GPIO[10:9]
I
Fixed as Input only. Resume power well. Unmuxed.
GPIO[8]
I
Fixed as Input only. Main power well. Unmuxed.
GPIO[7]
I
Not Implemented in Mobile (Assign to Native Functionality)
GPIO[6]
I
Fixed as Input only. Main power well. Can be used instead as
GPIO[5:2]
PIRQ[E:H]#.
I
Fixed as Input only. Main power well. Can be used instead as
GPIO[1:0]
PC/PCI REQ[A:B]#. GPIO[1] can also alternatively be used for PCI
REQ[5]#.
NOTE: Main power well GPIO are 5V tolerant, except for GPIO[43:32]. Resume power well GPIO
are not 5V tolerant.
GPIO[17:16]
O
Description
V5REF_SUS
VCCLAN3_3
VCCLAN1_5
VCCRTC
VCCPLL
VBIAS
V_CPU_IO
VSS
Description
3.3 V supply for core well I/O buffers. This power may be shut off in S3, S4, S5
or G3 states.
1.5 V supply for core well logic. This power may be shut off in S3, S4, S5 or G3
states.
1.5 V supply for Hub Interface 1.5 logic.
1.8 V supply for Hub Interface 1.0 logic.
This power may be shut off in S3, S4, S5 or G3 states.
Reference for 5 V tolerance on core well inputs. This power may be shut off in
S3, S4, S5 or G3 states.
Analog Input. Expected voltages are:
• 0.9 V for HI 1.0 (Normal Hub Interface) Series Termination
• 350 mV for HI 1.5 (Enhanced Hub Interface) Parallel Termination
This power is shut off in S3, S4, S5, and G3 states.
3.3 V supply for resume well I/O buffers. This power is not expected to be shut
off unless the main battery is removed or completely drained and AC power is
not available.
1.5 V supply for resume well logic. This power is not expected to be shut off
unless the main battery is removed or completely drained and AC power is not
available.
Reference for 5 V tolerance on resume well inputs. This power is not expected
to be shut off unless the main battery is removed or completely drained and AC
power is not available.
3.3 V supply for LAN Connect interface buffers. This is a separate power plane
that may or may not be powered in S3–S5 states depending upon the presence or
absence of AC power and network connectivity. This plane must be on in S0 and
S1-M.
1.5 V supply for LAN Controller logic. This is a separate power plane that may
or may not be powered in S3–S5 states depending upon the presence or absence
of AC power and network connectivity. This plane must be on in S0 and S1-M.
3.3 V (can drop to 2.0 V min. in G3 state) supply for the RTC well. This power
is not expected to be shut off unless the RTC battery is removed or completely
drained.
NOTE: Implementations should not attempt to clear CMOS by using a jumper
to pull VccRTC low. Clearing CMOS in an ICH4-based platform can be done
by using a jumper on RTCRST# or GPI, or using SAFEMODE strap.
1.5 V supply for core well logic. This signal is used for the USB PLL. This
power may be shut off in S3, S4, S5 or G3 states.
RTC well bias voltage. The DC reference voltage applied to this pin sets a
current that is mirrored throughout the oscillator and buffer circuitry.
Powered by the same supply as the processor I/O voltage. This supply is used to
drive the processor interface outputs.
Grounds.
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8050 N/B Maintenance
6. System Block Diagram
U713
INTEL
BANIAS/DOTHAN
Host
400MHZ
J6
Card Reader
Socket
Mini PCI
Card Socket
U727
PCMCIA
CARD READER
CB710
CRT
RGB
U714
J711
DDR 266
U719
RTL8100CL
LVDS
North Bridge
855GME
LCD
TV
Amplifier
TPA0212
66MHZ
MIC
IEEE 1394
HDD
PCI BUS
U715
AC 97
ICH4-M
U726
AUDIO
CODEC
ALC655
USB2.0
U524
HP/OPT Jack
Subwoofer
Line In
MDC
CD-ROM
Speaker
RJ11
LPC BUS
U15
FWH
BIOS
U16
Internal KB
WINBOND
W83L950D
Touch Pad
FAN
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8050 N/B Maintenance
7. Maintenance Diagnostics
7.1 Introduction
Each time the computer is turned on, the system BIOS runs a series of internal checks on the hardware. This
power-on self test (post) allows the computer to detect problems as early as the power-on stage. Error messages of
post can alert you to the problems of your computer.If an error is detected during these tests, you will see an error
message displayed on the screen. If the error occurs before the display is initialized, then the screen cannot display
the error message. Error codes or system beeps are used to identify a post error that occurs when the screen is not
available.
The value for the diagnostic port is written at the beginning of the test. Therefore, if the test failed, the user can
determine where the problem occurred by reading the last value written to the port by the debug card plug at MINI
PCI slot.
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8050 N/B Maintenance
7.2 Diagnostic Tool for Mini PCI Slot :
The Mini PCI DOG killer card is a single-step debug tool which utilizes Mini PCI interface (Type III A) and is
able to hold a PCI bus cycle so that address, data and control bus states on PCI bus can be inspected. Especially,
the tool can help an engineer trace address/data bus for BIOS read cycles as soon as power on and debug open
or short circuit problems easily. Usually, this sort of problem will make a PC motherboard fail to boot.
P/N:411906900001
Description: PWA-MPDOG;MINI PCI DOGKELLER CARD
Note: Order it from MIC/TSSC
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8050 N/B Maintenance
7.3 Error Codes - 1
Following is a list of error codes in sequent display on the debug board.
POST (HEX)
DESCRIPTION
POST (HEX)
DESCRIPTION
00h
Boot started
17H
Size Memory
01h
Disable A20 through A20
18H
Dispatch To RAM Test
02h
Initialize CS
19H
checksum the ROM
03h
Test RAM
1AH
Reset PIC's
04h
Move BL into the RAM
1BH
Initialize Video Adapter(s)
05h
Execution in RAM
1CH
Initialize Video (6845 Regs)
06h
Check OVERRIDE option
1DH
Initialize Color Adapter
07h
Shadow System BIOS
1EH
Initialize Monochrome Adapter
08h
Checksum System BIOS ROM
1FH
Test 8237A Page Registers
09h
Proceed with Normal Boot
20H
Test Keyboard
0Ah
Proceed with Crisis Boot
21H
Test Keyboard Controller
0Fh
Fatal Error
22H
Check If CMOS Ram Valid
F0h
.... - No RAM
23H
Test Battery Fail & CMOS X-SUM
F1h
..._ - RAM test failed
24H
Test the DMA controllers
99h
Resume SMRAM not Found
25H
Initialize 8237A Controller
10H
Some Type Of Long Reset
26H
Initialize Int Vectors
11H
Turn off FASTA20 for POST
27H
RAM Quick Sizing
12H
Signal Power On Reset
28H
Protected mode entered safely
13H
Initialize the Chipset
29H
RAM test completed
14H
Search For ISA Bus VGA Adapter
2AH
Protected mode exit successful
15H
Reset Counter/Timer 1
2BH
Setup Shadow
16H
user register config through CMOS
2CH
Going To Initialize Video
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8050 N/B Maintenance
7.3 Error Codes - 2
Following is a list of error codes in sequent display on the debug board.
POST (HEX)
DESCRIPTION
POST (HEX)
DESCRIPTION
2DH
Search For Monochrome Adapter
42H
Initialize the hard disk
2EH
Search For Color Adapter
43H
Initialize option ROMs
2FH
Signon messages displayed
44H
OEM's init of power management
30H
special init of keyboard ctlr
45H
Update NUMLOCK status
31H
Test If Keyboard Present
46H
Test For Coprocessor Installed
32H
Test Keyboard Interrupt
47H
OEM functions before boot
33H
Test Keyboard Command Byte
48H
Dispatch To Op. Sys. Boot
34H
TEST, Blank and count all RAM
49H
Jump Into Bootstrap Code
35H
Protected mode entered safely (2).
50H
ACPI INIT
36H
RAM test complete
51H
PM INIT & GEYSERVILLE CPU INIT
37H
Protected mode exit successful
52H
USB HC INIT
38H
Update OUTPUT port
F8H
PXE BIOS decomp error
39H
Setup Cache Controller
F9H
PCI BIOS decomp error
3AH
Test If 18.2Hz Periodic Working
FAH
PNP BIOS decomp error
3BH
test for RTC ticking
FBH
LOGO BIOS decomp error
3CH
initialize the hardware vectors
FCH
LOGO Image decomp error
3DH
Search and Init the Mouse
FDH
Energy Image decomp error
3EH
Update NUMLOCK status
FEH
ROMDEBUG Image decomp error
3FH
special init of COMM and LPT ports
88H
PM code decomp error
40H
Configure the COMM and LPT ports
CAH
CPU SMM remap code
41H
Initialize the floppies
CBH
CPU SMM BASE remap Done
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8050 N/B Maintenance
7.3 Error Codes - 3
Following is a list of error codes in sequent display on the debug board.
POST (HEX)
DESCRIPTION
POST (HEX)
DESCRIPTION
D0H
check rom signature, 1.x video
E5H
disable add-in rom card decode
D1H
enable RAM area in regs
E6H
PCI return(config and no video)
D2H
copy ROM to RAM in regs
E7H
look for PCI bridge device
D3H
update segment range attr
E8H
search IDE controllers on the PCI bus
D4H
configure memory registers
E9H
start of cardbus config
D5H
configure I/O registers
A1H
Enable/Verify R/W Status Runtime Data
D6H
configure IRQ assignments
A2H
Get/Verrify R/W Stattus NVRAM data area
D7H
turn on PCI device
A3H
Resolve System Nodes with the CMOS settings
D8H
2.x video r/w segment
A4H
Init. var. in the PNP BIOS Runtime Data area
D9H
OEM defined, rom init
A5H
Hook INT 15
DAH
disable add-in rom card decode
A6H
copy/setup $PnP Install Check in F0000 seg.
DBH
PCI return(config and no video)
A7H
Allow the OEM any Last Minute Hooks
DCH
enable RAM area in regs
A8H
Write protect RTData Area & NVRAM Copy Buffer
DDH
copy ROM to RAM in regs
A9H
return from pnp_init proc
DEH
update segment range attr
DFH
configure memory registers
E0H
configure I/O registers
E1H
configure IRQ assignments
E2H
turn on PCI device
E3H
2.x video r/w segment
E4H
OEM defined, rom init
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8050 N/B Maintenance
8. Trouble Shooting
8.1 No Power
8.9 CD-ROM Driver Test Error
8.2 Battery Can not Be Charged
8.10 Audio Failure
8.3 No Display
8.11 LAN Test Error
8.4 External Monitor No Display
8.12 Modem Test Error
8.5 Memory Test Error
8.13 MINI-PCI Test Error
8.6 Keyboard/Touch pad Test Error
8.14 Card Bus&Reader Test Error
8.7 USB Port Test Error
8.15 TV Encoder Test Failure
8.8 Hard Disk Drive Test Error
8.16 IEEE 1394 Failure
89
8050 N/B Maintenance
8.1 No Power
When the power button is pressed, nothing happens, no fan activity is heard and power indicator is not light up.
P32
PF1
Power In
PJ 701
P32
PD702
P25
U11
PWR_VDDIN
PL1 PL2
PR701
VDD5
P25
F3,U13
P32
PQ701
P25
Q13
VDD5S
Q48
VDD3_AVREF
PD704
P25
P25
Q51,L71
VDD3
U6
VDD3S
P25
VDD1.5
Q43
ADINP
PF703
PL708
PU7
PQ707
P32
PD703
DVMAIN
P27
JS704
PL703
PU2
PL701
PU702
PR711
P24
P25
JS711,JS713,JS715
+3VS-P
+3VS
+3V
L706,L707
1394_AVCC
P25
L743
+PHYVDD
PL710 PD709
PD713
PQ704
P33
PD704
Charge
P27
PL702
P24
+5VS_P
JS718,JS719,JS721
U701
+VCC_USB_0
L701
Battery
U705,L708
Discharge
P15
L702
+5VS
PR707
PU701
P32
U704,L70 3
L704,Q10
NOTE:.
P27
P18
L746
U707,Q701
+VCC_USB_1
+VCC_USB_2
P25
U728
+5V
P17
+CARD_VCC
U18
P20
VA
Page on M/B board circuit diagram.
PU3,PU9,PU10,PU11
P31
+VCC_CORE
PU12,PU13,PL711,
PD718,PR740
To Next Page
90
8050 N/B Maintenance
8.1 No Power
When the power button is pressed, nothing happens, no fan activity is heard and power indicator is not light up.
Continue To Previous Page
P27
DVMAIN
JS706,PL712
PU705,PL713,PR739
P29
JS71,JS717
+1.8V_P
P24
+1.8V
PU14
PU707,PL714,PR741
P29
JS72,JS722
+1.35V_P
JS10,PL3
PU6,PL707,PR732
P28
P5
+1.35V
JS728,JS729,JS730
P24
+VCCP
+1.05V_P
PU703
PU4,PL706,PR719
P28
JS72,JS725
+1.5V_P
JS703,PL716
PU709,PL717,PR744
PU15
PU708,PL715,PR742
P26
+1.25V_DDR_P
P26
+2.5VS_DDR_P
P24
+1.5V
JS1,JS12
JS708,JS709,JS710
P24
+1.25V_DDR
P24
+2.5VS_DDR
L732
P16
DVDD
91
8050 N/B Maintenance
8.1 No Power
When the power button is pressed, nothing happens, no fan activity is heard and power indicator is not light up.
No power
AC
POWER
Is the
Notebook connected
to power (Either AC adaptor
or battery)?
No
Connect
AC adaptor
or battery
Check following parts and signals:
Parts:
Signals:
PF1
ALWAYS
PL1
DVMAIN
PL2
ADEN#
PD702
BATT_DEAD
PQ701
Yes
Where
From Power Source
Problem(First use
AC to power it)
Please try another known good battery
or AC adapter.
Power
OK?
NO
Yes
Please replace
the faulty
AC adaptor or
Battery.
BATTERY
Check following parts and signals:
Parts:
Signals:
J703
BATT
PF702
PQ6
PQ704
Board-level
Troubleshooting
PL704
PL705
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8050 N/B Maintenance
8.1 No Power(1)
When the power button is pressed, nothing happens, no fan activity is heard and power indicator is not light up.
PL1
120Z/100M
PD702
BAV70LT1
PJ701
PF1
7A/24VDC
PL2
120Z/100M
PR701
PWR_VDDIN
.01
PD701
RLZ24D
PD704
BAV70LT1
To chapter 8.2
ADINP
PQ701
AO4407
4
5
76
H8_I_LIMIT
23
LEARNING
R428
0
I_LIMIT
PR1
10
6
RS+
P32
VCC
RS-
GND1
OUT
GND0
3
2
S
3
2
1
PU1
8
7
6
5
PR702
470K
G
1
PD703
SBM1040
2
DVMAIN
3
D
PR720
1
100K
PR703
100K
3
2
1
P22
S
PQ702
2N7002
PR71
226K
PQ704
G
AO4407
D
8
7
6
5
U16
PR705
1M
PR45
33K
BATT
WINBOND
KBC
14
D21
RLS4148
PQ6
2N7002
ADEN#
PQ24
DTC144WK
93
8050 N/B Maintenance
8.1 No Power(2)
When the power button is pressed, nothing happens, no fan activity is heard and power indicator is not light up.
PD704
BAV70LT1
PWR_VDDIN
4
VDD3S
PF702
7A/24VDC
PL705
120Z/100M
PR720
100K
3
2
1
8
7
6
5
BATT
PQ704
AO4407
DVMAIN
PL704
120Z/100M
PR716
499K
PR20
4.99K
P32
PC722
0.01U
J703
PR714
100K
BATTCONNECTOR
7
RP45
22*4
PR45
33K
BAT_V
8
1
78
BAT_T
7
2
77
6
5
P22
4
U16
3
14
ADEN#
D21
RLS4148
PQ6
2N7002
2
WINBOND
KBC
1
PR23
0
BAT_C
6
3
2
PR24
0
BAT_D
5
4
3
PD2
BAV99
VDD3
PD3
BAV99
94
8050 N/B Maintenance
8.2 Battery Can not Be Charged
There are problems in charging the battery.
Battery can not Charge
Board-level
Troubleshooting
Is the
notebook connected
to power (AC adaptor)?
No
Connect
AC adaptor.
Check following parts and signals:
Yes
Replace
Motherboard
1. Make sure that the battery is good.
2. Make sure that the battery is installed properly.
Battery charge
OK?
Yes
Please replace the
faulty Battery.
Parts
PF703
PL708
PQ707
PL710
PD713
PD714
PD709
PQ13
PQ14
PU7
PQ15
PD5
PR65
Signal
PR70
PQ11
PC33
PR63
PU5
PR74
PR75
PR76
PQ12
ADINP
CHANGING
BATT
BAT_V
BAT_T
BAT_C
BAT_D
BATT_DEAD
I_CTRL
No
95
8050 N/B Maintenance
8.2 Battery Can not Be Charged
There are problems in charging the battery.
PQ707
AO4407
PL708
BEAD_120Z/100M
3
2
1
ADINP
G
PR87
4.7K
PR86
0
PD713
EC31QS04
Reference chapter 8.1(1)
BATT
D
PR88
4.7K
PQ15
MMBT2222A
PL709
3.0UH
PL710
33UH
8
7
6
5
S
PF703
TR/3216FF-3A
From chapter 8.1(1)
PC39
1000P
PD709
BZV55C15V
PD714
EC31QS04
PR89
100K
PR75
20K
PR74
13.7K
PQ13
DTA144WK
PR76
249K
PD5
BAS32L
CHARGING
26
PC48
CHARGING
0.01U
11
10
R483
0
I_CTRL
C2
C1
12
VCC
13
P22
PR78
0
PQ12
2N7002
From U16
PQ14
2N7002
PR79
124K
U16
2
P33
21IN+
8
21N+
16
PU7
TL594C
BATT_DEAD#
15
WINBOND
KBC
DVMAIN
VDD5
Reference chapter 8.1(2)
78
77
2
3
BAT_V
BAT_C
PR65
590K
PR69
100K
PR70
3.3K
8
BAT_T
Q39
DTC144TKA
=8.56V BATT_DEAD
PU5
LMV393M
BAT_D
PC36
0.01U
+
7
-
5
1.25V
6
PQ11
SCK431LCSK-.5
4
PR63
80.6K
PC33
0.1U
96
8050 N/B Maintenance
8.3 No Display
There is no display on both LCD and VGA monitor after power on although the LCD and monitor is known-good.
No Display
Monitor
or LCD module
OK?
No
Replace monitor
or LCD.
Board-level
Troubleshooting
Yes
Make sure that CPU module,
DIMM memory are installed
Properly.
Display
OK?
Replace
Motherboard
Yes
Correct it.
Using debug card,depending
on the error codes to make
sure which parts maybe faulty
No
1.Try another known good CPU
module, DIMM module and BIOS.
2.Remove all of I/O device (FDD,
HDD, CD-ROM…….) from
motherboard except LCD or monitor.
Display
OK?
No
Yes
Using circuit diagram ,check
the faulty parts
1. Replace faulty part.
2. Connect the I/O device to the
M/B one at a time to find out
which part is causing the problem.
97
8050 N/B Maintenance
8.3 No Display(1)
****** System Clock Check ******
+3V
4.7K
R860
FS0
44,45
54
FS1
R863
4.7K
55
FS2
R894
4.7K
40
R874
R875
33*2
HCLK_CPU
HCLK_CPU#
R865 R872
R873 R878
48M_DREFCLK
66M_DEFSSCLK
33*4
HCLK_MCH
HCLK_MCH#
+3V
8.2K
L722
120Z/100M
CLKANA
L726
120Z/100M
CLK66
19,32
L43
120Z/100M
CLKCPU
46,50
L718
120Z/100M
CLKPCI
8,14
1,26,37
P11
ICS950810
+3V
+3V
11
R816
33
39
R895
33
7
PR56
0
56
R877
33
USBCLK_ICH
33
PCICLK_ICH
R858
33
14M_ICH
R859
33
R472
0
14M_CODEC
28
R826
33
13
R827
33
P20
PCICLK_CARD
P17
PCICLK_LAN
P16
U719
SMBCLK
SMBDATA
29,30
ICH4_M
AUDIO
CODEC
CARDBUS
READER
LAN
P6
DDR
J711 SODIMM
P28
PR57
0
VCCP_PWRGD
PR717
0
27
16
R828
33
PCICLK_1394
PU703
LTC3728L
P18
U724
10
R825
33
PCICLK_FWH
P23
U15
001
MINI
U715
U726
PR715
100K
PR59
1M
P13 P14
U727
VTT_PWRGD#
NB
MINIPCI_SIO48M
R824
+3VS_P
PQ8
2N7002
0
R831
10K
R821
0
CORE_CLKEN#
R1137
C794
27P
12
PR731
2K
PCICLK_MINIPCI
P19
Clock
Generator
3
C804
27P
P5
CPU
J713 -PCI
U712
2
P4
U714
43
X703
14.318MHZ
P3
U713
35,38
48,49
R863
P2
FS2
FS1
FS0
CPU
x
0
1
100.00
0:00
1:3.3V
17
R817
33
PCICK_KBC
P22
U16
IEEE
1394
BIOS
SYS
WINBOND
KBC
UNIT:MHZ
98
8050 N/B Maintenance
8.3 No Display(2)
****** System Reset Check ******
U10 P25
MAX809
+3VS
R7
1K
1
18
P26 P27 P31
H8_PWRON
P22
3
MN
RESET
4
2
H8_RESET#
25
RESET#
PWROK
2
7
ICH_PWRBTN
HPWRGD
R301
330
Q31
Convert to
P3
U713
BANIAS
P13
RSMRST#
P14
P4
P5
HPWRGD
+3V
8
VCC
Q42
FDV301N
H8_RSMRST
U714
U9D
ICH_VGATE
H8_SUSB
U715
VRMPWRGD
NORTH
BRIDGE
J714
J708
CDROM
HDD
CONNECTOR CONNECTOR
+5V
ICH_PWRBTN#
P15
ICH4_M
44
RSTDRV1#
855GM
/GME
10K
R492
SUSB#
Q49
Q41
DTC144TKA
R909
0
R476
10K
+3V
Convert to
U9A
Q37
DTC144TKA
PCIRST#0
P15
JL3
1
PCIRST#
3
2
5
74AHC08_V
RSTDRV2#
P18
92
1394_PCIRST# JL1
U724
1394
VT6307L
4
CARD_PCIRST#
JL7
MINIPCI
CONNECTOR
KBC_PCIRST#
JL6
LAN_PCIRST#
P22
64
74AHC08_V
26
MINIPCI_PCIRST#
FWH_PCIRST#
U16
WINBOND
KBC
+3V
JL8
P16
U9C
2
JL9
7
9
8
27
U719
LAN
Controller
RTL8100CL
74AHC08_V
P11
U2
TV_CARD
CH7011A
JL5
5
P19 J713
P23
MCH_PCIRST#
U9B
6
U727
CARDBUS
READER
JL4
+3V
P17
SST49LFOO4A
P2
PWROK
W83L950D
U15
BIOS
HCPURST#
+VCCP
1
LTC3728L
WINBOND
KBC
VDD3
U21
IMP811 P25
VCC
Convert
Power
Module
U16
TC010-PSS11CET
R531
10K
+3V
3
PWRBTN#
GND
SW2
13
TV_PCIRST#
JL10
99
8050 N/B Maintenance
8.3 No Display(3)
****** VGA Controller Checking ******
R16
1M
F1
+3V
2A
Q9
SI4835DY
3
2
1
S
R19
10K
G
D
8
7
6
5
R801
0
FPVDEN
R22
0
C14
0.22U
L15
P5
120Z/100M
1,2,3
ICLKAM
R361
0
TXCLK-
15
ICLKAP
R363
0
TXCLK+
13
IYAM0
R349
0
TXOUT0-
28
IYAP0
R350
0
TXOUT0+
26
IYAM1
R353
0
TXOUT1-
22
IYAP1
R357
0
TXOUT1+
20
IYAM2
R1176
0
TXOUT2-
27
IYAP2
R1177
0
TXOUT2+
25
IYAM3
R1178
0
TXOUT3-
21
IYAP3
R1179
0
TXOUT3+
19
P12
U714
855GM/GME
J2
LCD CONNECTOR
+3V
R11~R14
10K*4
P14
U715
ICH4_M
RP26
0*4
PANEL_ID[0..3]
6,7,10,14
100
8050 N/B Maintenance
8.3 No Display(4)
****** Back Light & Cover Switch Checking ******
+3V
To U713 in this page
R372
10K
DVMAIN
L17
120Z/100M
1,2
L18
120Z/100M
3
+3V
P4
PWROK
U714
855GM
D15
BAT54
VDD3S
P12
R380
27
H8_ENABKL
R383
0
D16
BAT54
10K
ENABKL_NB
R384
0
D2
BAT54
ENABKL_VGA
J1
0
R5
0
ENABKL_VGA_C
L10
120Z/100M
4
L9
120Z/100M
6
P22
11
BLADJ
35
BATT_R#
8
1
8
36
79
BATT_G#
AC_POWER#
7
6
2
3
9
10
5
4
11
BATT_POWER#
Inverter
R323
U16
+3VS
U703D
74AHC14_V
WINBOND
KBC
+3VS
+3VS
U703C
74AHC14_V
U703B
74AHC14_V
Q720
DTC114TKA
Q719
DTC114TKA
SUSB#
P13
C947
4.7U
R1152
13
1M
R1140
U715
180K
BATT_LED#
PWROK
ICH4-M
+3VS
R373
470K
16
H8_LIDSW#
SW1
R3
1K
30V/0.1A
101
8050 N/B Maintenance
8.3 No Display(5)
CPU Core does not exist .
DD_CPU
DVMAIN
PF2
7A/24VDC
PL5
120Z/100M
S1+
PL4
120Z/100M
D
G
24
S1-
PU10
FDS6694
8
7
6
5
8
7
6
5
PU9
FDS6694
D
G
+5VS_P
29
PR4
10K
31
S
S
3
2
1
10
3
2
1
PR5
PL711
0.68UH
23
PR32
0
D
21
D
PU12
FDS6694
4
G
S
0
13
PR44
0
14
VID2
PR40
0
15
VID3
PR34
0
17
VID4
PR33
0
18
VID5
PR31
0
19
PU3
LTC3734
22
+5VS_P
+3VS
PC18
VOS-
PR28
1000P
576K
PR30
100K
PR29
PR38
10
S1+
PC13
10U
PR104
PQ9
MMBT3904L
PC15
100P
R831
10K
3
P11
U712
CLKGEN
6
28
R821
PR56
0
0
1
P26
8
PU15
PR16
1.3M
9
499K
12.7K
11
G
D
0
P28
TO
PQ8
2N7002
S
PD4
BAT54C
2
PR58
4.12K
DVMAIN
+2.5VS_DDR
28
56.2k
PR17
PR57
LTC3728L
PR15
PR43
1M
PU703
PR731
2K
ICS950810
13.3K
VOS-
+3V
PC11
220P
PR19
0
+VCC_PWRGD
PR59
12
7
PC21
1000P
PR37
10
0.1U
PR729
249K
From Left
13.3K
S1-
PC12
+3V
30
2
3
2
1
PR52
VID1
PD718
EC31QS04-TE12L
S
3
2
1
U713
CPU
BANIAS
VID0
PU11
FDS6694
G
3
2
1
P3
D
PU13
FDS6694
G
S
+VCC_CORE
8
7
6
5
STOP_CPU#
8
7
6
5
8
7
6
5
P31
P13
U715
ICH4_M
PR740
0.001
R251
220K
VDD5
3
PR60
43.2K
1
PQ10
MMBT3904L
PR49
100K
+3VS
Q19
2N7002
PR61
0
PQ5
2N7002
PQ7
2N7002
PR50
1M
PC28
3300P
PWRON_SUSB#
LTC3728L
10
RUN/SS
To Pin12
102
8050 N/B Maintenance
8.4 External Monitor No Display
There is no display or picture abnormal on CRT monitor, but LCD can normally display.
External Monitor No Display
Board-level
Troubleshooting
1. Confirm monitor is good and check
the cable are connected properly.
2. Try another known good monitor.
Check if J702
are cold solder?
Yes
Re-soldering.
No
Display
OK?
Yes
Check following parts and signals:
Replace faulty monitor.
Parts:
Replace
Motherboard
No
U715
R6
R10
R785
R138
R136
R137
R783
R135
Signals:
R139
Q5
Q6
Q7
Q8
L12
L13
L11
L7
CRT_IN#
DDCK
DDDA
HSYNC
VCYNC
RED
GREEN
BLUE
103
8050 N/B Maintenance
8.4 External Monitor No Display
There is no display or picture abnormal on CRT monitor, but LCD can normally display.
+5V_H
855_CRT_DDCK
R6
4.7K
R10
4.7K
R1166
R703
0
R1
0
+5V_H
Q6
2N7002
0
L12
120Z/100M
CHAGND
GND
+3V
855_CRT_DDDA
R331
Q5
2N7002
0
R804
802K
P4
+5V_H
U715
ICH
Q7
2N7002
855_CRT_VSYNC
15
L13
BEAD_600Z/100M
P13
CRT_IN#
R9
1K
P12
L11
120Z/100M
14
U714
Q8
2N7002
NB
855_CRT_HSYNC
5
J702
L7
120Z/100M
13
3
855_CRT_RED
R1167
0
L58
12
220Z/100M
2
855_CRT_GREEN
R343
0
L59
220Z/100M
855_CRT_BLUE
R344
0
L60
220Z/100M
CRT CONNECTOR
855GM/
GME
1
6,7,8,16,17
CHAGND
104
8050 N/B Maintenance
8.5 Memory Test Error
Either on board or extend SDRAM is failure or system hangs up.
Memory Test Error
1.If your system installed with expansion
SO-DIMM module then check them for
proper installation.
2.Make sure that your SO-DIMM sockets
are OK.
3.Then try another known good SO-DIMM
modules.
Test
OK?
Yes
Board-level
Troubleshooting
Replace the faulty
SDRAM module.
Replace
Motherboard
No
If your system host bus clock
running at 100MHZ then make
sure that SO-DIMM module
meet require of DDR 333.
No
Replace the faulty
SDRAM module.
Check following parts and signals
Parts:
Signals:
U714
J711
J712
U712
R979
R1040
R1030
R1031
R1011
R1016
R948
R949
R950
R955
R340
C337
C346
MD[0..63]
SMBCLK
SMBDATA
DQS[0..7]
DM[0..7]
MCB[0..7]
MA0
MA3
MA[6..12]
WE#
CAS#
RAS#
BA[0,1]
NB_DM8
NB_DQS8
CLK_DDR[0..5]
CLK_DDR[0..5]#
Yes
105
8050 N/B Maintenance
8.5 Memory Test Error
Either on board or extend SDRAM is failure or system hangs up.
+3V
+1.25V_DDR
R340
75
RP29~RP43
56*8
P4
P5
U714
NB
197
+2.5VS_DDR
C337
0.01U
C346
0.1U
NB_MD[0..63]
R948,R949…
10
MD[0..63]
NB_DQS[0..7]
R1011,R1016..
10
DQS[0..7]
NB_DM[0..7]
R950,R955..
10
DM[0..7]
NB_CB[0..7]
R977,R978..
10
NB_MA0
NB_MA3
NB_MA[6..12]
R972~R975
R1032~R1036
NB_WE#
NB_RAS#
NB_CAS#
NB_BA[0,1]
R969~R971
R1030 R1031
SMA [1,2]
SMA[4,5]
SMAB[1,2]
SMAB [4,5]
P6
MCB[0..7]
10
MA0
MA[6..12]
10
WE#
RAS#
MA3
J711
CAS#
BA[0,1]
&
J712
CKE [0~3]
CS# [0,1]
NB_DM8
NB_DQS8
NB_CLK_DDR[0..5]
NB_CLK_DDR[0..5]#
P11
U712
CLOCK
GENERATOR
ICH4-M
10
R1040
10
R335~R338
R319 R359
R1103~R1106 R320 R360
NB_DM8
NB_DQS8
NB_CLK_DDR[0..5]
NB_CLK_DDR[0..5]#
10*12
29
SMBDATA
193
30
SMBCLK
195
VDD3S
R315
2.2K
P13
U715
R979
SMB_DATA
SMB_CLK
R318
2.2K
DDR-SODIMM
855GM
/GME
+3V
Q21
2N7002
R316
10K
Q22
2N7002
R317
10K
0.6MM/200P
/H5.2
106
8050 N/B Maintenance
8.6 Keyboard (K/B) /Touch-Pad (T/P) Test Error
Error message of keyboard or touch-pad failure is shown or any key does not work.
Keyboard or Touch-Pad
Test Error
Check
U16, J4,J5
for cold solder?
Is K/B or
T/P cable connected to
notebook
properly?
No
Correct it.
Board-level
Troubleshooting
Yes
Replace
Motherboard
No
Re-soldering
No
Check following parts and signals:
Try another known good Keyboard
or Touch-pad.
Test
Ok?
Yes
Yes
Replace the faulty
Keyboard or
Touch-Pad
Parts
Signals
U16
U715
F701
L716
L36
L37
R132
R151
J4
J5
VDD3
VDD_AVREF
KBC X+
KBC XH8/T_CLK
H8/T_DATA
KI[0:7]
KO[0:15]
PWRBTN#
KBD_US/JP#
107
8050 N/B Maintenance
8.6 Keyboard (K/B) /Touch-Pad (T/P) Test Error
Error message of keyboard or touch-pad failure is shown or any key does not work.
VDD3_AVREF
R414
F701
0.5A/POLYSW
72
0
+5V
L716
120Z/100M
6
VDD3
71
9
T_DATA
L36
120Z/100M
5
6
T_CLK
L37
120Z/100M
4
P23
C445
0.1U
C448
0.1U
C449
10U
30
SW4
SW_LEFT
R132
0
3
SW_RIGHT
R151
0
2
P22
P11
17
PCICK_KBC
U712
CLKGEN
R817
33
PCICLK_KBC
70
SW5
J4
1
U16
+3V
GND
VDD3
WINBOND
KBC
R392
8.2K
SERIRQ
RP44
4.7K*8
69
LAD[0..3]
65~68
KBC_PCIRST#
64
P13
55~62
KI 0~7
39~54
KO 0~15
17~24
1~16
U9
U715
LFRAME#
H8_SUSB
P22
29
KBC_X-
28
KBC_X+
R404
1M
63
J5
22
1
ICH4_M
SUSB#
Q49
DTC144TKA
C447
22P
+3V
2
X1
8MHz
C450
22P
R165
10K
KBD_US/JP#
25
108
8050 N/B Maintenance
8.7 USB Port Test Error
An error occurs when a USB I/O device is installed.
USB Test Error
Board-level
Troubleshooting
Check if the USB device is installed
properly. (Including charge board.)
Test
OK?
Yes
Correct it
Replace
Motherboard
No
Check following parts and signals:
Parts:
Replace another known good USB
device.
Re-test
OK?
Yes
Replace
the faulty part
U715
U705
U701
U712
J701
J706
L701
L702
L2
L5
Signals:
L22
L708
R701
C701
R706
C713
C703
C709
+5VS
USBOC0#
USBP0+
+VCC_USB_0
USBP0-
+VCC_USB_1
USBP1+
+VCC_USB_2
USBP1USBP2+
USBP2-
No
109
8050 N/B Maintenance
8.7 USB Port Test Error
An error occurs when a USB I/O device is installed.
+5VS
USBCLK_ICH
R877
33
P11
39
4
L702
120Z/100M
1
VIN0
VOUT0
GND
U712
CLK-GEN
P15
U701
3
VIN1
VOUT1
1
P15
5
R701
33K
2
C703
1U
+VCC_USB_0
+ C701
150U
L701
120Z/100M
+VCC_USB_1
A1
J701
USB_OC0#
1
P14
4
USBP0-
3
2
L5
90Z/100M
USBP1+
U715
3
2
USBP1-
A3
1
2
4
3
USB Port Connector
L2
90Z/100M
USBP0+
A2
4
A4
USB/4PX2/DIP
ICH4_M
+5VS
U705
3
C709
1U
L708
120Z/100M
1
VIN0
VOUT0
VIN1
VOUT1 5
GND
4
P15
1
P15
+
C713
150U
R706
33K
2
+VCC_USB_2
J706
USB_OC1#
USBP2-
3
1
2
4
3
2
4
GND1
USB Port Connector
L22
90Z/100M
USBP2+
GND2
USB/4PX1
110
8050 N/B Maintenance
8.8 Hard Disk Drive Test Error
Either an error message is shown, or the drive motor spins non-stop, while reading data from or writing
data to hard disk.
Hard Driver Test
Error
1.Check the BIOS setup
2.Replace another good hard driver or
cable try again
Board-level
Troubleshooting
Check following parts and signals:
Re-boot
OK?
Yes
Replace the faulty parts.
No
Replace
Motherboard
Check the system driver for proper
installation.
Re - Test
OK?
Yes
Parts:
Signals:
U715
J714
Q37
Q41
L733
R476
R492
R1081
R1074
PCIRST#0
PIORDY
PDD[0..15]
PDA[0..2]
PDIOR#
PDIOW#
PDDACK#
PDCS1#
PDCS3#
PDDREQ
IRQ14
+5V
+5V_HDD
End
No
111
8050 N/B Maintenance
8.8 Hard Disk Drive Test Error
Either an error message is shown, or the drive motor spins non-stop, while reading data from or writing
data to hard disk.
+3V
+5V_HDD
R1081
4.7K
+5V
R1074
8.2K
L733
120Z/100M
3
27~42
PD_D[0..15]
PDIOW#
22
PDIOR#
20
PIORDY
18
PDDACK#
16
IRQ14
14
P15
P11
U715
ICH4_M
8
PDCS1#
7
PDCS3#
+5V
PCIRST#0
R492
RSTDRV1#
10K
HDD CONNECT
9,10,12
PDA[0.. 2]
J714
44
R476
10K
Q41
DTC144TKA
Q37
DTC144TKA
112
8050 N/B Maintenance
8.9 CD-ROM Test Error
CD-ROM driver can’t run normally,maybe an error message is shown when reading data from CD-ROM.
CD-ROM Driver
Test Error
Board-level
Troubleshooting
Check the CD-ROM driver for proper
installation.
Check following parts and signals:
Test
OK?
Yes
Correct it
No
Replace
Motherboard
Try another known good compact disk.
Re - Test
OK?
Yes
Replace
the faulty parts.
Parts:
Signals:
U715
J708
Q37
Q41
R492
R476
R909
R833
R834
L723
PCIRST#0
CDROM_COMM
RSTDRV2#
SIORDY
SDD[0..15]
SDA[0..2]
SDIOR#
SDIOW#
SDDACK#
SDCS1#
SDCS3#
SDDREQ
IRQ15
+5V
+5V_CDROM
CDROM_LEFT
CDROM_RIGHT
No
113
8050 N/B Maintenance
8.9 CD-ROM Test Error
CD-ROM driver can’t run normally,maybe an error message is shown when reading data from CD-ROM.
+3V
+5V_CDROM
L723
120Z/100M
+5V
R833
4.7K
38~42
R834
8.2K
6~21
SD_D[0..15]
P11
U715
ICH4_M
SDIOW#
25
SDIOR#
24
SIORDY
27
SDDACK#
28
IRQ15
29
J708
31,33,34
SDA[0.. 2]
35
SDCS1#
+5V
R492
10K
R909
RSTDRV2#
0
5
R476
10K
Q41
DTC144TKA
Q37
DTC144TKA
P20
18
C507
1U
R538
6.8K
CDROM_LEFT
1
U726
AUDIO
CODEC
20
C513
1U
R547
6.8K
CDROM_RIGHT
2
19
C515
0.22
R550
0
CDROM_COMM
3
R549
6.8K
R546
6.8K
CDROM CONNECT
36
SDCS3#
PCIRST#0
P15
R537
6.8K
114
8050 N/B Maintenance
8.10 Audio Failure
There is trouble with the sound from speaker or completely no sound
Audio Failure
1. Check if speaker cables are connected
properly.
2. Make sure all the drivers are installed
properly.
Board-level
Troubleshooting
Check following parts and signals:
Signals:
Parts:
Test
OK?
Yes
Correct it.
No
Try another known good speaker,
CD-ROM.
Re-test
OK?
Yes
Replace
Motherboard
U18
U17
U524
U726
U715
U712
U19
U725
J3
J7
J705
J719
L741
D715
Q711
Q713
Q23
D17
D19
D22
U18
ROUT+
ROUTSBSPKR
CARDSPK#
PC_BEEP
AVDD
ACRST#
ACSDOUT
ACSDIN0
ACBITCLK
14M_CODEC
MIC_VREF
2464_VREF
AMP_LEFT
AMP_RIGHT
SUB_LEFT
SUB_RIGHT
AMP_SHUTDOWN
ROUT+
ROUTLOUT+
LOUT-
Replace the
faulty parts.
No
115
8050 N/B Maintenance
8.10 Audio Failure(Audio Codec)
There is trouble with the sound from speaker or completely no sound
J719
EXTERNAL MIC JACK
+5V
U18
VA
P20
U17
INTERNAL
MIC1
P20
To U715
IN
5
OUT
VCC
A
1
C457
0.1U
2
C458
0.1U
L734
4
EN
Y
ADJ
CARDSPK#
B
0
R1155
0
L70
BEAD_600Z/100M
NC7S32
MIC5205BM5
P17
C467
0.01U
R438
10K
U727
CARD
READER
L66
120Z/100M
C456
1U
25,38
P20
U726
11
ACSDOUT
ICH4_M
ACBITCLK
5
22
R812
0
L69
0
28
24
24
SBSPKR
ACRST#
C975
1U
R1157
0
R1153
0
J721
Line/In Jack
P20
12
AVDD
R530
MIC
21
1,9
PC_BEEP
ACSDIN0
L744
BEAD_600Z/100M
CB710
+3V
U715
R1150
-
GND
P14
BEAD_600Z/100M
+
SBSPKR
AUDIO
CODEC
C969
R535
0
R532
0
R519
1U
C974
0
R324
1U
0
R1154
4.7K
2464_VREF
To Next Page U19
L76
BEAD_600Z/100M
L53
L751
120Z/100M
BEAD_600Z/100M
+5V
L67
7,18,19
120Z/100M
8
ACSYNC
22
R498
10
ALC655
35
AOUT_L
0
R1130
R1135
0
AMP_LEFT
6
C484
1U
5
C480
1U
6
P21
U524
36
AOUT_R
R1127
0
R1128
0
AMP_RIGHT
C492
1U
20
C497
1U
23
AMP
TPA0212_GND
TO NEXT PAGE J720
P11
U712
CLKGEN
56
R859
33
14M_CODEC
R472
0
2
48
SPDIFOUT
TO NEXT PAGE D22
47
EAPD
TO NEXT PAGE U19
SUB_LEFT
TO NEXT PAGE U19
SUB_RIGHT
ICS950810
116
8050 N/B Maintenance
8.10 Audio Failure(Audio Amplifier & Subwoofer)
There is trouble with the sound from speaker or completely no sound
From Previous Page U726
SPDIFOUT
15,17
VA
DEVICE_DECT
ROUT+
L52
600Z/100M
16
ROUT-
L50
600Z/100M
P21
U524
4
LOUT+
L14
600Z/100M
9
LOUT-
L16
600Z/100M
AUDIO AMP
+
C474
100U
+
C474
R322
4.7K
J7 Internal
Speaker
Connector
R1183
10K
AGND
J3 HDR/MA-2
DECT_HP#OPT
C489
100U
TPA0212_GND
600Z/100M
L755
600Z/100M
L55
600Z/100M
L757
600Z/100M
22
22
R329
R528
LED
Drive
600Z/100M
600Z/100M
L80
L78
P21
J720
L754
HP/OPT CONNECTOR
21
IC
L758
600Z/100M
+3V
+5V
GP1FD310TP
Q711
DTA144WK
R1158
10K
DEVICE_DECT#
R1185
10K
D715
BAW56
OPTIN#
VA
Q713
VDD3S
+3V
From Previous Page U726
D22
BAT54C
EAPD
R906
0
+5V
R905
8.2K
P13
From Previous Page U726
2464_VREF
DEVICE_DECT#
0
KBC_MUTE
VA
80
D27
100
R463
22.1K
3
C482
0.15U
R479
22.1K
2
R510
22.1K
5
R509
1
No device
22.1K
6
C496
SUB_OUTR
0.22U
C483
SUB_OUTL
0.22U
R502
8.2K
D17
RLS4148
C471
1000P
R1122
2.1K
R1125
0
1
P21
5
R26
0
8
R27
0
6
L63
120Z/100M
U725
R496
8.2K
4
LM4871
P21
J705
R511
0.15U
No this condition
1
Q23
DTC144TKA
U19
LMV822
C490
0
RLS4148
7
SUB_LEFT
OPT in
1
D19
RLS4148
1
SUB_RIGHT
HP in
1
AMP_SHUTDOWN
P2
U16
WINBOND
KBC
0
0
DEVICE_DECT
To U524
U715
ICH4_M
R445
0
R367
10K
R477
Q38
DECT_HP#/
OPT
REMARK
Subwoofer
Speaker
Connector
HDR/MA-2
+5V
117
8050 N/B Maintenance
8.11 LAN Test Error
An error occurs when a LAN device is installed.
LAN Test Error
1.Check if the driver is installed properly.
2.Check if the notebook connect with the
LAN properly.
Board-level
Troubleshooting
Yes
Test
OK?
Correct it.
No
Check if BIOS setup is ok.
Replace
Motherboard
Re-test
OK?
Yes
Correct it.
Check following parts and signals:
Parts:
Signals:
U719
U717
U723
J709
L732
L735
L737
L51
L49
Q709
X706
R1101
R1111
R1115
R907
R211
R212
EECK
EEDI
EEDO
EECS
PJRX+
PJRXPJTX1PJTX+
LAN_XTANL1
LAN_XTANL2
PCICLK_LAN
LAN_WAKE
PCI_AD[0..31]
PCI_C/BR#[0..3]
PCI_PAR
LAN_PCIRST#
PCI_STOP#
AVDDL
DVDD
SB_PME#
PCLKRUN#
PCI_DEVSEL#
PCI_FRAME#
PCI_INTE#
PCI_REQ3
PCI_IRDY#
PCI_SERR
No
118
8050 N/B Maintenance
8.11 LAN Test Error
An error occurs when a LAN device is installed.
+3VS
26,41,56,71
84,94,107
AVDDL
+3VS
L737
L732
+2.5VS_DDR
120Z/100M
R1110
3,7,16,20
24,32,45,54,64
78,99,110,116,126
DVDD
120Z/100M
L735
3.6K
111
EECK
1
109
EEDI
2
108
EEDO
3
106
EECS
4
12
120Z/100M
VDD3S +3VS
CS
VCC
8
P16
SK
DI
C911
1U
U723
GND
5
DO
P16
93C46
R907
10K
R211,R212,R241…
8.2K*11
SB_PME#
31
P13
PCI_GNT3#
PCI_INTE#
PCI_IRDY#
PCI_TRDY#
PCI_SERR#
PCI_PERR#
PCI_STOP#
MDI0+
2
63,67,70,75,69
MDI0-
8
PMDI0+
L51
2
65,68,61,29,25
4
P16
7
PMDI0-
U719
PCI_REQ3#
30
5
PCI_PAR
U715
PCI_C/BE#[0..3]
PCI_AD[0..31]
MDI1+
76 44,60.. 33,34…
2
LAN Controller
27
LAN_PCIRST#
6
+3VS
ICH4_M
MDI1-
2
PMDI1+
L49
PJTX+
1
10
PJTX1-
2
J709
15
PJRX+
3
16
PJRX-
6
MDO2+
4
MD23-
5
MDO3+
7
MDO3-
8
P16
1
3
9
LAN CONNECTOR
1
PCI_DEVSEL#
PCLKRUN#
PCI_FRAME#
U717
11
MCT4
14
MCT3
1
3
4
1
PMDI1-
RTL8100CL
PCI_AD18
R1115
10K
R1111
0
R947
R152
75
R930
75
RP27
0*4
LF-H80P
100
Q709
DTC144TKA
LAN_WAKE
105
121
LAN_XTAL1
122
LAN_XTAL2
1M
R1101
X706
1
P11
U712
13
PCICLK_LAN
28
C914
27P
2
25MHZ
C915
27P
ICS950810
119
8050 N/B Maintenance
8.12 Modem Test Error
An error occurs when run the modem
MODEM Test Error
1.Check if the driver is installed properly.
2.Check if the notebook connect with the
phone LAN properly.
Board-level
Troubleshooting
Check following parts and signals:
Test
OK?
Yes
Correct it.
No
Replace
Motherboard
Replace a known good modem
Re-test
OK?
Yes
Correct it.
Parts:
Signals:
J717
J715
U726
R1132
C937
R498
L69
R1120
R1131
L724
F2
+5V
+3VS
+3V
MONO_OUT
ACSDOUT
ACRST#
ACSYNC
ACBITCLK
ACSDIN1
MODEMP
MODEMN
No
120
8050 N/B Maintenance
8.12 Modem Test Error
An error occurs when run the modem
10,18
+5V
17
+3VS
21
+3V
R1132
37
C937
0.1U
4.7K
MONO_OUT
P20
16
1
J717
5
ACSDOUT
23
U726
11
ACRST#
25
ALC555
10
ACSYNC
22
ACBITCLK
30
ACSDIN1
24
6
R498
22
L69
0
R1131
22
R1120
22
MODEM
CONNECTOR
P20
P14
U715
ICH4_M
J715
HDR/MA-2
P20
2
2
3
1
L724
4 50UH
MODEMP
A2
MODEMN
A1
1000P
C806
1000P
P16
Lan Connector
J709
Phone Lan
Connector
C148
RJ11-2P
/RJ45-8P
JP, use 4pcs of 2kV 1000P cap
US, use 2pcs of 2kV 1000P cap
1
F2
UK, use 4pcs of 3kV 1000P cap
MINISMDC014-2
121
8050 N/B Maintenance
8.13 Mini PCI Test Error
An error message is shown after Mini PCI device is installed or the Mini PCI device does’t work.
Mini PCI Test Error
1.Please check if the Mini PCI device is
installed properly.
2.Confirm Mini PCI device driver is
installed ok.
Board-level
Troubleshooting
Check following parts and signals:
Parts:
Signals
U715
PCI_AD[0:31]
CLKRUN#
J509
PCI_C/BE# [0:3]
PCI_PERR#
PCI_REQ2#
LAD [0:3]
PCI_FRAME#
LFRAME#
PCI_IRDY#
LRDQ0#
PCI_TRDY#
WIRELESS_PD#
PCI_DEVSEL#
MINIPCI_PME#
Yes
Test
OK?
Correct it
U712
No
Please try another known good Mini PCI device.
Please replace
Motherboard
U9
Q704
R1137
R1079
Re-test
OK?
Yes
Please change the
faulty part then end.
PCI_STOP#
SIO_48M
R1007
PCI_INTD#
PCICLK_MINIPCI
R1077
PCI_RESET#
R1075
PCI_GNT2#
R1091
PCI_SERR#
No
122
8050 N/B Maintenance
8.13 Mini PCI Test Error
An error message is shown after Mini PCI device is installed or the Mini PCI device does’t work.
+3V
+5V
R179
R211..
+3V
PCI_INTD#
PCI_GNT2#
PCI_REQ2#
P13
18，97
R1068
R1080
R1007
13
10K
R1083
P14
U715
PCI_PERR#
PCLKRUN#
PCI_STOP#
PCI_DEVSE#
PCI_IRDY#
PCI_SERR#
PCI_FRAM#
PCI_TRDY#
P19
WIRELESS_PD# 14,24
PCI_AD[0..31]
ICH4_M
PCI_C/BE#[0..3]
LRDQ0#
LAD[0..3]
LFRAME#
PCI_AD17
R1091
R1075
R1092
100
48
MINIPCI_LPCDRQ#
J713
+3V
9
U9C
8
JL8
R1077
0
26
10
+3V
Q704
SB_PME#
R915
0
MINIPCI_PME#
34
P11
39
R895
33
SIO_48M
R1137
0
U712
ICS950810
11
R816
33
PCICLK_MINIPCI
R1079
0
MINIPCI CONNECTOR
PCIRST#
121
25
123
8050 N/B Maintenance
8.14 CardBus & Reader Test Error
An error occurs when a PC card device is installed.
PC Card Slot Failure
1. Check if the PCMCIA CARD device is
installed properly.
2. Confirm PCMCIA card driver is installed ok.
Board-level
Troubleshooting
Check following parts and signals:
Test
OK?
Yes
No
Try another known good PCMCIA card device.
Re-test
OK?
No
Yes
Parts:
Signals
U727
J716
U728
J6
U9
R186
R180
R211
R212
R1121
R1129
R826
R1203
AD[0..31]
PCIRST#
C/BE# [0..3]
P_GNT0#
DEVSEL#
PIRQA#
FRAME#
SUSB#
RI#
PCLK_CARD
VCC5_EN#
VCC3_EN#
VPPD0
VPPD1
+VPPOUT
+3V
+5V
Correct it
Change the faulty
part then end.
Replace
Motherboard
IRDY#
TRDY#
STOP#
PAR
PERR#
SERR#
P_REQ0#
SERIRQ
124
8050 N/B Maintenance
8.14 CardBus & Reader Test Error
An error occurs when a PC card device is installed.
+3V
R1201
R1199
+3V
R211,
R212…
8.2K*7
10K*2
VCCD0#
R180
R231
8.2k*2
R186
8.2k
PCI_AD20
R1202
100
VCCD1#
VCC5_EN#
1
VCC3_EN#
2
VPPD0
15
VPPD1
14
P17
+CARD_VCC
17,51
+VPPOUT
18,52
PCI_AD[0..31]
VPPD0
P13
PCLKRUN#
PCI_DEVSEL#
PCI_FRAME#
PCI_IRDY#
PCI_TRDY#
PCI_STOP#
PCI_PERR#
VPPD1
U728
P17
PCI_GNT0#
U715
P17
PCI_REQ0#
PCI_SERR#
ICH4_M
R1200
SUSB#
U727
4.7K
3,4
+3V
SERIRQ
R1121
10K
R1129
10K
TPS2211A
16
8
5,6
+5V
J6
U9
10
8
JL7
CARD_PCIRST#
9
PCI_PAR
CardBus
Reader
PCI_C/BE#[0..3]
CCBE[0..3]#
7,12,21,61
CB710
CCD2#
CCD1#
CAD[0..31]
36,67
2~6,8~11…
FM/34
PX2/1.
27MM
P11
U712
CLKGEN
12
R826
PCICLK_CARD
33
ICS950810
20,27,29
J716
MS Card
MA/15PX2/ST
SD Card
P17
7
+SD_MSVDD
R1198
10
SD_CLK
SDCD#
1,4,6
SD_WP#
5
2,12,14
SD_CMD
SD[0..3]
8~11
R1203
10
MS_SCLK
MS_INS#
MS_BS
CVS[1,2]
43,57
4732,40
R2_ A18
R2_ D2
R2_ D14
CBLOCK#
CSTOP#
CDEVSEL#
CPAR
CGNT#
CTRDY#
13,15,53
CSERR#
CAUDIO
CSTSCHG
59,62,63
CPERR#
CINT#
CIRDY#
14,16,20
CFRAME#
CRST#
CREQ#
54,58,60
R1213
33
CCLK
48~50
19
MS_SDIO
125
8050 N/B Maintenance
8.15 TV ENCODER Test Failure
An error occurs when using the computer as TV.
TV Fail
1. Check if the TV device is installed
properly.
2. Confirm TV driver is installed ok.
Board-level
Troubleshooting
Check following parts and signals:
Parts:
Test
OK?
Correct it.
No
Check if BIOS setup is ok.
Replace
Motherboard
Re-test
OK?
Signals
Yes
Yes
Correct it.
U2
J704
U714
U715
U9
Q702
Q712
L56
L19
L20
C17
C19
C344
R59
R807
R395
R162
R113
R114
R157
R111
R112
R115
R128
R147
R1240
R763
R766
X701
DOVCD[0..11]
DVOCHSYNC
POUT/DET#
XIN
TV_DDDA
XOUT
TV_DDCK
DVOVREF
TV_PCIRST#
855_TV_COMP
855_TV_LUMA
855_TV_CRMA
DVOCCLK
DVOCCLK#
DVOCVSYNC
No
126
8050 N/B Maintenance
8.15 TV ENCODER Test Failure
An error occurs when using the computer as TV.
+3V
+1.5V
XIN
42
XOUT
43
1
X701
2
R59
1K
C52
20P
R807
10K
P4
U714
R162
0
R113
0
14.318MHZ
C56
20P
R935
10K
P26
Q702
2N7002
Q712
2N7002
DVOVREF
3
TV_DDCK
15
TV_DDDA
14
U2
855GM/
GME
R114,R157
R125,,R128,R147
R111,R112,,R115..
DVOCCLK
DVOCCLK#
0*5
DVOCVSYNC
DVOCHSYNC
POUT/DET#
DVOCD[0..11]
0*12
4,5,46,56,57
50~55,58~63
CH7011A
U9
10
8
P13
JL10
TV_PCIRST#
13
9
U715
ICH4_M
P11
L56
120Z/100M
7
C344
33P
L19
120Z/100M
4
C17
33P
L20
120Z/100M
6
C19
33P
J704
TV_CARD
CONNECTOR
R1240
0
855_TV_COMP
39
R763
0
855_TV_LUMA
37
R766
0
855_TV_CRMA
38
127
8050 N/B Maintenance
8.16 IEEE 1394 Test Failure
An error occurs when a IEEE 1394 device is installed..
IEEE 1394 Fail
1. Check if the 1394 device is installed
properly.
2. Confirm 1394 driver is installed ok.
Board-level
Troubleshooting
Test
OK?
Correct it.
Check if BIOS setup is ok.
Replace
Motherboard
No
Parts:
Signals
U724
U722
J718
U9
U712
U715
L743
L746
L740
L83
R1117
R828
R1116
R1142
R1141
X707
PCI_AD[0..31]
Yes
No
Re-test
OK?
Check following parts and signals:
Yes
Correct it.
PCI_C/BE# [0..3]
PC_DEVSEL#
PCI_FRAME#
PCI_IRDY#
PCI_TRDY#
PCI_STOP#
PCI_PAR
PCI_PERR#
PCI_REQ1#
PCI_PME#
+3V,+3VS
1394_PCIRST#
PCI_GNT1#EE
CS_1394
EECK_1394
EEDI_1394
EEDO_1394
TPBIAS
TPA+_6307
TPA-_6307
TPB+_6307
TPB-_6307
1394_AVCC
XI
XO
+PHYVDD
128
8050 N/B Maintenance
8.16 IEEE 1394 Test Failure
An error occurs when a IEEE 1394 device is installed..
+PHYVDD
1394_AVCC
+3V
+3V
24,8,20…
L743
VCC0~7
VCCRAM
+3V
39,49
8
120Z/100M
R211,
R212,
R218…
8.2K
62,65,75
76,89,90
L746
+3VS
29
EECS_1394
1
32
EECK_1394
2
120Z/100M
PCI_AD[0..31]
5~28,97~120
PCI_AD21
R1117
100
108
P13
PCI_C/BE#[0..3]
4,15,107,122
31
P18
3
EEDI_1394
30
VCC
CS
P18
SK
U722
DI
93C46
4
EEDO_1394
DO
PCI_FRAME#
PCI_GNT1#
U715
PCI_DEVSEL#
PCI_REQ1#
PCI_TRDY#
PCI_INTG#
PCI_IRDY#
PCI_STOP#
123,126…
PCI_PERR#
3
PCI_PAR
ICH4_M
U724
PCI_PME#
37
1394_PCIRST#
92
70
U9
1
JL2
3
1
TPB-_6307
3
2
VT6307L
16
R828
33
PCICLK_1394
U712
ICS950810
TPB+_6307
72
TPA-_6307
93
73
XI
R1116
1M
XO
TPA+_6307
2
1
L740
120Z/100M
2
3
3
4
2
1
L83
120Z/100M
4
60
R1143
54.9
R1144
54.9
C965
270P
R1148
4.99K
61
X707
R1142
54.9
J718
1394
CONNECTOR
P11
71
P18
4
R1141
54.9
24.576MHZ
C939
10P
C932
10P
74
TPBIAS
129
8050 N/B Maintenance
9. Spare Part List(1)
Part Number Description
Price(US)
Part Number Description
Price(US)
442672600031 AC ADPT ASSY;19V,3.16A,DELTA,706
272071154401 CAP;.15U ,CR,10V,10%,0603,X7R,SM
C482,C490
361400003030 ADHESIVE;ABS+PC PACK,G485,CEMIDA
272105104701 CAP;.1U ,16V,+80-20%,0402,SMT
C1000,C104,C12,C13,C133,C16,C
361400003005 ADHESIVE;HEAT,T RANSFER,HTA-48(W)
272102104401 CAP;.1U ,CR,10V,10%,0402,X5R,SM
PC44
441681730001 BATT ASS'Y;11.1V,4.0Ah,LI,BL3244
272072104402 CAP;.1U ,CR,16V,10%,0603,X7R,SM
C17
441681730002 BATT ASSY;11.1V,4.0Ah,LI,CASE CL
272072104402 CAP;.1U ,CR,16V,10%,0603,X7R,SM
C12,C6
441681730003 BATT ASSY;11.1V,4.0Ah,LI,CORE PA
272073104401 CAP;.1U ,CR,25V,10%,0603,X7R,PR
C22,C7
338536010006 BATTERY;LI,3.6V/2.0AH,18650,PANA
272005104402 CAP;.1U ,50V,+/-10%,0805,X7R,SMT
PC9
340680900025 BEZEL ASSY;DVDRW,MKE,UJ815,8050
272005104404 CAP;.1U,CR,50V,10%,0805,SMT
PC4,PC51,PC52,PC65,PC66,PC7,P
242670800113 BFM-WORLD MARK;WINXP,7521N
272102224701 CAP;.22U ,10V ,+80-20%,0402,Y5V,
C14,C483,C496,C515
340680900006 BRACKET ASSY;SYSTEM,8050
272071332401 CAP;.33U ,10V ,10%,0603,X7R,SMT
C2
340680900009 BRACKET ASSY;TP,8050
272102334701 CAP;.33U ,CR,10V ,+80-20%,0402,Y
C964
342672200010 BRACKET;CD-ROM,8500
272030102401 CAP;1000P,2KV,10%,1808,X7R,SMT
C148,C327,C806
322680900001 CABLE FFC;TP,8050
272105102501 CAP;1000P,50V ,+/-20%,0402,X7R,S
C1006,C1007,C1008,C340,C357,C
272075103408 CAP ;0.1U CR 50V 10% 0603 X7R S
C10,C11,C12,C15,C3,C5,C6,C7,C8
272105102408 CAP;1000P,CR,50V,10%,0402,X7R,SM
C960,C962,PC14,PC17,PC18,PC19
272005104705 CAP ;1U CR 50V +80-20% 0805 Y5V
C14A,C14B,C4A,C4B
272075102403 CAP;1000P,CR,50V,10%,0603,X7R,SM
C471
272075101404 CAP; 0.001U CR 50V 10% 0603 X7R
C13
272105101402 CAP;100P ,50V ,+ -10%,0402,NPO,S
C10,C330,C455,C498,C520,C521,C
272075471409 CAP; 0.0047U CR 50V 10% 0603 X7
C4
272075101401 CAP;100P ,50V ,10%,0603,COG,SMT
C20,C21
272075223702 CAP; 0.22U CR 50V +80-20% 0603
C1,C2,C20A,C24,C25
272105101401 CAP;100P ,50V ,5%,0402,COG,SMT
C150,C18,C20,C503
272105103702 CAP;.01U ,50V,+80-20%,0402,SMT
C171,C176,C337,C339,C343,C386
272010101301 CAP;100P,2KV,5%,1206,NPO,SMT,onl
C18
272075103401 CAP;.01U ,CR,50V ,10%,0603,X7R,S
C13,C8
272010101302 CAP;100P,2KV,5%,1206,NPO,SMT,onl
272075103401 CAP;.01U ,CR,50V ,10%,0603,X7R,S
C11,C3
272105100303 CAP;10P ,CR,50V ,5%,0402,NPO,SM
C789,C790,C791,C795,C796,C797
272073223401 CAP;.022U,CR,25V ,10%,0603,X7R,S
C9
272021106501 CAP;10U ,10V ,20%,1210,X7R,SMT
C475
272075473401 CAP;.047U,50V,10%,0603,X7R,SMT
C313
272011106701 CAP;10U ,10V,+80-20%,1206,Y5V,S
C166,C174,C238,C271,C355,C772
272102473402 CAP;.047uF ,16V ,+-10%,0402,X7R,
C841
272023106502 CAP;10U,25V,M,1210,T2.5MM,X5R,SM
PC703,PC704,PC705,PC721,PC73
272072824401 CAP;.082U ,16V ,10%,0603,X7R,SMT
C16
272001106702 CAP;10U,6.3V,+- 20%,0805,X5R,SMT
C155,C156,C157,C158,C168,C173
130
8050 N/B Maintenance
9. Spare Part List(2)
Part Number Description
272431157507 CAP;150U ,TPC,6.3V,20%,H1.9,7343
Price(US)
C701,C713,C768,PC712,PC719,PC
272431157512 CAP;150U,6.3V,+/-20%,H2.8,PT,NCC
Part Number Description
Price(US)
272070475701 CAP;4.7U,CR,6.3V,+80-20%,0603,Y5
C860,C908
272075471401 CAP;470P ,50V,10%,0603,X7R,SMT
C15B
272105181403 CAP;180P,50V,10%,0402,SMT
PC24,PC25,PC61,PC63,PC738
272105470402 CAP;47P ,50V ,+ -10%,0402,NPO,S
C1,C143,C144,C154,C172,C2,C4,C
272001105403 CAP;1U ,10%,10V ,0805,X7R,SMT
PC3,PC46
272030050302 CAP;5P,3KV,5%,1808,NPO,SMT,only
C19
272012105401 CAP;1U ,CR,16V ,10%,1206,X7R,S
C14A,C14B
221673150002 CARD BOARD;FRAME,PALLET,8060
272003105701 CAP;1U ,CR,25V ,+80%-20%,0805,
PC701
221673150003 CARD BOARD;TOP/BTM,PALLET ,8060
272102105701 CAP;1U ,CR,6.3V ,80-20%,0402,Y
C1002,C11,C160,C206,C210,C219
221600020252 CART ON;BATT ERY,CAIMAN,PWR
272071105403 CAP;1U ,10V ,10%,0603,X5R,SMT
C10,C4
221673120003 CART ON;N-B,8060
272002225701 CAP;2.2U ,CR,16V ,+80-20%,0805,Y
C921,C961
431680900003 CASE KIT;8050,INTERGRAT E
272071225401 CAP;2.2U ,CR,6.3V ,10%,0603,X5R,
C1001,C151,C161,C239,C24,C283
335152000026 CFM-BAT;FUSE,THERMAL,NEC,SF91E
272105200401 CAP;20P
C52,C56
242678500005 CFM-INTEL;CENT RINO,NOTEBOOK,8081
272105222501 CAP;2200P,50V ,+/-20%,0402,X7R,S
C470,C494,C509,C728,C869
273000500115 CHOKE COIL;400uH MIN,120mΩ MAX;
L724
272075222401 CAP;2200P,50V ,10%,0603,X7R,SMT
C15A
273000150313 CHOKE COIL;90OHM/100MHZ,20%,2012
L2,L22,L5
272075222401 CAP;2200P,50V ,10%,0603,X7R,SMT
C5
361200001018 CLEANNER;YC-336,LIQUID,STENCIL/P
272105221403 CAP;220P ,CR,50V ,10%,0402,X7R,S
C165,PC11,PC73,PC734,PC75
331000000302 CON HOLDER;PCMCIA,UP,STANDOFF 0.
J6
272431227504 CAP;220U ,4V ,20%,7343,POSCAP,SM
PC729,PC749
291000000023 CON;4-IN-1 MEMORY CARD,MS,SD,XD,
J2
272431227528 CAP;220U,2.5V,TPE-MC,20%,POSCAP,
PC775,PC778,PC781,PC784,PC78
291000000706 CON;BATT ERY,7P,MA,2.5MM,R/A,C103
J703
272105220402 CAP;22P ,50V ,+ -10%,0402,NPO,S
C447,C450,C855,C861
331710015016 CON;D,FM,15P,3ROW,SUYIN,070912FR
J702
272105271403 CAP;270P ,50V,+-10%,0402,X7R,SMT
C15,C21,C782,C965
291000622007 CON;DIMM,R/A,200P,.6,H9.2,REVERS
J711
272105270303 CAP;27P ,50V ,5%,0402,COG,SMT
C794,C804,C914,C915
291000152603 CON;FPC/FFC,26P,1MM,R/A,KBD,SMT
J5
272105332402 CAP;3300P,50V,10%,0402,SMT
PC28,PC56
331040050018 CON;HDR,BT B R/A,0.8MM,S-T ECH1507
J708
272431337506 CAP;330U,4V,20%,7343,SMT
PC787,PC788
291000023008 CON;HDR,FM,15P*2,0.8MM.H5,R/A,SM
J717
272103331401 CAP;33P ,25V ,+/-10%,0402,NPO,S
C17,C19,C344
331030044019 CON;HDR,FM.22P*2,R/A,ST,ACE-1A2,
J714
272023475401 CAP;4.7U ,25V ,10%,1210,X5R,SMT
C1
291000021105 CON;HDR,MA,11P*1,ACES,87213-1100
CN1
272001475701 CAP;4.7U ,CR,10V ,+80-20%,0805,Y
C311,C517,C871,C941,C947
291000021105 CON;HDR,MA,11P*1,ACES,87213-1100
J1
,50V,+-10%,0402,SMT
131
8050 N/B Maintenance
9. Spare Part List(3)
Part Number Description
Price(US)
Part Number Description
291000013027 CON;HDR,MA,15P*2,ACES,88026-3000
J716
340680900004 COVER ASSY;8050
291000013026 CON;HDR,MA,15P*2,ACES,88029-3000
J1
340680900010 COVER ASSY;HDD,8050
291000013025 CON;HDR,MA,15P*2,ACES,88107-3000
J2
340680900012 COVER ASSY;LCD,8050
291000020206 CON;HDR,MA,2P*1,1.25MM,H2.57,R/A
J3,J7,J705,J715
340680900029 COVER ASSY;MINIPCI,8050
291000010209 CON;HDR,MA,2P*1,1.25MM,H4.2,ST,S
J710
344680900002 cover;battery,8050
291000000203 CON;HDR,MA,2P*1,3.5MM,R/A,SMT,SM
J2
344680900015 COVER;CPU,8050
291000020204 CON;HDR,MA,2P*1,3.5MM,R/A,SMT,SM
Price(US)
344680900016 COVER;DDR,8050
291000010303 CON;HDR,MA,3P*1,1.25MM,H4.2,ST,S
J707
344680900049 COVER;HINGE,L,8050
331040004024 CON;HDR,MA,4P*1,H=5.9,R/A,USB,DI
J706
344680900011 COVER;HINGE,R,8050
291000010619 CON;HDR,MA,6P,ACES,87151-0607,SM
J4
344680900010 COVER;REAR,L,8050
291000256843 CON;IC CARD,68P,UP,ST ANDOFF 0.0
J6
344680900009 COVER;REAR,R,8050
331000004009 CON;IEEE1394,MA,4P*1,0.8MM,R/A
J718
272625470401 CP;47P*4 ,8P,50V ,10%,1206,NPO,S
331870007007 CON;MINI DIN,7P,R/A,W/GROUND,330
J704
323767340001 DDR SODIMM MODULE;DDR333,256MB,M
291000811008 CON;PHONE JACK,2 IN 1,7.0MM,ALLT
J709
331660020005 DIMM SOCKET;DDR SODIMM 200P, CA0
J712
331910002006 CON;POWER JACK,2P,20VDC,5A,DIP
PJ701
288111544001 DIODE; 1SR-154-400 400V 1.0A
D1
331840010008 CON;ST EREO JACK,10P,W/SPDIF,R/A,
J720
288110355001 DIODE;1SS355,80V,100mA,SOD-23,SM
D2
291000920605 CON;ST EREO JACK,6P,W9.5,33184000
J719,J721
288100140007 DIODE;B140,40V,1A,SMA,DIODES,SMT
PD706
331000008033 CON;USB,FM,H15.64,R/A,4P*2,2522A
J701
288100340008 DIODE;B340LA,40V,3A,SMA,DIODES,S
PD713,PD714,PD718
288100032013 DIODE;BAS32L,VRRM75V,MELF,SOD-80
D24,D7,PD5
288100054001 DIODE;BAT54,30V,200mA,SOT-23
D10,D11,D15,D16,D2
441681730031 CONTACT PLATE ASSY;W4L27T0.15,FU
288100054002 DIODE;BAT54C,SCHOTTKY DIODE,SOT2
D22,PD4
441674800032 CONTACT PLATE ASSY;W4L27T0.15,S-
288100070006 DIODE;BAV70LT1,70V,225MW,SOT -23,
D12,D18,PD702,PD704
342503100004 CONTACT PLATE;W4L27,1/2R,1/2T,75
288100099012 DIODE;BAV99LT1,70V,450MA,SOT-23,
PD2,PD3
342502900001 CONTACT PLATE;W4L27T0.15,7068
288100056017 DIODE;BAW56LT1,70V,215MA,SOT-23,
D704,D715,PD1,PD6,PD7,PD705
342503100002 CONTACT PLATE;W4L63,1/2R,1/4T,75
288105515001 DIODE;BZV55-C15,ZENER,5%,SOD-80,
PD709
345677000018 CONDUCTIVE TAPE;LCD,LYNX
331000007025 CONNECT OR;7 PIN,DIP,ALLTOP,C1034
CON1
CP2
132
8050 N/B Maintenance
9. Spare Part List(4)
Part Number Description
Price(US)
Part Number Description
Price(US)
288104148001 DIODE;RLS4148,200MA,500MW,MELF,S
D17,D19,D21,D27,D703
295000010140 FUSE;FAST,2A,63VDC,1206,SMT ,0433
F1
288100024002 DIODE;RLZ24D,ZENER,23.63V,5%,SMT
PD701
295000010141 FUSE;FAST,3A,32VDC,1206,SMT ,0433
PF703
288101040006 DIODE;SBM1040,10A,SCHOTTKY,POWER
PD703
335152000097 FUSE;LR4-73X,POLY SWITCH,PWR
288100056005 DIODE;UDZ5.6B,ZENER,5.6V,UMD2,SM
D13
295000010163 FUSE;NORMAL,7A/24VDC,0433007,120
288100056005 DIODE;UDZ5.6B,ZENER,5.6V,UMD2,SM
ZD3,ZD4
347105015007 GASKET;1,05,015,007
344680900048 DUMMY CARD;PCMCIA,8050
347105030025 GASKET;1,05,030,025
523468090014 DVD MULTI ASSY;KME,UJDA-815,8050
347105035020 GASKET;1,05,035,020
272601107506 EC;100U ,6.3V,M,9.3*3.6,-55~105'
C466,C474,C489,C951
227680900003 END CAP;NORMAL,L/R,8050
PF1,PF2,PF702
347105040015 GASKET;1,05,040,015
347108030008 GASKET;1,08,030,008
481680900002 F/W ASSY;KBD CTRL,8050
U16
347110003010 GASKET;1,10,003,010
481680900005 F/W ASSY;SYS/VGA BIOS,8050,INT EG
U15
347110010010 GASKET;1,10,010,010
273000150002 FERRIET CHIP;120OHM/100MHZ,2012,
L41,L732,L735,L737
523402379038 HD DRIVE,40GB,2.5",MHT2040AT,FUJ
273000610025 FERRIT E ARRAY;120OHM/100MHZ,ONLY
FA2
523468090002 HDD ASSY;40GB,MHT2040AT,FUJITSU,
273000620001 FERRIT E ARRAY;600OHM/100MHZ,2520
L49,L51,L740,L83
451680900031 HDD ME KIT ;8050
273000130001 FERRIT E CHIP;120OHM/100MHZ,1608,
L19,L20,L38,L42,L43,L45,L56,L7
340680900013 HEATSINK ASSY;8050
273000150013 FERRIT E CHIP;120OHM/100MHZ,2012,
L15,L17,L18,L25,L46,L47,L54,L6
451680900092 HEATSINK ASSY;MPT,8050
273000130039 FERRIT E CHIP;130OHM/100MHZ,1608,
L10,L11,L12,L36,L37,L7,L9
451680900091 HEATSINK ASSY;UNP,8050
273000130015 FERRIT E CHIP;220OHM/100MHZ,1608,
L58,L59,L60
451999900002 HEATSINK OPTION;8050
273000130006 FERRIT E CHIP;600OHM/100MHZ,.2A,1
L13,L14,L16,L50,L52,L53,L55,L5
343677100001 HEATSINK;NORTHBRIDGE,BANIAS,LYNX
342672400007 FINGER;EMI GROUNDING SMD FINGER
TP45,TP48,TP50
342680900006 HINGE;L,8050
335152000085 FUSE; 128 DC-7A/50V 139 ℃only UC
F1
342680900005 HINGE;R,8050
295000010028 FUSE;0.14A/60V,POLY SWIT CH,PTC,S
F2
340680900011 HOUSEING ASSY;LCD,8050
295000010048 FUSE;0.5A/15V,POLY SWITCH,SMD
F701
340680900005 HOUSING ASSY;8050
295000010114 FUSE;FAST,1.75A,63VDC,1206,SMT,P
F1
451680900071 HOUSING KIT ;8050
295000100004 FUSE;FAST,1A,63V,1206,THIN FILM
F3
344680900003 housing;battery,8050
133
8050 N/B Maintenance
9. Spare Part List(5)
Part Number Description
291000614793 IC SOCKET ;UPGA479M,479P,MOLEX
Price(US)
U713
324180786389 IC,CPU,BANIAS,1.6GHZ,MICRO-FCPGA
Part Number Description
Price(US)
286104871002 IC;LM4871LD,AUDIO AMP,4Ohm,2.5W,
U725
286100393004 IC;LMV393,DUAL COMPARTOR,SSOP,8P
PU5
282574008005 IC;74AHC08,QUAD 2-I/P AND,TSSOP,
U9
286100822002 IC;LMV822,OP AMP,DUAL,CMOS,MSOP,
U19
282574014004 IC;74AHC14,HEX INVERT ER,TSSOP,14
U703
286302951015 IC;LP2951ACM,VOLTAGE REGULATOR,S
U11
282574132001 IC;74AHCT 1G32,SINGLE OR GAT ,SOT2
U17
286303728002 IC;LTC3728LX,PWM CTRL,LTC,5X5 QF
PU14,PU15,PU2,PU703
284500522001 IC;855GME GMCH,NORTH BRIDGE,BGA,
U714
286303734001 IC;LTC3734,PWM CONTROLLER,32-QFN
PU3
284507460002 IC;ADT7460,TEMPERATURE MTR,QSOP,
U706
286104173001 IC;MAX4173F,I-SENSE AMP,SOT23,6P
PU1
284500655003 IC;ALC655,AUDIO CODEC,LQFP,48P,S
U726
286301414001 IC;MM1414,PROTECTION,T SOP-20A,PR
IC4
286301117021 IC;AMS1117,VOL REGULATOR,1A,SOT-
U6
281101015001 IC;MP1015EM-Z,CCFL CT RL,TSSOP20,
U1
286303107001 IC;AMS3107C,3.3V,1%,VOL REGULATO
U13
286309167001 IC;RT9167-47CB,200MA LDO REGULAT
U18
286002040001 IC;BQ2040,GAS GAUGE,SO,16P,SMT
IC1
286309701001 IC;RT9701,POWER DISTRI SW,SOT23-
U701,U705
286300710002 IC;CB710,CARDBUS/CARD READER,LFG
U727
284508100009 IC;RTL8100CL,LAN CONTROLLER,LQFP
U719
284507011001 IC;CH7011A,TV ENCODER,LQFP,64P
U2
286300812002 IC;S-812C,DECECTOR,SOT-89,PRC
IC3
286302211006 IC;CP2211,POWER DISTRI SW,REV.C1
U728
286300431014 IC;SC431LCSK-.5,.5%,ADJ REG,SOT 2
PQ11
283467540001 IC;EEPROM,M24C02-WMN6T,2K,SO8,SM
IC2
286300594001 IC;TL594C,PWM CONTROL,SO,16P
PU7
283467540002 IC;EEPROM,M93C46-WMN6T,64*16 BIT
U722,U723
286100212001 IC;TPA0212,AMPLIFIER,T SSOP,24P,S
U524
283467530001 IC;EEPROM,S24CC02A,2K,SO8,SMT,ON
284506307001 IC;VT6307L,PCI-1394,2PORT,LQFP,1
U724
283450040001 IC;FLASH,512*8,FWH,M50FW040K1,PL
284583950002 IC;W83L950D-Ver.C,LPC_KBC,LQFP,8
283449004001 IC;FLASH,512*8,FWH/LPC,PM49FL004
273000990054 INDUCTOR;10UH,D124C,+/-20%,TOKO,
PL702,PL703
283467490001 IC;FLASH,512K*8,FWH,SST49LF004A,
273000990184 INDUCTOR;3.0UH,30%,CDRH5D28,H3.0
PL717
283467490002 IC;FLASH,512K*8,FWH,W39V040FAP,P
273000990186 INDUCTOR;3.0UH,30%,CDRH6D28,H2.8
PL709,PL713,PL714
284582801044 IC;FW82801DBM,ICH4-M,BGA,421P
U715
273000990185 INDUCTOR;3.9UH,30%,CDRH8D43,H4.5
PL706,PL707,PL715
286369229301 IC;G692L293T,RESET CIRCUIT,2.93V
U21
273000990021 INDUCTOR;33uH,CDRH124,SUMIDA,SMT
PL710
286300690001 IC;GMT 690B,RESET CIRCUIT ,2.93V,S
U10
273000990127 INDUCTOR;IHLP5050CE-01-0.68uH,VI
PL711
284595081201 IC;ICS950812,CK408 CLOCK GEN,TSS
U712
346503100005 INSULAT OR;5,BAT TERY ASSY,7521Li
134
8050 N/B Maintenance
9. Spare Part List(6)
Part Number Description
Price(US)
Part Number Description
Price(US)
346503200202 INSULAT OR;BAT T ASSY,ONE ROUND,BL
242680900005 LABEL;BAT T,11.1V/4.0AH,LI,PANSON
346681800004 INSULAT OR;BAT T,ASSY,L129W15T 0.25
242600000433 LABEL;BLANK,11*5MM,COMMON
346680900002 INSULAT OR;CARD READER,8050
242669900009 LABEL;BLANK,60*80MM,7170
346680900010 INSULAT OR;DDR,MINIPCI,8050
242600000452 LABEL;BLANK,7MM*7MM,PRC
346677300001 INSULAT OR;FIBER,UL94V-0,D=17.5mm
242600000452 LABEL;BLANK,7MM*7MM,PRC
346680900005 INSULAT OR;INVERTER,LCD,8050
242669600005 LABEL;LOT NUMBER,RACE
346680900017 INSULAT OR;L16W8.5T0.05MM,DIALAMY
242600000001 LABEL;PAL,20*5MM,COMMON
346680900001 INSULAT OR;MB,8050
242600000315 LABEL;RED ARROW HEAD,PRC
346680900007 INSULAT OR;PCB,ASSY,L105,W12T1.0
441680900031 LCD ASSY;SAMSUNG,XGA,15.4",LTN15
346680900009 INSULAT OR;PCMCIA,8050
451680900051 LCD ME KIT;SAMSUNG,15.4",8050
361400003003 JET-MELT ADHESIVES;3478-Q,5/8in*
413000020388 LCD;LTN154X1-L02,TFT15.4",XGA,SA
531020237777 KBD;88,UI,K011818A1,8050,BK
294011200069 LED;GREEN,19-21VGC/TR8,LED_CL190
451680900001 LABEL KIT;N-B,8050
294011200069 LED;GREEN,19-21VGC/TR8,LED_CL190
242600000145 LABEL;10*10,BLANK,COMMON
294011200034 LED;GREEN,H.8,0603,19-21VGC/TR,S
LED4,LED5
242600000145 LABEL;10*10,BLANK,COMMON
294011200034 LED;GREEN,H.8,0603,19-21VGC/TR,S
LED3,LED6
242600000439 LABEL;25*6,HI-TEMP,COMMON
294011200016 LED;GREEN,H0.8,0603,CL-190G,SMT
D32,D33,D34,D35,D36,D37,D38
242600000439 LABEL;25*6,HI-TEMP,COMMON
294011200043 LED;RE/GR,H0.8,L1.9,W1.6,19-22SR
LED1
242600000378 LABEL;27*7MM,HI-TEMP 260'C
294011200043 LED;RE/GR,H0.8,L1.9,W1.6,19-22SR
LED2
242668300028 LABEL;32*7MM,POLYESTER FILM,HOPE
416268090001 LT PF;SAMSUNG,15.4",LTN154WX,805
624200010140 LABEL;5*20,BLANK,COMMON
526268090006 LTX;8050/5ADB/40K/9UI9/B5D3A/XL
624200010140 LABEL;5*20,BLANK,COMMON
339115000046 MICROPHONE;-60dB+-2dB,D6.0*H2.7,
MIC1
242600000232 LABEL;6*6MM,GAL,BLANK,COMMON
291000251246 MINIPCI SOCKET;124P,R/A,0.8MM,H=
J713
242680900001 LABEL;AGENCY-GLOBAL,8050
346680900011 MYLAR;COVER,LCD,8050
242679900005 LABEL;BAR CODE,(25*10MM)*12pcs,8
461680900006 PACKING KIT;N-B BOX,8050
242600000157 LABEL;BAR CODE,125*65,COMMON
227680900002 PAD;LCD/KB,8050
135
8050 N/B Maintenance
9. Spare Part List(7)
Part Number Description
Price(US)
Part Number Description
Price(US)
224670830002 PALLET ;1250*1080*130,7521N
332810000034 PWR CORD;250V/2.5A,2P,BLK,EU,175
221673150001 PART ITION;AK BOX,8060
271046017301 RES;.001,2W,5%,2512,CYNTEC,SMT
PR740
221600050218 PART ITION;BATTERY,MARLIN,CAIMAN,
271045087101 RES;.008 ,1W ,1% ,2512,SMT
PR742
221673150004 PART ITION;PALLET,8060
271045107101 RES;.01 ,1W ,1% ,2512,SMT
PR701
221600050219 PART ITION;TOP/BTM,BATTERY,MARLIN
271034127101 RES;.012,1/2W,1%,2010,WSL2010,VI
PR707,PR711,PR719,PR732,PR73
412681300001 PCB ASSY;D/A BD,DA-1A08-A,PWR
271586026101 RES;.02 ,2W,1%,2512,SMT
PR22
412678800001 PCB ASSY;FAX MODEM 56K,1456VQL4A
271002000301 RES;0 ,1/10W,5% ,0805,SMT
L62,L65,L73,L88,R1,R123,R26,R2
412673400008 PCB ASSY;MINI-PCI,T YPE IIIB,INTE
271061000002 RES;0 ,1/16W,0402,SMT
PR103,PR104,PR11,PR111,PR120
316680900003 PCB;PWA-8050 Card Reader_Transit
R0B
271071000002 RES;0 ,1/16W,5% ,0603,SMT
L69,L719,L728,L744,L747,L751,L
316680900001 PCB;PWA-8050 M BD
R01
271012000301 RES;0 ,1/8W,5% ,1206,SMT
PR86
271044100101 RES;0.010,1.5W, 1%,2512,SMT;PWR
R6
271045507103 RES;0.050,1W, 1%,2512,SMT, only
R24A,R24B,R24C
222670820003 PE BAG;L560*W345,7521N
271061010101 RES;1,1/16W,1%,0402,SMT
PR18
222503220001 PE BUBBLE BAG;BATTERY,GRAMPUS
271061135101 RES;1.3M,1/16W,1%,0402,SMT
PR16,R1158
271061152501 RES;1.5K ,1/16W,5% ,0402,SMT
R1084,R798
411680900011 PWA;PWA-8050,MOT HER BD,INTERGRAT
271071152302 RES;1.5K ,1/16W,5% ,0603,SMT
R17
411680900013 PWA;PWA-8050,MOT HER BD,SMT,INTER
271071152302 RES;1.5K ,1/16W,5% ,0603,SMT
R19
411680900012 PWA;PWA-8050,MOT HER BD,T /U,INTER
271061196212 RES;1.96K,1/16W,1%,0402,SMT
PR710
411680900008 PWA;PWA-8050-CARD READER TRANSIT
271061100501 RES;10 ,1/16W,5% ,0402,SMT
PR1,R1000,R1001,R1009,R1010,R
411681300001 PWA;PWA-INVERTER BD,DA-1A08-A,PW
271061100102 RES;10,1/16W,1%,0402,SMT
PR37,PR38,PR5
411681300004 PWA;PWA-INVERTER BD,SMT BOT,DA-1
271061102312 RES;10.2K,1/16W,1% ,0402,SMT
R496,R502
411681300003 PWA;PWA-INVERTER BD,SMT TOP,DA-1
271061101103 RES;100 ,1/16W,1% ,0402,SMT
R1092,R1117,R1202,R208,R257,R
411681300002 PWA;PWA-INVERTER BD,SMT ,DA-1A08-
271071101301 RES;100 ,1/16W,5% ,0603,SMT
R11,R12,R14,R15,R16,R20,R21
411681710001 PWA-PWA-BATT BD;LI,4.4Ah,2P3S,BL
271061104102 RES;100K ,1/16W,1% ,0402,SMT
PR10,PR112,PR114,PR12,PR30,P
411681710002 PWA-PWA-BATT BD;SMT ,BL3244G095/8
271071104101 RES;100K ,1/16W,1% ,0603,SMT
R18,R22,R23,R9
316680900006 PCB;PWA-8050/BATT ,PR AND GA BD
316681300001 PCB;PWA-INVERTER BD (DA-1A08-A);
273000150033 PHASEOUT;FERRITE CHIP,120OHM/100
R0E
L743,L746
136
8050 N/B Maintenance
9. Spare Part List(8)
Part Number Description
Price(US)
Part Number Description
Price(US)
271061104501 RES;100K ,1/16W,5% ,0402,SMT
PR69,PR703,PR720,PR83,PR89,R
271061102105 RES;1K ,1/16W,1% ,0402,SMT
PR121,PR53,R1006,R141,R328,R5
271071104302 RES;100K ,1/16W,5% ,0603,SMT
R7
271061102303 RES;1K ,1/16W,5% ,0402,SMT
R1136,R1147,R155,R181,R21,R25
271061107411 RES;107K,1/16W,1%,0402,SMT
PR35
271071102302 RES;1K ,1/16W,5% ,0603,SMT
R11
271061103102 RES;10K ,1/16W,1% ,0402,SMT
PR102,PR119,PR4,PR47,PR724,P
271061105501 RES;1M ,1/16W,5% ,0402,SMT
PR106,PR115,PR123,PR26,PR27,P
271061103501 RES;10K ,1/16W,5% ,0402,SMT
R1007,R1098,R11,R1103,R1115,R
271071105301 RES;1M ,1/16W,5% ,0603,SMT
R10,R3
271071103302 RES;10K ,1/16W,5% ,0603,SMT
R2
271061222501 RES;2.2K ,1/16W,5% ,0402,SMT
R315,R318
271071103302 RES;10K ,1/16W,5% ,0603,SMT
R5,R7,R8
271061222101 RES;2.2K,1/16W,1%,0402,SMT
PR6
271061106501 RES;10M ,1/16W,5% ,0402,SMT
R296,R938
271061232111 RES;2.32K,1/16W,1%,0402,SMT
PR39
271061118211 RES;11.8K,1/16W,1%,0402,SMT
PR116
271061249211 RES;2.49K,1/16W,1% ,0402,SMT
PR77
271061127212 RES;12.7K,1/16W,1%,0402,SMT
PR17
271061272102 RES;2.7K ,1/16W,1% ,0402,SMT
R448,R449
271061124312 RES;124K,1/16W,1%,0402,SMT
PR79
271061205212 RES;20.5K,1/16W,1%,0402,SMT
PR113
271071127011 RES;127 ,1/16W,1% ,0603,SMT
R14A
271071201301 RES;200 ,1/16W,5% ,0603,SMT
R1A,R1B
271071127011 RES;127 ,1/16W,1% ,0603,SMT
R163
271061201101 RES;200 ,1/16W, 1%,0402,SMT
R280
271061133311 RES;13.3K,1/16W,1%,0402,SMT
PR19,PR29
271061204102 RES;200K ,1/16W,1% ,0402,SMT
PR54,PR55
271061137371 RES;13.7K,1/16W,.1%,0402,SMT
PR74
271061203701 RES;20K ,1/16W,.1%,0402,SMT
PR75
271061133101 RES;13.7K,1/16W,1%,0402,SMT
PR96
271061203102 RES;20K ,1/16W,1% ,0402,SMT
PR117,PR21,PR41,PR722,PR726,R
271071131101 RES;130 ,1/16W,1% ,0603,SMT
R911
271061220501 RES;22 ,1/16W,5% ,0402,SMT
R1120,R1131,R306,R329,R424,R4
271071141102 RES;140 ,1/16W,1% ,0603,SMT
R37
271061220102 RES;22,1/16W,1% ,0402,SMT
R253
271061151102 RES;150 ,1/16W, 1%,0402,SMT
R220,R446,R791,R850,R884,R912
271061221312 RES;22.1K,1/16W,1% ,0402,SMT
R463,R479,R509,R510
271061153102 RES;15K ,1/16W,1% ,0402,SMT
PR105,PR107,PR122,PR727,PR72
271071221211 RES;22.1K,1/16W,1% ,0603,SMT
R1122
271061152302 RES;15K ,1/16W,5% ,0402,SMT
R1008
271061221313 RES;220 ,1/16W, 5%,0402,SMT
R552,R555,R556,R557
271061180101 RES;18.2 ,1/16W,1% ,0402,SMT
R838
271061224501 RES;220K ,1/16W,5% ,0402,SMT
R251
271061184302 RES;180K ,1/16W, 5%,0402,SMT
R1140,R288
271071224301 RES;220K ,1/16W,5% ,0603,SMT
R1
271061183102 RES;18K,1/16W,1%,0402,SMT
PR718,R462,R507
271061226311 RES;226K,1/16W,1%,0402,SMT
PR71
271061196213 RES;19.6K,1/16W,1%,0402,SMT
PR36,PR97,PR99
271061223102 RES;22K,1/16W,1% ,0402,SMT
R325,R520
137
8050 N/B Maintenance
9. Spare Part List(9)
Part Number Description
Price(US)
Part Number Description
Price(US)
271061249212 RES;24.9K,1/16W,1%,0402,SMT
PR98
271061472501 RES;4.7K ,1/16W,5% ,0402,SMT
R10,R1081,R1132,R1154,R1200,R
271061249312 RES;249K,1/16W,1%,0402,SMT
PR729,PR76
271071472302 RES;4.7K ,1/16W,5% ,0603,SMT
PR87,PR88
271061270102 RES;27.4 ,1/16W, 1%,0402,SMT
R133,R213,R291
271061499212 RES;4.99K,1/16W,1% ,0402,SMT
PR20,R1148
271071274811 RES;27.4 ,1/16W,1% ,0603,SMT
R792,R839
271061402011 RES;40.2 ,1/16W,1% ,0402,SMT
R832
271072287011 RES;287 ,1/10W,1% ,0603,SMT
R914
271071432211 RES;43.2K,1/16W,1% ,0603,SMT
R1
271061202102 RES;2K ,1/16W,1% ,0402,SMT
PR101,PR124,PR46,PR725,PR731
271061432212 RES;43.2K,1/16W,1%,0402,SMT
PR118,PR60,R1187,R1189,R1205,
271071202301 RES;2K ,1/16W,5% ,0603,SMT
R12
271061471501 RES;470 ,1/16W,5% ,0402,SMT
R1085,R553,R554,R558
271061332312 RES;3.3K,1/16W,5% ,0402,SMT
PR70
271072474101 RES;470K ,1/10W,1% ,0603,SMT
R4
271071362101 RES;3.6K ,1/16W,1% ,0603,SMT
R1110
271061474501 RES;470K ,1/16W,5% ,0402,SMT
PR702,R373
271061301112 RES;301 ,1/16W,1% ,0402,SMT
R793,R855
271061473501 RES;47K ,1/16W,5% ,0402,SMT
R442,R443,R702,R708,R929,R940
271071301311 RES;301K ,1/16W,1% ,0603,SMT
R13,R3
271071487811 RES;48.7 ,1/16W,1% ,0603,SMT
R900
271061330501 RES;33 ,1/16W,5% ,0402,SMT
R1213,R816,R817,R818,R824,R82
271071487011 RES;487 ,1/16W,1% ,0603,SMT,MUS
R883
271061331304 RES;330 ,1/16W,5% ,0402,SMT
R1073,R1089,R301,R49,R54
271061499012 RES;49.9 ,1/16W,1% ,0402,SMT
R1082,R1086,R1087,R1090,R209,
271071331301 RES;330 ,1/16W,5% ,0603,SMT
R16,R21,R22
271061499411 RES;499K ,1/16W,1% ,0402,SMT
PR43,PR716
271071331301 RES;330 ,1/16W,5% ,0603,SMT
R18,R20,R23
271071499311 RES;499K ,1/16W,1% ,0603,SMT
R17
271071331301 RES;330 ,1/16W,5% ,0603,SMT
C14
271061562102 RES;5.6K ,1/16W, 1%,0402,SMT
R1099,R542
271061333501 RES;33K ,1/16W,5% ,0402,SMT
PR45,R701,R706
271061510303 RES;51, 1/16W, 5%,0402,SMT
R224,R228,R238,R243,R289
271071374812 RES;37.4 ,1/16W,1% ,0603,SMT
R898
271061549011 RES;54.9 ,1/16W,1% ,0402,SMT
R1141,R1142,R1143,R1144,R142,
271061390501 RES;39, 1/16W, 5%,0402,SMT
R225
271061560501 RES;56 ,1/16W,5% ,0402,SMT
R198,R264,R269,R273,R856,R936
271061391103 RES;390,1/16W,1% ,0402,SMT
R876
271061562212 RES;56.2K,1/16W,1%,0402,SMT
PR15
271061412111 RES;4.12K,1/16W,1%,0402,SMT
PR58
271071563101 RES;56K ,1/16W,1% ,0603,SMT
R6
271071432111 RES;4.32K,1/16W,1% ,0603,SMT
R10
271061576411 RES;576K ,1/16W,1% ,0402,SMT
PR28
271061442212 RES;4.42K,1/16W,1% ,0402,SMT
R1127,R1130
271061590411 RES;590K,1/16W,1%,0402,SMT
PR65
271071478101 RES;4.7 ,1/16W,1% ,0603,SMT
PR109,PR110,PR2,PR3,PR708,PR
271061619211 RES;6.19K,1/16W,1% ,0402,SMT
PR81
271002472301 RES;4.7K ,1/10W,5% ,0805,SMT
PR704,PR706
271061634211 RES;6.34K,1/16W,1% ,0402,SMT
R1145
138
8050 N/B Maintenance
9. Spare Part List(10)
Part Number Description
Price(US)
Part Number Description
Price(US)
271061649212 RES;6.49K,1/16W,1% ,0402,SMT
PR721
371102010252 SCREW;M2L2.5,K-HEAD(+),NIB/NLK
271061682501 RES;6.8K ,1/16W,5% ,0402,SMT
R537,R538,R546,R547
340680900008 SHIELDING ASSY;COVER,8050
271061604011 RES;60.4 ,1/16W,1% ,0402,SMT
R923,R924
340680900026 SHIELDING ASSY;HDD,8050
271002604011 RES;604 ,1/10W,1% ,0805,SMT
R945,R946
333050000117 SHRINK TUBE;UL,600V,105'C,ID2.5*
271061634214 RES;63.4K,1/16W,1%,0402,SMT
PR42
342677000014 SMT NUT;A40M20-50,EMI STOP,LYNX
MTG701,MTG702
271071681813 RES;68.1,1/16W,1%,0603,SMT
R903
342680900001 SMT NUT;A40M20-62,EMI STOP,8050
MTG703,MTG704
271061681501 RES;680 ,1/16W,5% ,0402,SMT
R214
361400003021 SOLDER CREAM;NOCLEAN,P4020870980
271071684101 RES;680K ,1/16W,1% ,0603,SMT
R5
361200003047 SOLDER PASTE;NO CLEAN,RMA,CK3000
271061752102 RES;7.5K,1/16W,1%,0402,SMT
PR84
365350000003 SOLDER WIRE;0.8MM,SN43/PB43/BI14
271061750501 RES;75 ,1/16W,5% ,0402,SMT
R152,R271,R277,R46,R930
600100010009 SOLDER WIRE;63/37,0.8,CM,N/C,PRC
271061753101 RES;75,1/16W,1%,0402,SMT
R144,R145,R334,R340,R784
600100010009 SOLDER WIRE;63/37,0.8,CM,N/C,PRC
271071753301 RES;75K ,1/16W,5% ,0603,SMT
R8
600100010009 SOLDER WIRE;63/37,0.8,CM,N/C,PRC
271071822102 RES;8.2K ,1/16W,1% ,0603,SMT
R14B
341680900001 SPC SCREW;#4-1/4,8050
271061822501 RES;8.2K ,1/16W,5% ,0402,SMT
R1004,R1005,R1074,R1119,R1228
370102010502 SPC-SCREW;M2 L5,NIB,K-HD,t0.8,NL
271061806311 RES;80.6K,1/16W,1% ,0402,SMT
PR63,PR66
370102611601 SPC-SCREW;M2.6*L16,NIB,K-HD
370102610401 SPC-SCREW;M2.6L4,K-HD,t0.8,NIB/N
451680900151 ROM ME KIT;8050
271611000301 RP;0*4 ,8P ,1/16W,5% ,0612,SMT
RP26,RP27
370102610401 SPC-SCREW;M2.6L4,K-HD,t0.8,NIB/N
271611103301 RP;10K*4 ,8P ,1/16W,5% ,0612,SMT
RP719
370102610603 SPC-SCREW;M2.6L6,K-HD,NIB/NLK
271621103302 RP;10K*8 ,10P,1/32W,5% ,1206,SMT
RP46
370102610603 SPC-SCREW;M2.6L6,K-HD,NIB/NLK
271611220301 RP;22*4 ,8P ,1/16W,5% ,0612,SMT
RP45
370102010201 SPC-SCREW;M2L2,NIW,K-HD,t=0.8,NL
271621472302 RP;4.7K*8,10P,1/32W,5% ,1206,SMT
RP44
370102030301 SPC-SCREW;M2L3,K-HD,1,NIB/NLK
271571560302 RP;56*8 ,16P,1/16W,5% ,1606,SMT
RP29,RP30,RP31,RP32,RP33,RP3
370102030301 SPC-SCREW;M2L3,K-HD,1,NIB/NLK
271611750301 RP;75*4 ,8P ,1/16W,5% ,0612,SMT
RP2
370102010303 SPC-SCREW;M2L3,NIW,K-HD(+),NYLOK
345677300001 RUBBER;SILICONE RUBBER,T =1.5mm,D
370102010409 SPC-SCREW;M2L4,K-HD(t0.3),NIB/NL
371102010252 SCREW;M2L2.5,K-HEAD(+),NIB/NLK
370102010409 SPC-SCREW;M2L4,K-HD(t0.3),NIB/NL
139
8050 N/B Maintenance
9. Spare Part List(11)
Part Number Description
Price(US)
Part Number Description
Price(US)
370103010405 SPC-SCREW;M3L4,NIW,K-HD,T0.3
288203904022 TRANS;MMBT3904L,NPN,Tr35NS,TO236
PQ10,PQ9,Q20,Q708,Q718
340680900002 SPEAKER ASSY;L,8050
288221371002 TRANS;MUN2137T1,PNP,SMT,ON
PQ13,Q711
340680900003 SPEAKER ASSY;R,8050
288202215001 TRANS;MUN2215T1,N-MOSFET ,SC59,SM
Q719,Q720
340680900001 SPEAKER ASSY;WOOFER,8050
288202237002 TRANS;MUN2237T1,NPN,SOT -23,SMT ,O
PQ24,Q47
226600030332 SPONGE;320*290*10,CAIMAN,PWR
288202240001 TRANS;MUN2240T1,NPN,SOT -23,ON
Q12,Q23,Q26,Q27,Q29,Q31,Q32,Q
346677000016 SPONGE;RTC,LYNX
288202301001 TRANS;SI2301DS,P-MOSFET,SOT -23
Q13,Q14,Q24,Q43,Q48,Q51
341677000002 SPRING;SCREW,HEAT SINK,LYNX
288204800001 TRANS;SI4800DY,N-MOS,.0185OHM,SO
U7
523408610018 SUPER COMBO DRIVE;UJ-815B,PANASO
273001050069 TRANSFORMER;10/100 BASE,NS0013,S
297140200003 SW;COVER SWITCH,0.1A,30V,4P,T -ME
SW1
332110020165 WIRE ;#20AWG,UL1007,L=160mm,RED,
CN1
297004010001 SW;PUSH BUTTOM,5P,SPST,12VDC,50m
SW2,SW4,SW5
332110020173 WIRE ;#20AWG,UL1007,L=256mm,BLAC
CN4
225600000061 TAPE;ADHENSIVE,DOUBLE-FACE,W20,U
332110026151 WIRE ;#26AWG,UL1007,L=142mm,YELL
CN3
225600000054 TAPE;INSULATING,POLYEST ER FILM,1
332110026150 WIRE ;#26AWG,UL1007,L=208mm,BLUE
CN2
422677000008 WIRE ASSY;BATT T O MB,FOR LYNX,MO
J710
310111103029 THERMIST OR;10K,1%,BN35-3H103F,18
RT1
442680900051 TOUCHPAD MODULE;SYNAPTICS,TM42PU
340680900028 WIRE ASSY;INVERTER,8050
288227002006 TRANS;2N7002LT1,N-CHANNEL FET ,ES
PQ1,PQ12,PQ14,PQ16,PQ17,PQ1
422674300071 WIRE ASSY;MDC,E-NOTE
288204406001 TRANS;AO4406,N-MOS,.0165OHM,SO8
PU10,PU9
422680900003 WIRE CABLE;SAM LT N154X1,8050
288204407001 TRANS;AO4407,P-MOS,.01OHM,SO8,SM
PQ701,PQ704,PQ707
340680900027 WLEN ASSY;CABLE,8050
288204409001 TRANS;AO4409,P-MOSFET,SO-8P,MSL,
Q3,Q5
273001050160 XFMR;CI8.5,25T/2150T,300mH,ONLY
T1
288204410010 TRANS;AO4410,N-MOSFET,ID=18A,0.0
PU11,PU12,PU13
273001050039 XSFORMER;10/100 BASE,LF-H80P,SMT
U717
288204900001 TRANS;AO4900,DUAL N-MOSFET WITH
PU4,PU6,PU702,PU705,PU707,PU
274011431414 XT AL;14.318MHZ,32PF,50PPM,8*4.5,
X701,X703
288204914001 TRANS;AO4914,DUAL N-MOSFET ,WITH
PU701
274012457406 XT AL;24.576MHZ,16PF,50PPM,8*4.5,
X707
288200144008 TRANS;DTA144EKA,PNP,SMT
Q1
274012500415 XT AL;25MHZ,20PF,30PPM,8.0*4.5,SM
X706
288204435003 TRANS;FDS4435,P-MOSFET ,35mOHM,SO
Q9,U704,U707
274013276103 XT AL;32.768KHZ,20PPM,12.5PF,CM20
X704
288200301001 TRANS;FDV301N,N-CHANNEL,SOT23
Q42
274010800405 XT AL;8Mhz,30PPM,16PF,8*4.5,2P,SM
X1
288202222019 TRANS;MMBT2222ALT 1,NPN,TO236AB,O
PQ15
P/N: 526268090006
140
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5
4
3
2
1
REVISION
8050 R01
PROJECT CODE- G095
PRODUCT CODE- 6809
CHAGND
CARDBUS /
CARDREADER
PCI_INTB# /
PCI_INTC#
IEEE1394
PCI_INTG#
PCI_INTD#
TP43
TP44
TP45
TOUCHPAD_METAL10
TOUCHPAD_METAL10
TOUCHPAD_METAL10
TOUCHPAD_METAL10 TOUCHPAD_METAL10
TP46
R00
2003/8/26
R0A
2003/10/09
PCI_REQ1# /
PCI_GNT1#
AD21
PCI_REQ2# /
PCI_GNT2#
AD17
1
1
1
1
GND
GND
GND
TP47
TP48
TP50
TP51
TP52
TOUCHPAD_METAL10
TOUCHPAD_METAL10
TOUCHPAD_METAL10
TOUCHPAD_METAL10 TOUCHPAD_METAL10
1
1
1
1
GND
GND
GND
2.
USE IEEE1394 CONTROLLER VT6307 INSTEAD OF
R5C592
3.
ADD SPDIF FUNCTION
4.
CHANGE CARDBUS CONNENTOR PLACEMENT FORM
COMPONENT SIDE TO SOLDER SIDE
5.
CHANGE MDC AND MINIPCI CONNECTORS PLACEMENT FROM
SOLDER SIDE TO COMPONENT SIDE
6.
CHANGE LVDS ROUTING FAR AWAY POWER SWITCHING
SIGNALS
D
R0B
2003/11/07
1.
CHANGE TV CONNECTOR
2.
CHANGE BATTERY CONNECTOR
R01
2003/12/16
1.
EXCHANGE TV CONNECTOR PIN 6 AND PIN 7
2.
ADD SPREAD SPECTRUM CIRCUIT BUT RESERVE
3.
ADD POWER CONSUMPTION SAVING CIRCUIT BUT RESERVE
GND
TP4
TOUCHPAD_METAL5
1
1
GND
CHANGE CARDBUS/CARD READER CONTROLLER FROM
R5C592 TO CB710
TOUCHPAD_METAL5
1
1
GND
GND
1.
AD20
TP3
GND
GND
CARDREADER
342677000014
MTG702
MTG/ID1.2/OD4.6
342677000014
MTG701
MTG/ID1.2/OD4.6
MTG704
MTG/ID1.2/OD4.6
EC
1
1
+1.35V
C1008
C1007
50V 1
+/-20%
1
1
JS702
1
ESD
MTG703
MTG/ID1.2/OD4.6
+3V
2
50V 1
+/-20%
+5V
2 0402
1000P
2 0402
1000P
TP722
TP723
TOUCHPAD_METAL10
TOUCHPAD_METAL10
+3V
C357
50V 1
+/-20%
4
5
6
7
8
GND
GND
3
2
1
8050N
16
15
14
13
12
4
5
6
7
8
16
15
14
13
12
TP58
RD080_051/NA
GND_45
TP59
RD080_051/NA
B
1
16
15
14
13
12
1394_GND
1
4
5
6
7
8
GND_USB
GND
GND
GND
9
10
11
16
15
14
13
12
2 0402
1000P
MTG8
ID3.0/OD11
MTG118NRD433_3016A
3
2
1
MTG7
ID3.0/OD11
MTG118NRD433_3016A
50V 1
+/-20%
+5V
2 0402
1000P
AGND
MTG4
ID3.0/OD11
MTG118-RD433-N-30X16
+2.5V_M10
C1006
GND
GND
1
SHORT-SMT4
GND
1
GND
9
10
11
4
5
6
7
8
AD18
HISTORY
C
3
2
1
16
15
14
13
12
IDSEL
PCI_REQ3# /
PCI_GNT3#
PCI_REQ0# /
PCI_GNT0#
TP42
MDC
9
10
11
4
5
6
7
8
9
10
11
B
REQ/GNT
PCI_INTE#
EMI
MTG2
ID3.0/OD11
MTG118-RD433-N-30X16
3
2
1
MTG1
ID3.0/OD11
MTG118NRD433_3016B
INTERRUPT
LAN
MINIPCI
3
2
1
C
PAGE 1 TITLE
PAGE 2 CPU- BANIAS(1/2)
PAGE 3 CPU-BANIAS(2/2)
PAGE 4 NB-MONTARA-GME(1/2)
PAGE 5 NB-MONTARA-GME(2/2)
PAGE 6 DDR-DIMM
PAGE 7 VGA-M10(1/4)
PAGE 8 VGA-M10(2/4)
PAGE 9 VGA-M10 (3/4)
PAGE10 VGA-M10(4/4)
PAGE11 CLOCK SYNTHERIZER/TV ENCODER
PAGE12 CRT/LCD
PAGE13 SOUTHBRIDGE-ICH4-M(1/2)
PAGE14 SOUTHBRIDGE-ICH4-M(2/2)
PAGE15 CDROM/HDD/USB CONNECTOR
PAGE16 LAN RTL8100CL
PAGE17 R5C811/841
PAGE18 IEEE1394
PAGE19 MINI-PCI
PAGE20 AUDIO CODEC(ALC655)
PAGE21 AUDIO AMPLIFIER/SUBWOOFER
PAGE22 KBC(W83L950D)
PAGE23 TOUCHP_PAD/FWH/LED
PAGE24 PULL HIGH
PAGE25 PERPHERIAL
PAGE26 +2.5VS_DDR_P/+1.25V_DDR_P
PAGE27 +3VS_P/+5VS_P
PAGE28 +1.5V_P/+1.05V_P
PAGE29 +1.8V_P/1.35V_P
PAGE30 +1.2V/1.0V_M10
PAGE31 CPUCORE
PAGE32 ADAPTER/VMAIN
PAGE33 CHARGER/DISCHARGER
9
10
11
D
PCB P/N 316680900001
ASSY P/N 411680900011
PCI DEVICE
TAPEOUT DAY
GND
CPU
MTG24
ID5.3/OD7.5
MTG27
ID5.3/OD7.5
MTG28
ID5.3/OD7.5
MTG12
ID5.3/OD7.5
MTG32
ID5.3/OD7.5
1
1
光學定位點
FD1
FIDUCIAL-MARK
GND
GND_45
GND
CAGND
MTG10
ID2.8/OD11
1
GND
GND
GND
3
2
1
3
2
1
3
2
1
FD704
FIDUCIAL-MARK
1
1
GND
1
1
MTG15
ID3.0/OD9.0
MTG118-RD354-N-30X12
1
MTG3
ID3.0/OD9.0
MTG118-RD354-N-30X12
FD3
FIDUCIAL-MARK
MTG31
ID3.0/OD8.0/CP7.5X9.5
FD703
FIDUCIAL-MARK
MTG6
ID3.0/OD9.0
MTG118-RD354-N-30X12
FD4
FIDUCIAL-MARK
1
MTG5
ID3.0/OD9.0
FD2
FIDUCIAL-MARK
GND
FD702
FIDUCIAL-MARK
FD701
FIDUCIAL-MARK
1
MTG22
ID2.8/OD11
GND
1
GND
1
GND
1
GND
1
1
16
15
14
13
12
1
4
5
6
7
8
1
16
15
14
13
12
9
10
11
4
5
6
7
8
3
2
1
MTG14
ID3.0/OD11
MTG118NRD433_3016B
3
2
1
16
15
14
13
12
9
10
11
4
5
6
7
8
9
10
11
16
15
14
13
12
9
10
11
4
5
6
7
8
MTG13
ID3.0/OD11
MTG118-RD433-N-30X16
3
2
1
MTG11
ID3.0/OD11
MTG118NRD433_3016A
3
2
1
MTG9
ID3.0/OD11
MTG118-RD433-N-30X16
A
A
12
11
10
4
5
6
12
11
10
7
8
9
4
5
6
7
8
9
12
11
10
7
8
9
4
5
6
DRAWN DESIGN CHECK ISSUES
GND
GND
1394_GND
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
1
of
34
5
4
3
2
1
VCC : PROCESSOR CORE POWER SUPPLY.
VCCA : ISOLATE POWER FOR INTERNAL PLL.
CPU-BANIAS (1/2)
VCCP : PROCESSOR I/O POWER SUPPLY.
VCCQ : QUIET POWER SUPPLY FOR ON DIE COMP CKT.
HA#[3..31]
HADS#
4
4
HADSTB#0
HADSTB#1
4
4
4
4
HBR0#
HBPRI#
HBNR#
HLOCK#
+VCCP
31
PM_PS
HRS#[0..2]
HHIT#
HHITM#
HDEFER#
HTRDY#
HRS#[0..2]
13
14
4
HA20M#
HFERR#
HDPWR#
13
HSLP#
1
2
0/NA5%
R292
13
13
13
HIGNNE#
HSMI#
HPWRGD
22 HPROCHOT#
13
4,13
B
U3
AE5
HBR0#
R264 56 1
4
4
4
4
4
N2
4
HSTPCLK#
HDPSLP#
13
13
HINTR
HNMI
13,23
4
HINIT#
HCPURST#
11 CLK_ITP_CPU
11 CLK_ITP_CPU#
2 0402
5%
HRS#0
HRS#1
HRS#2
HA20M#
HDBR#
HSLP#
HPSI#
N4
J3
L1
J2
A4
K3
K4
L4
M3
H1
K1
L2
C2
D3
C19
A7
A6
E1
HIGNNE#
HSMI#
HPWRGD
A3
B4
E4
HPROCHOT#
B17
HSTPCLK#
HDPSLP#
C6
B7
HINTR
HNMI
D1
D4
HINIT#
B5
B11
A16
A15
REQ0#
REQ1#
REQ2#
REQ3#
REQ4#
ADS#
ADSTB0#
ADSTB1#
BR0#
BPRI#
BNR#
LOCK#
IERR#
HIT#
HITM#
DEFER#
TRDY#
RS0#
RS1#
RS2#
A20M#
FERR#
DPWR#
DBR#
SLP#
PSI#
IGNNE#
SMI#
PWRGOOD
PROCHOT#
STPCLK#
DPSLP#
LINT0
LINT1
INIT#
RESET#
DSTBN0#
DSTBN1#
DSTBN2#
DSTBN3#
DSTBP0#
DSTBP1#
DSTBP2#
DSTBP3#
DBSY#
DRDY#
THERMDA
THERMDC
ITP_CLK0
ITP_CLK1
THERMTRIP#
HPROCHOT#
R141
1K
0402
1%
A13
C12
A12
C11
B13
B10
A10
AD26
E26
G1
AC1
Close to CPU as possible. < 0.5"
C165
220P
0402
10%
50V
C160
1U
0402
+80-20%
10V
R134
2K
0402
1%
HCOMP0
HCOMP1
HCOMP2
HCOMP3
P25
P26
AB2
AB1
GND
AF7
HCOMP1 & HCOMP3 should be
route with 5 mil width
C14
C3
CPU_TEST1
CPU_TEST2
CPU_TEST3
TCK
TDI
TDO
TMS
TRST#
PREQ#
PRDY#
C5
F23
C16
GTLREF0
GTLREF1
GTLREF2
GTLREF3
COMP0
COMP1
COMP2
COMP3
RSVD_0
RSVD_2
RSVD_3
TEST1
TEST2
TEST3
HDINV#[0..3]
4 HDINV#[0..3]
HDINV#0
HDINV#1
HDINV#2
HDINV#3
D25
J26
T24
AD20
DINV0#
DINV1#
DINV2#
DINV3#
+VCC_CORE
AE11
AE13
AE15
AE17
AE19
AF8
AF10
AF12
AF14
AF16
AF18
HDSTBN#[0..3]
HDBSY#
HDRDY#
CPU_THERMDA
CPU_THERMDC
VCC_61
VCC_62
VCC_63
VCC_64
VCC_65
VCC_66
VCC_67
VCC_68
VCC_69
VCC_70
VCC_71
D6
D8
D18
D20
D22
E5
E7
E9
E17
E19
E21
F6
F8
F18
F20
F22
G5
G21
H6
H22
J5
J21
K22
U5
V6
V22
W5
W21
Y6
Y22
AA5
AA7
AA9
AA11
AA13
AA15
AA17
AA19
AA21
AB6
AB8
AB10
AB12
AB14
AB16
AB18
AB20
AB22
AC9
AC11
AC13
AC15
AC17
AC19
AD8
AD10
AD12
AD14
AD16
AD18
AE9
D
C
BANIAS
BGA479_SKT3
HDSTBN#[0..3] 4
HDSTBP#[0..3]
M2
H2
B18
A18
1
HDSTBP#0
HDSTBP#1
HDSTBP#2
HDSTBP#3
+VCCP
BPM0#
BPM1#
BPM2#
BPM3#
2
C22
L24
W24
AE25
HTCLK
HTDI
HTDO
HTMS
HTRST#
HPREQ#
HPRDY#
1
HDSTBN#0
HDSTBN#1
HDSTBN#2
HDSTBN#3
1
C23
K24
W25
AE24
C8
B8
2 0402 A9
2 0402 C9
1
1
VCC_0
VCC_1
VCC_2
VCC_3
VCC_4
VCC_5
VCC_6
VCC_7
VCC_8
VCC_9
VCC_10
VCC_11
VCC_12
VCC_13
VCC_14
VCC_15
VCC_16
VCC_17
VCC_18
VCC_19
VCC_20
VCC_21
VCC_22
VCC_23
VCC_24
VCC_25
VCC_26
VCC_27
VCC_28
VCC_29
VCC_30
VCC_31
VCC_32
VCC_33
VCC_34
VCC_35
VCC_36
VCC_37
VCC_38
VCC_39
VCC_40
VCC_41
VCC_42
VCC_43
VCC_44
VCC_45
VCC_46
VCC_47
VCC_48
VCC_49
VCC_50
VCC_51
VCC_52
VCC_53
VCC_54
VCC_55
VCC_56
VCC_57
VCC_58
VCC_59
VCC_60
BCLK0
BCLK1
HDSTBP#[0..3] 4
4
4
CPU_THERMDA 22
CPU_THERMDC 22
C17
CPU_THRMTRIP_OUT# 14
B
BANIAS
BGA479_SKT3
+3V
+VCCP
4
1
2
R243
51
0402
5%
R219
51/NA
0402
5%
R225
39
0402
1%
R220
150
0402
1%
HDBR#
1
R246 10K/NA
2
0402
R229
51/NA
0402
5%
1
R294 200/NA
1
R265 200/NA
HINTR
1
R293 200/NA
HNMI
1
R302 200/NA
HSMI#
1
R268 200/NA
HSTPCLK#
1
R249 200/NA
HDPSLP#
1
R247 200/NA
HSLP#
1
R248 200/NA
HINIT#
1
R256 200/NA
2
0402
2
0402
2
0402
2
0402
2
0402
2
0402
2
0402
2
0402
2
0402
HIGNNE#
HCPURST#
1
R214
680
0402
5%
2
2
1
HTRST#
HTCLK
GND
1
R133 27.4
1
R142 54.9
1
R291 27.4
1
R300 54.9
+VCCP
HA20M#
R213
27.4
0402
1%
HCOMP0 & HCOMP2 should be
route with 18 mil width
5%
2
R238
51
0402
5%
2
R228
51
0402
5%
2
HPREQ#
HPRDY#
HBPM#1
HBPM#0
HTDO
HTMS
HTDI
2
R224
51
0402
5%
1
1
1
1
+VCC_CORE
1
C
R2
P3
T2
P1
T1
R198
56
0402
5%
B15
B14
2
HREQ#0
HREQ#1
HREQ#2
HREQ#3
HREQ#4
U713B
11 HCLK_CPU
11 HCLK_CPU#
HBPM#0
HBPM#1
R242 0
R237 0
+VCCP
1
HREQ#[0..4]
+VCC_CORE
4
1
4
HREQ#[0..4]
HD#[0..63]
2
HPWRGD
HD#0
HD#1
HD#2
HD#3
HD#4
HD#5
HD#6
HD#7
HD#8
HD#9
HD#10
HD#11
HD#12
HD#13
HD#14
HD#15
HD#16
HD#17
HD#18
HD#19
HD#20
HD#21
HD#22
HD#23
HD#24
HD#25
HD#26
HD#27
HD#28
HD#29
HD#30
HD#31
HD#32
HD#33
HD#34
HD#35
HD#36
HD#37
HD#38
HD#39
HD#40
HD#41
HD#42
HD#43
HD#44
HD#45
HD#46
HD#47
HD#48
HD#49
HD#50
HD#51
HD#52
HD#53
HD#54
HD#55
HD#56
HD#57
HD#58
HD#59
HD#60
HD#61
HD#62
HD#63
2
2
R301
330
0402
5%
A19
A25
A22
B21
A24
B26
A21
B20
C20
B24
D24
E24
C26
B23
E23
C25
H23
G25
L23
M26
H24
F25
G24
J23
M23
J25
L26
N24
M25
H26
N25
K25
Y26
AA24
T25
U23
V23
R24
R26
R23
AA23
U26
V24
U25
V26
Y23
AA26
Y25
AB25
AC23
AB24
AC20
AC22
AC25
AD23
AE22
AF23
AD24
AF20
AE21
AD21
AF25
AF22
AF26
1
1
+VCCP
D0#
D1#
D2#
D3#
D4#
D5#
D6#
D7#
D8#
D9#
D10#
D11#
D12#
D13#
D14#
D15#
D16#
D17#
D18#
D19#
D20#
D21#
D22#
D23#
D24#
D25#
D26#
D27#
D28#
D29#
D30#
D31#
D32#
D33#
D34#
D35#
D36#
D37#
D38#
D39#
D40#
D41#
D42#
D43#
D44#
D45#
D46#
D47#
D48#
D49#
D50#
D51#
D52#
D53#
D54#
D55#
D56#
D57#
D58#
D59#
D60#
D61#
D62#
D63#
2
HBR0#
A3#
A4#
A5#
A6#
A7#
A8#
A9#
A10#
A11#
A12#
A13#
A14#
A15#
A16#
A17#
A18#
A19#
A20#
A21#
A22#
A23#
A24#
A25#
A26#
A27#
A28#
A29#
A30#
A31#
1
2
R289
51
0402
5%
P4
U4
V3
R3
V2
W1
T4
W2
Y4
Y1
U1
AA3
Y3
AA2
AF4
AC4
AC7
AC3
AD3
AE4
AD2
AB4
AC6
AD5
AE2
AD6
AF3
AE1
AF1
2
1
+VCC_CORE
D
HD#[0..63]
U713A
HA#3
HA#4
HA#5
HA#6
HA#7
HA#8
HA#9
HA#10
HA#11
HA#12
HA#13
HA#14
HA#15
HA#16
HA#17
HA#18
HA#19
HA#20
HA#21
HA#22
HA#23
HA#24
HA#25
HA#26
HA#27
HA#28
HA#29
HA#30
HA#31
2
HA#[3..31]
2
4
5%
2
0402
2
0402
2
0402
2
0402
HCOMP0
1%
HCOMP1
1%
HCOMP2
1%
HCOMP3
1%
5%
GND
5%
1
R255 1K/NA
1
R143 1K/NA
1
R204 1K/NA
5%
5%
5%
2 CPU_TEST1
0402 5%
2 CPU_TEST2
0402 5%
2 CPU_TEST3
0402 5%
5%
GND
5%
Close to CPU as possible.
5%
PLACEMENT MAX. 3" FROM CPU.
GND
Don't overlay by CHOKE or vibrating signals.
Place close to CPU socket within 2".
A
A
+1.5V
R123 0
C163
0.1U
0402
10%
1
C316
0.1U
0402
10%
2
1
1
C162
0.1U
0402
10%
0805
2
C161
2.2U
0603
+/-10%
2
1
1
C151
2.2U
0603
+/-10%
2
C323
2.2U
0603
+/-10%
2
1
1
C322
2.2U
0603
+/-10%
2
2
2
1
2
0805
2
1
R124 0/NA
+VCCA
1
+1.8V
C317
0.1U
0402
10%
Title
1.8V, 0.6A, 10uF and 10nF each VCCA pin.
1.5V for future support.
8050 MOTHER B/D
GND
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
2
of
34
5
4
3
2
1
CPU-BANIAS (2/2)
B
0
0
1
0
1.676
1
0
0
0
1
0
1.164
0
0
0
1
1
1.660
1
0
0
0
1
1
1.148
0
0
0
1
0
0
1.644
1
0
0
1
0
0
1.132
0
0
0
1
0
1
1.628
1
0
0
1
0
1
1.116
0
0
0
1
1
0
1.612
1
0
0
1
1
0
1.100
0
0
0
1
1
1
1.596
1
0
0
1
1
1
1.084
0
0
1
0
0
0
1.580
1
0
1
0
0
0
1.068
0
1
1
1
1
2
C186
0.1U
0402
10%
16V
C195
0.1U
0402
10%
16V
C248
0.1U
0402
10%
16V
C235
0.1U
0402
10%
16V
C222
0.1U
0402
10%
16V
1
1
C204
0.1U
0402
10%
16V
+VCC_CORE
BANIAS
BGA479_SKT3
C251
0.1U
0402
10%
16V
C280
0.1U
0402
10%
16V
C191
0.1U
0402
10%
16V
C178
0.1U
0402
10%
16V
C236
0.1U
0402
10%
16V
R193 1
0
2
C319
0.1U
0402
10%
16V
0
1
1
0
0
1.516
1
0
1
1
0
0
1.004
0
0
1
1
0
1
1.500
1
0
1
1
0
1
0.988
0
0
1
1
1
0
1.484
1
0
1
1
1
0
0.972
0
0
1
1
1
1
1.468
1
0
1
1
1
1
0.956
0
1
0
0
0
0
1.452
1
1
0
0
0
0
0.940
0
1
0
0
0
1
1.436
1
1
0
0
0
1
0.924
0
1
0
0
1
0
1.420
1
1
0
0
1
0
0.908
2N7002/NA
D
VID5
D
S
0
S
2
Q16
CPUVID5
VID5
31
C318
0.1U
0402
10%
16V
C181
0.1U
0402
10%
16V
C266
0.1U
0402
10%
16V
C259
0.1U
0402
10%
16V
C182
0.1U
0402
10%
16V
C242
0.1U
0402
10%
16V
1
1.052
1
1.020
2
1.036
1
1
0
1
0
2
1
0
1
0
1
2
1
0
1
1
0
1
2
0
1
1.532
1
1
1.548
1
2
B
2
1.564
0
1
C200
0.1U
0402
10%
16V
GND
1
1
1
0
C185
0.1U
0402
10%
16V
GND
C268
0.1U
0402
10%
16V
GND
2
0
0
1
C254
10U
0805
6.3V
GND
1
0
1
2
C240
10U
0805
6.3V
2
C249
10U
0805
6.3V
C831
10U
0805
6.3V
1
1
2
C158
10U
0805
6.3V
2
C198
10U
0805
6.3V
1
1
1
1
2
C157
10U
0805
6.3V
2
2
1
C264
10U
0805
6.3V
2
1
C156
10U
0805
6.3V
+VCC_CORE
2
1
0
0
2
1
1
2
2
2
2
1
1
2
1
1
2
1
2
1
2
1
2
C155
10U
0805
6.3V
GND
1
0
0
0
2
1
2
1
2
2
1
2
1
2
1
1
2
1
2
1
2
1
2
C1005
220U/NA
7343
4V
+VCCP
0
2
1
2
1
2
1
2
2
1
2
1
2
1
2
1
2
1
2
1
C1004
+ 220U/NA +
7343
4V
1
0
0
C
2
0
C183
10U
0805
6.3V
1
VCC-Core
C177
10U
0805
6.3V
2
1.180
0
C296
10U
0805
6.3V
C194
0.1U
0402
10%
16V
2
1.196
1
C279
10U
0805
6.3V
1
0
0
C241
10U
0805
6.3V
+VCC_CORE
2
0
0
C230
10U
0805
6.3V
1
0
0
C175
10U
0805
6.3V
2
0
0
C173
10U
0805
6.3V
1
0
1
GND
C168
10U
0805
6.3V
C270
10U
0805
6.3V
2
1
1
1.692
C214
10U
0805
6.3V
1
2
1.708
1
C807
10U
0805
6.3V
C179
10U
0805
6.3V
2
3
0
D
C190
10U
0805
6.3V
1
4
0
0
C192
10U
0805
6.3V
2
5
0
0
C199
10U
0805
6.3V
1
VCC-Core
0
0
3
C321
10U
0805
6.3V
2
0
0
0
4
C203
10U
0805
6.3V
+VCC_CORE
1
1
0
0
5
2
VID
C312
10U
0805
6.3V
2
VID
C189
10U
0805
6.3V
+VCC_CORE
C320
10U
0805
6.3V
1
R299
R298
RP28
1
8 VID0
4.7K*4/NA 7 VID1
2
1206
3
6 VID2
4
5 VID3
1 4.7K/NA 2 0402 VID4
1 4.7K/NA 2 0402 VID5
C188
10U
0805
6.3V
GND
2
GND
C250
10U
0805
6.3V
1
BANIAS
BGA479_SKT3
GND
+5V
C267
10U
0805
6.3V
2
VSSENSE
C180
10U
0805
6.3V
C193
10U
0805
6.3V
1
VCCSENSE
C209
10U
0805
6.3V
2
AF6
1%
C226
10U
0805
6.3V
1
AE7
1%
C187
10U
0805
6.3V
0.844V ~ 1.356V, 32A
2
2
0402
2
0402
C220
10U
0805
6.3V
GND
1
CPUVID5
1
R885 54.9
1
R899 54.9
C
C257
10U
0805
6.3V
+VCC_CORE
2
VID[0..4]
VID[0..4]
VID0
VID1
VID2
VID3
VID4
VID5
C256
10U
0805
6.3V
2
31
E2
F2
F3
G3
G4
H4
J22
J24
K2
K5
K21
K23
K26
L3
L6
L22
L25
M1
M4
M5
M21
M24
N3
N6
N22
N23
N26
P2
P5
P21
P24
R1
R4
R6
R22
R25
T3
T5
T21
T23
T26
U2
U6
U22
U24
V1
V4
V5
V21
V25
W3
W6
W22
W23
W26
Y2
Y5
Y21
Y24
AA1
AA4
AA6
AA8
AA10
AA12
AA14
AA16
AA18
AA20
AA22
AA25
AB3
AB5
AB7
AB9
AB11
AB13
AB15
AB17
1
VID0
VID1
VID2
VID3
VID4
VCCA0
VCCA1
VCCA2
VCCA3
VSS_73
VSS_74
VSS_75
VSS_76
VSS_77
VSS_78
VSS_79
VSS_80
VSS_81
VSS_82
VSS_83
VSS_84
VSS_85
VSS_86
VSS_87
VSS_88
VSS_89
VSS_90
VSS_91
VSS_92
VSS_93
VSS_94
VSS_95
VSS_96
VSS_97
VSS_98
VSS_99
VSS_100
VSS_101
VSS_102
VSS_103
VSS_104
VSS_105
VSS_106
VSS_107
VSS_108
VSS_109
VSS_110
VSS_111
VSS_112
VSS_113
VSS_114
VSS_115
VSS_116
VSS_117
VSS_118
VSS_119
VSS_120
VSS_121
VSS_122
VSS_123
VSS_124
VSS_125
VSS_126
VSS_127
VSS_128
VSS_129
VSS_130
VSS_131
VSS_132
VSS_133
VSS_134
VSS_135
VSS_136
VSS_137
VSS_138
VSS_139
VSS_140
VSS_141
VSS_142
VSS_143
VSS_144
VSS_145
2
F26
B1
N1
AC26
VCCQ0
VCCQ1
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSS_10
VSS_11
VSS_12
VSS_13
VSS_14
VSS_15
VSS_16
VSS_17
VSS_18
VSS_19
VSS_20
VSS_21
VSS_22
VSS_23
VSS_24
VSS_25
VSS_26
VSS_27
VSS_28
VSS_29
VSS_30
VSS_31
VSS_32
VSS_33
VSS_34
VSS_35
VSS_36
VSS_37
VSS_38
VSS_39
VSS_40
VSS_41
VSS_42
VSS_43
VSS_44
VSS_45
VSS_46
VSS_47
VSS_48
VSS_49
VSS_50
VSS_51
VSS_52
VSS_53
VSS_54
VSS_55
VSS_56
VSS_57
VSS_58
VSS_59
VSS_60
VSS_61
VSS_62
VSS_63
VSS_64
VSS_65
VSS_66
VSS_67
VSS_68
VSS_69
VSS_70
VSS_71
VSS_72
1
P23
W4
AB19
AB21
AB23
AB26
AC2
AC5
AC8
AC10
AC12
AC14
AC16
AC18
AC21
AC24
AD1
AD4
AD7
AD9
AD11
AD13
AD15
AD17
AD19
AD22
AD25
AE3
AE6
AE8
AE10
AE12
AE14
AE16
AE18
AE20
AE23
AE26
AF2
AF5
AF9
AF11
AF13
AF15
AF17
AF19
AF21
AF24
VSS_146
VSS_147
VSS_148
VSS_149
VSS_150
VSS_151
VSS_152
VSS_153
VSS_154
VSS_155
VSS_156
VSS_157
VSS_158
VSS_159
VSS_160
VSS_161
VSS_162
VSS_163
VSS_164
VSS_165
VSS_166
VSS_167
VSS_168
VSS_169
VSS_170
VSS_171
VSS_172
VSS_173
VSS_174
VSS_175
VSS_176
VSS_177
VSS_178
VSS_179
VSS_180
VSS_181
VSS_182
VSS_183
VSS_184
VSS_185
VSS_186
VSS_187
VSS_188
VSS_189
VSS_190
VSS_191
2
+VCCQ
VCCP_0
VCCP_1
VCCP_2
VCCP_3
VCCP_4
VCCP_5
VCCP_6
VCCP_7
VCCP_8
VCCP_9
VCCP_10
VCCP_11
VCCP_12
VCCP_13
VCCP_14
VCCP_15
VCCP_16
VCCP_17
VCCP_18
VCCP_19
VCCP_20
VCCP_21
VCCP_22
VCCP_23
VCCP_24
1
D
+VCCA
A2
A5
A8
A11
A14
A17
A20
A23
A26
B3
B6
B9
B12
B16
B19
B22
B25
C1
C4
C7
C10
C13
C15
C18
C21
C24
D2
D5
D7
D9
D11
D13
D15
D17
D19
D21
D23
D26
E3
E6
E8
E10
E12
E14
E16
E18
E20
E22
E25
F1
F4
F5
F7
F9
F11
F13
F15
F17
F19
F21
F24
G2
G6
G22
G23
G26
H3
H5
H21
H25
J1
J4
J6
U713D
D10
D12
D14
D16
E11
E13
E15
F10
F12
F14
F16
K6
L5
L21
M6
M22
N5
N21
P6
P22
R5
R21
T6
T22
U21
2
+VCCP
(1.05V)
1
1.05V, 2.4A
+VCCP
U713C
C196
0.1U
0402
10%
16V
1
1.404
1
1
0
0
1
1
0.892
0
0
1.388
1
1
0
1
0
0
0.876
0
1
1.372
1
1
0
1
0
1
0.860
0
1
0
1
1
0
1.356
1
1
0
1
1
0
0.844
0
1
0
1
1
1
1.340
1
1
0
1
1
1
0.828
0
1
1
0
0
0
1.324
1
1
1
0
0
0
0.812
0
1
1
0
0
1
1.308
1
1
1
0
0
1
0.796
0
1
1
0
1
0
1.292
1
1
1
0
1
0
0.780
0
1
1
0
1
1
1.276
1
1
1
0
1
1
0.764
G
BAT54/NA
1
1
C231
10U
0805
6.3V
2
C265
0.1U
0402
10%
16V
2
1
1
C201
0.1U
0402
10%
16V
C768
+ 150U
7343
6.3V
2
C237
10U
0805
6.3V
2
1
1
D
2
S
2
2
120Z/100M
2012
GND
3
+VCCQ
L41
1
SI2301DS/NA
D14
1
D Q45
S
2N7002/NA
G
+VCCP
1
2
11,13,31 STOP_CPU#
+VCCP
10K/NA
0402
5%
G
1
1
1
Q28
1K/NA
0402
5%
D 1
0
0
R401
C258
10U
0805
6.3V
GND
GND
S
0
0
1
R400
B/CB#
G
1
1
13,24
D
S
0
0
0
2
GND
+1.5V
GND
1
B/CB#
GPIO16
A
0
1
1
1
0
0
1.260
1
1
1
1
0
0
0
1
1
1
0
1
1.244
1
1
1
1
0
1
0.732
1
1
1
1
0
1.228
1
1
1
1
1
0
0.716
0
1
1
1
1
1
1.212
1
1
1
1
1
1
0.700
0
Celeron
Banias CPU
A
power on default = 1
0.748
0
Banias
CPU
POWER CONSUMPTION SAVING CIRCUIT
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
3
of
34
5
4
3
2
1
NB-MONTARA-GME(1/2)
AGPBUS
AGP_AD[0..31]
855_DVOBHSYNC
855_DVOBVSYNC
855_DVOBD1
855_DVOBD0
855_DVOBD3
855_DVOBD2
855_DVOBD5
855_DVOBD4
855_DVOBD6
855_DVOBD9
855_DVOBD8
855_DVOBD11
855_DVOBD10
855_DVOBCCLKINT
855_DVOBFLDSTL
855_MDDCCDATA
855_DVOCVSYNC
855_DVOCHSYNC
855_DVOCBLANK#
855_DVOCD0
855_DVOCD1
855_DVOCD2
855_DVOCD3
855_DVOCD4
855_DVOCD7
855_DVOCD6
855_DVOCD9
855_DVOCD8
855_DVOCD11
855_DVOCD10
855_DVOBCINTR#
855_DVOCFLDSTL
U714A
2
2
2
2
2
2
2
2
2
2
2
2 HRS#[0..2]
HADS#
HTRDY#
HDRDY#
HDEFER#
HHITM#
HHIT#
HLOCK#
HBR0#
HBNR#
HBPRI#
HDBSY#
HRS#[0..2]
HRS#0
HRS#1
HRS#2
2 HCPURST#
12,13,17,25,31 PWROK
1 0402
R217
2 0
L28
M25
N24
M28
N28
N27
P27
M23
N25
P28
M26
N23
P26
M27
F15
J11
DINV[0]#
DINV[1]#
DINV[2]#
DINV[3]#
ADS#
HTRDY#
DRDY#
DEFER#
HITM#
HIT#
HLOCK#
BREQ0#
BNR#
BPRI#
DBSY#
RS[0]#
RS[1]#
RS[2]#
CPURST#
PWROK
HDVREF[0]
HDVREF[1]
HDVREF[2]
HAVREF
HCCVREF
1
D 2
S
ICLKAM D14
ICLKAP
E13
1 ICLKBM E10
1 ICLKBP
F10
0402
1 R166
2
D6
10K
5%Y3
DVOVREF
F1
TP27
TP30
+3V
7
11 66M_MCH
11 DVOVREF
R835
1 0/NA
0402
5%
AGP_VREF
2
+VCCP
HUB_HI0
HUB_HI1
HUB_HI2
HUB_HI3
HUB_HI4
HUB_HI5
HUB_HI6
HUB_HI7
HUB_HI8
HUB_HI9
HUB_HI10
U7
U4
U3
V3
W2
W6
V6
W7
T3
V5
V4
W3
V2
14 HUB_STB
14 HUB_STB#
HUB_MCH_VREF
HUB_RCOMP
R209
49.9
0402
1%
DVOBHSYNC
DVOBVSYNC
DVOCCLK
DVOCCLK#
DVOCD[0]
DVOCD[1]
DVOCD[2]
DVOCD[3]
DVOCD[4]
DVOCD[5]
DVOCD[6]
DVOCD[7]
DVOCD[8]
DVOCD[9]
DVOCD[10]
DVOCD[11]
ICLKAM
ICLKAP
ICLKBM
ICLKBP
EXTTS_0
GCLKIN
GVREF
DVODETECT
DVORCOMP
DVOCFLDSTL
DVOCBLANK#
HUB_HI[0..10]
14 HUB_HI[0..10]
HDVREF
K21
J21
J17
1
1
1
1
1
1
1
1
IYAM[0]
IYAM[1]
IYAM[2]
IYAM[3]
IYAP[0]
IYAP[1]
IYAP[2]
IYAP[3]
IYBM[0]
IYBM[1]
IYBM[2]
IYBM[3]
IYBP[0]
IYBP[1]
IYBP[2]
IYBP[3]
13 MCH_PCIRST#
REFSET
W1
T2
AD28
E8
HL[0]
HL[1]
HL[2]
HL[3]
HL[4]
HL[5]
HL[6]
HL[7]
HL[8]
HL[9]
HL[10]
DVOCHSYNC
DVOCVSYNC
LCLKCTLA
LCLKCTLB
LIBG
MDDCCLK
MDDCDATA
MDVICLK
MDVIDATA
MI2CCLK
MI2CDATA
HLSTB
HLSTB#
HLVREF
HLRCOMP
PANELBKLTCTL
PANELBKLTEN
PANELVDDEN
RSTIN#
REFSET
HAVREF
HCCVREF
Y22
Y28
C215
0.1U
0402
+80-20%
50V
C217
0.1U
0402
+80-20%
50V
R208
C216
100
0.1U
0402
0402
+80-20% 1%
50V
855_DDDA
855_DDCK
R790 1 10K
R800 1 10K
G9
B6
2 0402 B4
2 0402 C5
+3V
PSWING
RCVENIN#
RCVENOUT#
DDCADATA
DDCACLK
DDCPCLK
DDCPDATA
855GM/GME
BGA707_25
A7
A8
C8
D8
C9
D9
855_GREEN
855_BLUE
855_HSYNC
855_VSYNC
RED
RED#
GEEN
GREEN#
BLUE
BLUE#
NC_0
NC_1
NC_2
NC_3
NC_4
NC_5
NC_6
NC_7
NC_8
NC_9
NC_10
NC_11
2
CHANGE TO 0402
GND
T6
T5
855_DVOBHSYNC
855_DVOBVSYNC
J3
J2
1 R857
2
100K/NA
0402
GND
855_DVOCCLK
855_DVOCCLK#
K5
K1
K3
K2
J6
J5
H2
H1
H3
H4
H6
G3
855_DVOCD0
855_DVOCD1
855_DVOCD2
855_DVOCD3
855_DVOCD4
855_DVOCD5
855_DVOCD6
855_DVOCD7
855_DVOCD8
855_DVOCD9
855_DVOCD10
855_DVOCD11
L7
D1
H5
L3
855_DVODETECT
R832
0402 1 40.2
2
855_DVOCFLDSTL
855_DVOCBLANK#
K6
L5
855_DVOCHSYNC
855_DVOCVSYNC
H9
C6
04021 R210
04021 R799
2
B17
GND
1
R784
75
0402
1%
R145
75
0402
1%
2
C169
33P/NA
0402
+/-10%
25V
1
1
1
C170
33P/NA
0402
+/-10%
25V
2
C775
33P/NA
0402
+/-10%
25V
DREFSSCLK
12 855_CRT_HSYNC
12 855_CRT_VSYNC
855_CRT_HSYNC
855_CRT_VSYNC
G8
F8
A5
R202 1 0402
R203 1 0402
R801 1 0402
U2
AC16
AC15
MCH_PSWING
RCVENIN# 1 0402
RCVENOUT#
04021 R235
04021 R236
04021 R227
04021 R226
Less than 0.5"
+VCCP
+VCCP
+VCCP
MCH_PSWING
GND
R910
C837
100
1U/NA
0402
0402
+80-20% 1%
10V
2
1
2
2
C836
0.1U
0402
+80-20%
50V
1
1
C815
0.1U
0402
+80-20%
50V
GND
R850
150
0402
1%
REFSET
1 127 1% 2 R163
2
2
R791
150
0402
1%
2
C784
0.1U
0402
+80-20%
50V
1
1
HYSWING
2
1
2
R913
C842
100
1U
0402
0402
+80-20% 1%
10V
2
1
2
2
C840
0.1U
0402
+80-20%
50V
R855
301
0402
1%
1
2
HXSWING
1
GND
1
1
R257
C286
100
1U/NA
0402
0402
+80-20% 1%
10V
2
1
2
1
2
C287
0.1U
0402
+80-20%
50V
R793
301
0402
1%
2
R902
49.9
0402
1%
HCCVREF
2
HAVREF
1
1
1
R258
49.9
0402
1%
A
GND
GND
2 10K +1.5V
855_MI2CCLK
0402 1 R216
2 10K +1.5V
4
1
2
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
C
+1.5V
1K/NA
0402
5%
2 0/NA
2 0
2 0
BLADJ
ENABKL_NB
FPVDEN
12,22
12
12
WHEN USE INTEGRATE VGA
ADD R181
+1.5V
R279
2 0/NA
8.2K/NA
8.2K/NA
8.2K/NA
8.2K/NA
8.2K/NA
8.2K/NA
8.2K/NA
8.2K/NA
RDDP recommend
1K ohm
resistor
1R175
1R177
1R170
1R168
1R184
1R172
1R189
1R182
R59
1K
0402
5%
DVOVREF
04022
04022
04022
04022
04022
04022
04022
04022
855_ADDID0
855_ADDID1
855_ADDID2
855_ADDID3
855_ADDID4
855_ADDID5
855_ADDID6
855_ADDID7
330/NA
330/NA
330/NA
330/NA
330/NA
330/NA
330/NA
1K
1
1
1
1
1
1
1
1
R174
R176
R169
R167
R183
R171
R188
R181
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
GND
ADD ID : 0x7Fh
B
M10-P CONNECT TO NB
WHEN USE INTEGRATE VGA
DEL ALL RESISTOR
R64
1K
0402
5%
R349 1
R350 1
R353 1
R357 1
R1176 1
R1177 1
R1178 1
R1179 1
IYAM0
IYAP0
IYAM1
IYAP1
IYAM2
IYAP2
IYAM3
IYAP3
GND
855_DVOCCLK
855_DVOCCLK#
855_DVOBCCLKINT
855_DVOBCINTR#
855_MI2CCLK
855_MI2CDATA
855_DVOCFLDSTL
855_DVOCHSYNC
855_DVOCVSYNC
R114
R128
R147
R117
R162
R113
R150
R125
R157
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
2
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
0402
855_DVOCD0
855_DVOCD1
855_DVOCD2
855_DVOCD3
855_DVOCD4
855_DVOCD5
855_DVOCD6
855_DVOCD7
855_DVOCD8
855_DVOCD9
855_DVOCD10
855_DVOCD11
R146
R111
R112
R126
R127
R148
R129
R149
R130
R115
R131
R116
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
2
2
2
2
2
2
2
2
2
2
2
2
0402DVOCD0
0402DVOCD1
0402DVOCD2
0402DVOCD3
0402DVOCD4
0402DVOCD5
0402DVOCD6
0402DVOCD7
0402DVOCD8
0402DVOCD9
0402DVOCD10
0402DVOCD11
GND
3
5,7
5,7
5,7
5,7
5,7
5,7
5,7
5,7
5,7
WHEN USE INTEGRATE VGA
DEL R206
0
0
0
0
0
0
0
0
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
R153
R154
R158
R159
R794
R795
R796
R797
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
2 0402
2 0402
TXCLKTXCLK+
TXOUT0-_ATI
TXOUT0+_ATI
TXOUT1-_ATI
TXOUT1+_ATI
TXOUT2-_ATI
TXOUT2+_ATI
TXOUT3-_ATI
TXOUT3+_ATI
7
7
7
7
7
7
7
7
12
12
12
12
12
12
12
12
ICLKAM
ICLKAP
2 0402
2 0402
TXCLK-_ATI
TXCLK+_ATI
7
7
12
12
A
DVOCD[0..11]
11
Title
8050 MOTHER B/D
Size
C
2
0/NA
0/NA
0/NA
0/NA
0/NA
0/NA
0/NA
0/NA
R160 1 0/NA
R161 1 0/NA
11
11
11
11
11
11
11
11
11
DVOCD[0..11]
1
1
1
1
1
1
1
1
TXOUT0TXOUT0+
TXOUT1TXOUT1+
TXOUT2TXOUT2+
TXOUT3TXOUT3+
R361 1 0
R363 1 0
DVOCCLK
DVOCCLK#
POUT/DET#
DVOBCINTR#
MI2CCLK
MI2CDATA
DVOCFLDSTL
DVOCHSYNC
DVOCVSYNC
Date:
5
AGP_SBSTBS
AGP_SBSTBF
AGP_WBF#
AGP_RBF#
AGP_ST0
AGP_ST1
AGP_ST2
AGP_GNT#
AGP_REQ#
+1.5V
0402 1 R1103
WHEN USE INTEGRATE VGA
ADD ALL RESISTOR
R903
68.1
0603
1%
7
7
7
7
7
7
7
7
7
+1.5V
855_MI2CDATA
NB CONNECT TO TV ENCORDER
1
+VCCP (1.05V)
2 10K
2 10K
2 10K
2 10K
GND
2
Maximum length less than 0.5" from pin to
voltage divider.
GSBSTB#
GSBSTB
GWBF#
GRBF#
GST0
GST1
GST2
GGNT#
GREQ#
R144
75
0402
1%
+1.35V
AGP_CBE#3
AGP_SBA0
AGP_SBA1
AGP_SBA2
AGP_SBA3
AGP_SBA4
AGP_SBA5
AGP_SBA6
AGP_SBA7
D
R206
855_MDDCCLK
855_MDDCCDATA
855_MDVICLK
855_MDVIDATA
855_MI2CCLK
855_MI2CDATA
Non SSC
0402GND
R345 1 0
2 855_HSYNC
R348 1 0
2 855_VSYNC
0402
5,7
5,7
5,7
5,7
5,7
5,7
5,7
5,7
5,7
855_DVODETECT
P7
T7
N7
M6
K7
N6
855GM/GME
GND
BGA707_25
855_DDDA
855_DDCK
855_RED
R1167 1 0
2 0402
R343 1 0
2 0402 855_GREEN
R344 1 0
2 0402 855_BLUE
2
C843
0.01U/NA
0402
+80-20%
50V
1
1
C844
0.1U
0402
+80-20%
50V
HSYNC
VSYNC
7
7
7
7
7
7
7
7
7
7
7
7
5,7
855_DVOCD5
855_ADDID0
855_ADDID1
855_ADDID2
855_ADDID3
855_ADDID4
855_ADDID5
855_ADDID6
855_ADDID7
855_MDDCCLK
855_MDDCCDATA
855_MDVICLK
855_MDVIDATA
GND
GND
AGP_PAR
AGP_STOP#
AGP_DEVSEL#
AGP_TRDY#
AGP_IRDY#
AGP_FRAME#
AGP_ADSTB0
AGP_ADSTB1
AGP_ADSTB0#
AGP_ADSTB1#
AGP_CBE#0
AGP_CBE#1
AGP_CBE#2
GCBE2#
R1104
100K/NA
0402
5%
2 10K/NA +3V
2 10K/NA
A10 R798 1 1.5K
0402
5%
AJ29
AH29
B29
A29
AJ28
A28
AA9
AJ4
AJ2
A2
AH1
B1
5,7
WHEN USE INTEGRATE VGA
ADD R798 DEL R857 R1104
GND
AGP_AD[0..31] 7,24
855_DVODETECT
855_MDDCCLK
855_MI2CDATA
855_MDVICLK
855_MI2CCLK
855_MDVIDATA
855_DVOBCLK
855_DVOCCLK
855_DVOBCLK#
855_DVOCCLK#
855_DVOBD7
855_DVOBBLANK#
1
GND
2 0
2 0402
2 0402
HUB_MCH_VREF
1
R918
100
0402
1%
HYRCOMP
855_CRT_DDDA R331 1 0
855_CRT_DDCK R1166 1 0
855_CRT_RED
855_CRT_GREEN
855_CRT_BLUE
2
C810
0.1U
0402
+80-20%
50V
HXRCOMP
CHANGE TO 0402
12 855_CRT_DDDA
12 855_CRT_DDCK
12 855_CRT_RED
12 855_CRT_GREEN
12 855_CRT_BLUE
2
1
2
1
2
R839 27.4
2
1
2
R792 27.4
DVOVREF
1
Place near to GMCH.
R789 1 0402
11 66M_DEFSSCLK
SSC
CHANGE TO 0402
R914
287
0603
1%
1/10W
1
Less than 0.5"
2
CHANGE TO 0402
W/
2
+1.35V
1
37.4
0603
1%
HXRCOMP & HYRCOMP should be
route with 18 mil width
HUB_RCOMP
2
H10
J9
2
+1.35V
R898
855_DVOBCCLKINT
855_DVOBCINTR#
855_DVOBFLDSTL
855_DVOBBLANK#
+1.5V
855_RED
GND
Maximum length less than
0.5" from pin to voltage
divider.
B
1
M3
G2
M2
L2
1
J25
E25
B25
G19
TP38
TP26
TP21
TP32
TP31
TP22
TP20
TP36
G14
E15
C15
C13
F14
E14
C14
B13
H12
E12
C12
G11
G12
E11
C11
G10
855_DVOBD0
855_DVOBD1
855_DVOBD2
855_DVOBD3
855_DVOBD4
855_DVOBD5
855_DVOBD6
855_DVOBD7
855_DVOBD8
855_DVOBD9
855_DVOBD10
855_DVOBD11
2
HDINV#0
HDINV#1
HDINV#2
HDINV#3
HDINV#[0..3]
2 HDINV#[0..3]
HDSTBN[0]#
HDSTBN[1]#
HDSTBN[2]#
HDSTBN[3]#
GND
IYAM0
IYAM1
IYAM2
IYAM3
IYAP0
IYAP1
IYAP2
IYAP3
IYBM0
IYBM1
IYBM2
IYBM3
IYBP0
IYBP1
IYBP2
IYBP3
DVOBCCLKINT
DVOBCINTR#
DVOBFLDSTL
DVOBBLANK#
R3
R5
R6
R4
P6
P5
N5
P2
N2
N3
M1
M5
AGP_AD0
AGP_AD1
AGP_AD2
AGP_AD3
AGP_AD4
AGP_AD5
AGP_AD6
AGP_AD7
AGP_AD8
AGP_AD9
AGP_AD10
AGP_AD11
AGP_AD12
AGP_AD13
AGP_AD14
AGP_AD15
AGP_AD16
AGP_AD17
AGP_AD18
AGP_AD19
AGP_AD20
AGP_AD21
AGP_AD22
AGP_AD23
AGP_AD24
AGP_AD25
AGP_AD26
AGP_AD27
AGP_AD28
AGP_AD29
AGP_AD30
AGP_AD31
1
J28
C27
E22
D18
G
SUSCLK
2,13 HDPSLP#
2 855_DPMS
2 HDPWR#
0402
11 48M_DREFCLK
Q15
2N7002
D
S
AGPBUSY#
BCLK
BCLK#
DPMS
DPSLP#
DPWR#
DREFCLK
855_DVOBCLK
855_DVOBCLK#
2
HDSTBN#0
HDSTBN#1
HDSTBN#2
HDSTBN#3
HDSTBN#[0..3]
2 HDSTBN#[0..3]
HDSTBP[0]#
HDSTBP[1]#
HDSTBP[2]#
HDSTBP[3]#
DVOBD[0]
DVOBD[1]
DVOBD[2]
DVOBD[3]
DVOBD[4]
DVOBD[5]
DVOBD[6]
DVOBD[7]
DVOBD[8]
DVOBD[9]
DVOBD[10]
DVOBD[11]
P3
P4
1
K27
D26
E21
E18
DVOBCLK
DVOBCLK#
2
HDSTBP#0
HDSTBP#1
HDSTBP#2
HDSTBP#3
13
F7
AE29
AD29
855_DPMS D5
Y23
AA22
B7
7,13,24 AGPBUSY#
11 HCLK_MCH
11 HCLK_MCH#
1
HDSTBP#[0..3]
2 HDSTBP#[0..3]
R155
1K
0402
5%
1 0
R156
2
C
HXRCOMP
HXSWING
HYRCOMP
HYSWING
+1.5V
ADDID[0]
ADDID[1]
ADDID[2]
ADDID[3]
ADDID[4]
ADDID[5]
ADDID[6]
ADDID[7]
1
B20
B18
H28
K28
CHECK
E5
F5
E3
E2
G5
F4
G6
F6
2
HXRCOMP
HXSWING
HYRCOMP
HYSWING
855_ADDID0
855_ADDID1
855_ADDID2
855_ADDID3
855_ADDID4
855_ADDID5
855_ADDID6
855_ADDID7
2
1
2 HADSTB#0
2 HADSTB#1
HREQ[0]#
HREQ[1]#
HREQ[2]#
HREQ[3]#
HREQ[4]#
HADSTB[0]#
HADSTB[1]#
HD#[0..63]
2
R28
P25
R23
R25
T23
T26
AA26
HD#0
HD#1
HD#2
HD#3
HD#4
HD#5
HD#6
HD#7
HD#8
HD#9
HD#10
HD#11
HD#12
HD#13
HD#14
HD#15
HD#16
HD#17
HD#18
HD#19
HD#20
HD#21
HD#22
HD#23
HD#24
HD#25
HD#26
HD#27
HD#28
HD#29
HD#30
HD#31
HD#32
HD#33
HD#34
HD#35
HD#36
HD#37
HD#38
HD#39
HD#40
HD#41
HD#42
HD#43
HD#44
HD#45
HD#46
HD#47
HD#48
HD#49
HD#50
HD#51
HD#52
HD#53
HD#54
HD#55
HD#56
HD#57
HD#58
HD#59
HD#60
HD#61
HD#62
HD#63
1
HREQ#0
HREQ#1
HREQ#2
HREQ#3
HREQ#4
HREQ#[0..4]
HD[0]#
HD[1]#
HD[2]#
HD[3]#
HD[4]#
HD[5]#
HD[6]#
HD[7]#
HD[8]#
HD[9]#
HD[10]#
HD[11]#
HD[12]#
HD[13]#
HD[14]#
HD[15]#
HD[16]#
HD[17]#
HD[18]#
HD[19]#
HD[20]#
HD[21]#
HD[22]#
HD[23]#
HD24]#
HD[25]#
HD[26]#
HD[27]#
HD[28]#
HD[29]#
HD[30]#
HD[31]#
HD[32]#
HD[33]#
HD[34]#
HD[35]#
HD[36]#
HD[37]#
HD[38]#
HD[39]#
HD[40]#
HD[41]#
HD[42]#
HD[43]#
HD[44]#
HD[45]#
HD[46]#
HD[47]#
HD[48]#
HD[49]#
HD[50]#
HD[51]#
HD[52]#
HD[53]#
HD[54]#
HD[55]#
HD[56]#
HD[57]#
HD[58]#
HD[59]#
HD[60]#
HD[61]#
HD[62]#
HD[63]#
HA[3]#
HA[4]#
HA[5]#
HA[6]#
HA[7]#
HA[8]#
HA[9]#
HA[10]#
HA[11]#
HA[12]#
HA[13]#
HA[14]#
HA[15]#
HA[16]#
HA[17]#
HA[18]#
HA[19]#
HA[20]#
HA[21]#
HA[22]#
HA[23]#
HA[24]#
HA[25]#
HA[26]#
HA[27]#
HA[28]#
HA[29]#
HA[30]#
HA[31]#
K22
H27
K25
L24
J27
G28
L27
L23
L25
J24
H25
K23
G27
K26
J23
H26
F25
F26
B27
H23
E27
G25
F28
D27
G24
C28
B26
G22
C26
E26
G23
B28
B21
G21
C24
C23
D22
C25
E24
D24
G20
E23
B22
B23
F23
F21
C20
C21
G18
E19
E20
G17
D20
F19
C19
C17
F17
B19
G16
E16
C16
E17
D16
C18
2
P23
T25
T28
R27
U23
U24
R24
U28
V28
U27
T27
V27
U25
V26
Y24
V25
V23
W25
Y25
AA27
W24
W23
W27
Y27
AA28
W28
AB27
Y26
AB28
1
D
2 HREQ#[0..4]
HD#[0..63]
U714B
HA#3
HA#4
HA#5
HA#6
HA#7
HA#8
HA#9
HA#10
HA#11
HA#12
HA#13
HA#14
HA#15
HA#16
HA#17
HA#18
HA#19
HA#20
HA#21
HA#22
HA#23
HA#24
HA#25
HA#26
HA#27
HA#28
HA#29
HA#30
HA#31
2
HA#[3..31]
2 HA#[3..31]
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
Sheet
1
4
of
34
5
4
3
NB_MA3
6 NB_MA3
2
1
NB_MONTARA-GME(2/2)
NB_MA0
6 NB_MA0
+1.35V
+2.5VS_DDR
U714E
SDM[0]
SDM[1]
SDM[2]
SDM[3]
SDM[4]
SDM[5]
SDM[6]
SDM[7]
SDM[8]
B8
NB_DM[0..8]
+1.5V
1
VCCADAC
2
L717
120Z/100M
C779
0.1U
0402
+80-20%
50V
1
2
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
+1.35V
VCCASM
2
L727
120Z/100M
C786
0.01U
0402
+80-20%VSSADAC
50V
C852
10U
16V
1206
C850
10U
16V
1206
C851
10U
0805
6.3V
10%
C848
0.01U
0402
+80-20%
50V
GND
1
+1.35V
1
VCCAHPLL
2
2
C808
0.1U
0402
+80-20%
50V
+3V
1
VCCAGPLL
2
L45
120Z/100M
1
L720
120Z/100M
C783
10U
0805
6.3V
10%
GND
C776
0.01U
0402
+80-20%
50V
VTTHF_0
0.1U
50V
0.1U
50V
0.1U
50V
0.1U
50V
0.1U
50V
VTTHF_1
GND
1
GND
B
GND
GND
1
2
2
2
1
2
1
2
1
2
1
2
0402
+80-20%
0402
+80-20%
0402
+80-20%
0402
+80-20%
0402
+80-20%
C832
C818
C814
C780
C781
C785
0.01U
0402
+80-20%
50V
GND
A
GND
1
VCCQSM
2
L729
120Z/100M
2
L730
120Z/100M/NA
1
1
+2.5V_M10
C176
0.01U
0402
+80-20%
50V
C860
4.7U
0603
6.3V
+80-20%
2
C227
10U
0805
6.3V
10%
1
VCCTXLVDS
C174
10U
16V
1206
2
+2.5VS_DDR
1
2
L42
120Z/100M
GND
C859
0.01U
0402
+80-20%
50V
Title
8050 MOTHER B/D
Size
C
Date:
4
1
GND
1
C846
0.1U/NA
0402
+80-20%
50V
C772
10U
16V
1206
GND
5
C
+2.5VS_DDR
1
1
R924
60.4
0402
1%
2
C858
0.1U
0402
+80-20%
50V
1
1
2
1
1
1
2
1
2
2
R946
604
0603
1%
L713
120Z/100M
VTTHF_4
VCCADPLLB
2
GND
2
: 400/200/133(100/133)
CHANGE TO 0402
+1.35V
C171
0.01U
0402
+80-20%
50V
2
: 400/200/200(100/200)
10
C857
0.1U
0402
+80-20%
50V
C847
0.1U
0402
+80-20%
50V
MCH_SMRCOMP
2
01
2
R941
150
0402
1%
CHANGE TO 0402
00(def): 400/266/200(133/200)
1
2
1
PSB/Sys Mem Core/GFX Core(CL/CH)
R923
60.4
0402
1%
MCH_SMVSWINGH
2
R942
150
0402
1%
MCH_SMVSWINGL
2
R945
604
0603
1%
Clock config bit GST[1,0]
CHANGE TO 0402
2
1
1
2
+2.5VS_DDR
CHANGE TO 0402
C166
10U
16V
1206
2
L38
120Z/100M
1
1
VCCADPLLA
2
1
2
+2.5VS_DDR
1
1
+1.35V
+2.5VS_DDR
A
D
VCCGPIO
2
L715
120Z/100M
C297
0.1U
0402
+80-20%
50V
VTTHF_3
Place within 0.5" with 15-mil wide.
GST0
GST1
P16
J16
F16
AG15
AB15
U15
R15
N15
H15
D15
AC14
AA14
T14
P14
J14
AE13
AB13
U13
R13
N13
H13
F13
D13
A13
AJ12
AG12
AA12
J12
AJ11
AC11
AB11
H11
F11
D11
AJ10
AE10
AA10
C10
AG9
AB9
W9
U9
T9
R9
N9
L9
E9
AC8
Y8
V8
T8
P8
K8
H8
AJ7
AE7
AA7
R7
M7
J7
G7
E7
C7
AG6
Y6
L6
Y5
U5
B5
AE4
AC4
AA4
W4
T4
N4
K4
G4
D4
AJ3
AG3
R2
AJ1
AE1
AA1
U1
L1
G1
C1
J10
U26
855GM/GME
BGA707_25
VTTHF_2
R806
1K/NA
0402
5%
VSS_91
VSS_92
VSS_93
VSS_94
VSS_95
VSS_96
VSS_97
VSS_98
VSS_99
VSS_100
VSS_101
VSS_102
VSS_103
VSS_104
VSS_105
VSS_106
VSS_107
VSS_108
VSS_109
VSS_110
VSS_111
VSS_112
VSS_113
VSS_114
VSS_115
VSS_116
VSS_117
VSS_118
VSS_119
VSS_120
VSS_121
VSS_122
VSS_123
VSS_124
VSS_126
VSS_125
VSS_127
VSS_128
VSS_129
VSS_130
VSS_131
VSS_132
VSS_133
VSS_134
VSS_135
VSS_136
VSS_137
VSS_138
VSS_139
VSS_140
VSS_141
VSS_142
VSS_143
VSS_144
VSS_145
VSS_146
VSS_147
VSS_148
VSS_149
VSS_150
VSS_151
VSS_152
VSS_153
VSS_154
VSS_155
VSS_156
VSS_157
VSS_158
VSS_159
VSS_160
VSS_161
VSS_162
VSS_163
VSS_164
VSS_165
VSS_166
VSS_167
VSS_168
VSS_169
VSS_170
VSS_171
VSS_172
VSS_173
VSS_174
VSS_175
VSS_176
VSS_177
VSS_178
VSS_179
VSS_180
GND
+1.5V
R822
1K
0402
5%
C238
10U
16V
1206
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSS_10
VSS_11
VSS_12
VSS_13
VSS_14
VSS_15
VSS_16
VSS_17
VSS_18
VSS_19
VSS_20
VSS_21
VSS_22
VSS_23
VSS_24
VSS_25
VSS_26
VSS_27
VSS_28
VSS_29
VSS_30
VSS_31
VSS_32
VSS_33
VSS_34
VSS_35
VSS_36
VSS_37
VSS_38
VSS_39
VSS_40
VSS_41
VSS_42
VSS_43
VSS_44
VSS_45
VSS_46
VSS_47
VSS_48
VSS_49
VSS_50
VSS_51
VSS_52
VSS_53
VSS_54
VSS_55
VSS_56
VSS_57
VSS_58
VSS_59
VSS_60
VSS_61
VSS_62
VSS_63
VSS_64
VSS_65
VSS_66
VSS_67
VSS_68
VSS_69
VSS_70
VSS_71
VSS_72
VSS_73
VSS_74
VSS_75
VSS_76
VSS_77
VSS_78
VSS_79
VSS_80
VSS_81
VSS_82
VSS_83
VSS_84
VSS_85
VSS_86
VSS_87
VSS_88
VSS_89
VSS_90
GND
GND
1
C271
C252
10U
0.1U
0402
16V
+80-20% 1206
50V
6
+1.35V
2
C202
0.1U
0402
+80-20%
50V
VSSADAC
GND
NB_DM[0..8]
855GM/GME
BGA707_25
+1.5V
+VCCP
855GM/GME
BGA707_25
VSSADAC
GND
VSSALVDS
1
VCCALVDS
1
B11
VTTHF_0
VTTHF_1
VTTHF_2
VTTHF_3
VTTHF_4
2
C343
0.01U
0402
+80-20%
50V
V29
M29
H29
A24
A22
1
2
C777
0.1U
0402
+80-20%
50V
VCCTXLVDS
2
VCCAGPLL
VCCAHPLL
2
1
2
1
A11
C314
10U
0805
6.3V
10%
GND
2
2
2
1
2
1
2
1
2
1
1
Y2
D29
VCCQSM_0
VCCQSM_1
VCCADPLLA
VCCADPLLB
C300
0.1U
0402
+80-20%
50V
1
1
1
1
2
1
2
NB_DM0
NB_DM1
NB_DM2
NB_DM3
NB_DM4
NB_DM5
NB_DM6
NB_DM7
NB_DM8
1
AE5
AE6
AE9
AH12
AD19
AD21
AD24
AH28
AH15
6
VCCAGPLL
VCCAHPLL
VCCALVDS
2
L714
120Z/100M
A6
B16
C291
0.1U
0402
+80-20%
50V
1
RSVD_10
RSVD_11
B
NB_DQS[0..8]
1
VCCADPLLA
VCCADPLLB
VCCGPIO_0
VCCGPIO_1
C281
10U
0805
6.3V
10%
GND
2
RSVD_8
RSVD_9
NB_DQS0
NB_DQS1
NB_DQS2
NB_DQS3
NB_DQS4
NB_DQS5
NB_DQS6
NB_DQS7
NB_DQS8
AJ8
AJ6
C324
10U
0805
6.3V
10%
AA29
W29
U29
N29
L29
J29
G29
E29
C29
AE28
AC28
E28
D28
AJ27
AG27
AC27
F27
A27
AJ26
AB26
W26
R26
N26
L26
J26
G26
AE25
AA25
D25
A25
AG24
AA24
V24
T24
P24
M24
K24
H24
F24
B24
AJ23
AC23
AA23
D23
A23
AE22
W22
U22
R22
N22
L22
J22
F22
C22
AG21
AB21
AA21
Y21
V21
T21
P21
M21
H21
D21
A21
AJ20
AC20
AA20
J20
F20
AE19
AB19
H19
D19
A19
AJ18
AG18
AA18
J18
F18
AC17
AB17
U17
R17
N17
H17
D17
A17
AE16
AA16
T16
1
B2
B3
7 GGNT#
7 GREQ#
RSVD_6
RSVD_7
AG2
AH5
AH8
AE12
AH17
AE21
AH24
AH27
AD15
VCCQSM
C299
0.1U
0402
+80-20%
50V
AB29
Y29
K29
F29
A26
V22
T22
P22
M22
H22
U21
R21
N21
L21
H20
A20
J19
H18
A18
H16
G15
VTTLF_0
VTTLF_1
VTTLF_2
VTTLF_3
VTTLF_4
VTTLF_5
VTTLF_6
VTTLF_7
VTTLF_8
VTTLF_9
VTTLF_10
VTTLF_11
VTTLF_12
VTTLF_13
VTTLF_14
VTTLF_15
VTTLF_16
VTTLF_17
VTTLF_18
VTTLF_19
VTTLF_20
VCCASM_0
VCCASM_1
C303
0.1U
0402
+80-20%
50V
2
D3
D2
7 GRBF#
7 GWBF#
SDQS[0]
SDQS[1]
SDQS[2]
SDQS[3]
SDQS[4]
SDQS[5]
SDQS[6]
SDQS[7]
SDQS[8]
A4
A3
6
+1.5V
NB_DQS[0..8]
AF1
AD1
VCCGPIO
VCCADAC_0
VCCADAC_1
C325
10U
0805
6.3V
10%
GND
1
7 GSBSTB
7 GSBSTB#
GST[0]
GST[1]
GST[2]
NB_CB[0..7]
VCCASM
VTTHF_0
VTTHF_1
VTTHF_2
VTTHF_3
VTTHF_4
C301
0.1U
0402
+80-20%
50V
2
F2
F3
NB_CB[0..7]
B9
A9
VCCADAC
VCCDLVDS_0
VCCDLVDS_1
VCCDLVDS_2
VCCDLVDS_3
C309
0.1U
0402
+80-20%
50V
1
C4
C3
C2
7 GST0
7 GST1
7 GST2
RSVD_5
GND
B15
B14
J13
G13
C302
0.1U
0402
+80-20%
50V
GND
2
L4
7 GCBE2#
RSVD_0
RSVD_1
RSVD_2
RSVD_3
RSVD_4
C197
0.1U
0402
+80-20%
50V
C290
0.1U
0402
+80-20%
50V
A12
D10
B10
F9
1
F12
D12
B12
AA5
D7
C184
0.1U
0402
+80-20%
50V
1
1
1
1
1
1
C263
10U
0805
6.3V
10%
VCCTXLVDS_0
VCCTXLVDS_1
VCCTXLVDS_2
VCCTXLVDS_3
2
TP40
TP35
TP703
TP41
TP25
SMRCOMP
+1.5V
1
2
GND
AB1
GND
VCCDVO_0
VCCDVO_1
VCCDVO_2
VCCDVO_3
VCCDVO_4
VCCDVO_5
VCCDVO_6
VCCDVO_7
VCCDVO_8
VCCDVO_9
VCCDVO_10
VCCDVO_11
VCCDVO_12
VCCDVO_13
VCCDVO_14
VCCDVO_15
2
SMVREF_0
1
AJ24
C328
MCH_SMRCOMP
0.1U
0402
+80-20%
50V
C205
0.1U
0402
+80-20%
50V
VCCHL_0
VCCHL_1
VCCHL_2
VCCHL_3
VCCHL_4
VCCHL_5
VCCHL_6
VCCHL_7
2
+1.25V_DDR
SMVSWINGH
SMVSWINGL
C232
0.1U
0402
+80-20%
50V
AG29
AF29
AC29
AF27
AJ25
AF24
AB22
AJ21
AF21
AB20
AF18
AB18
AJ17
AB16
AF15
AB14
AJ13
AA13
AF12
AB12
AA11
AB10
AJ9
AF9
Y9
AB8
AA8
Y7
AF6
AB6
AA6
AJ5
Y4
AF3
AB3
AG1
AC1
VCCSM_0
VCCSM_1
VCCSM_2
VCCSM_3
VCCSM_4
VCCSM_5
VCCSM_6
VCCSM_7
VCCSM_8
VCCSM_9
VCCSM_10
VCCSM_11
VCCSM_12
VCCSM_13
VCCSM_14
VCCSM_15
VCCSM_16
VCCSM_17
VCCSM_18
VCCSM_19
VCCSM_20
VCCSM_21
VCCSM_22
VCCSM_23
VCCSM_24
VCCSM_25
VCCSM_26
VCCSM_27
VCCSM_28
VCCSM_29
VCCSM_30
VCCSM_31
VCCSM_32
VCCSM_33
VCCSM_34
VCCSM_35
VCCSM_36
1
AJ19
AJ22
P9
M9
K9
R8
N8
M8
L8
J8
H7
E6
M4
J4
E4
N1
J1
E1
2
MCH_SMVSWINGH
MCH_SMVSWINGL
SCK[0]
SCK[0]#
SCK[1]
SCK[1]#
SCK[2]
SCK[2]#
SCK[3]
SCK[3]#
SCK[4]
SCK[4]#
SCK[5]
SCK[5]#
C234
10U
0805
6.3V
10%
2
AB2
AA2
AC26
AB25
AC3
AD4
AC2
AD2
AB23
AB24
AA3
AB4
GND
1
NB_CLK_DDR0
NB_CLK_DDR0#
NB_CLK_DDR1
NB_CLK_DDR1#
NB_CLK_DDR2
NB_CLK_DDR2#
NB_CLK_DDR3
NB_CLK_DDR3#
NB_CLK_DDR4
NB_CLK_DDR4#
NB_CLK_DDR5
NB_CLK_DDR5#
C276
0.1U
0402
+80-20%
50V
+1.5V
2
6
6
6
6
6
6
6
6
6
6
6
6
SCKE[0]
SCKE[1]
SCKE[2]
SCKE[3]
C247
0.1U
0402
+80-20%
50V
1
CKE0
CKE1
CKE2
CKE3
SCS[0]#
SCS[1]#
SCS[2]#
SCS[3]#
C272
10U
0805
6.3V
10%
2
C
AC7
AB7
AC9
AC10
6
6
6
6
SBA[0]
SBA[1]
V9
W8
U8
V7
U6
W5
Y1
V1
+1.35V
2
AD23
AD26
AC22
AC25
6 CS#0
6 CS#1
6 CS#2
6 CS#3
C273
0.1U
0402
+80-20%
50V
VCC_0
VCC_1
VCC_2
VCC_3
VCC_4
VCC_5
VCC_6
VCC_7
VCC_8
VCC_9
VCC_10
VCC_11
VCC_12
VCC_13
VCC_14
VCC_15
VCC_16
VCC_17
1
6 NB_BA0
6 NB_BA1
C293
0.1U
0402
+80-20%
50V
GND
2
AD22
AD20
SWE#
SCAS#
SRAS#
C255
0.1U
0402
+80-20%
50V
2
AD25
AC24
AC21
6 NB_WE#
6 NB_CAS#
6 NB_RAS#
SMAB[1]
SMAB[2]
SMAB[4]
SMAB[5]
C218
0.1U
0402
+80-20%
50V
1
AD16
AC12
AF11
AD10
C282
0.1U
0402
+80-20%
50V
C288
0.1U
0402
+80-20%
50V
2
SMAB1
SMAB2
SMAB4
SMAB5
C243
10U
0805
6.3V
10%
1
SMAB[4..5]
6 SMAB[4..5]
NB_MD0
NB_MD1
NB_MD2
NB_MD3
NB_MD4
NB_MD5
NB_MD6
NB_MD7
NB_MD8
NB_MD9
NB_MD10
NB_MD11
NB_MD12
NB_MD13
NB_MD14
NB_MD15
NB_MD16
NB_MD17
NB_MD18
NB_MD19
NB_MD20
NB_MD21
NB_MD22
NB_MD23
NB_MD24
NB_MD25
NB_MD26
NB_MD27
NB_MD28
NB_MD29
NB_MD30
NB_MD31
NB_MD32
NB_MD33
NB_MD34
NB_MD35
NB_MD36
NB_MD37
NB_MD38
NB_MD39
NB_MD40
NB_MD41
NB_MD42
NB_MD43
NB_MD44
NB_MD45
NB_MD46
NB_MD47
NB_MD48
NB_MD49
NB_MD50
NB_MD51
NB_MD52
NB_MD53
NB_MD54
NB_MD55
NB_MD56
NB_MD57
NB_MD58
NB_MD59
NB_MD60
NB_MD61
NB_MD62
NB_MD63
NB_CB0
NB_CB1
NB_CB2
NB_CB3
NB_CB4
NB_CB5
NB_CB6
NB_CB7
2
6 NB_MA12
6 SMAB[1..2]
AF2
AE3
AF4
AH2
AD3
AE2
AG4
AH3
AD6
AG5
AG7
AE8
AF5
AH4
AF7
AH6
AF8
AG8
AH9
AG10
AH7
AD9
AF10
AE11
AH10
AH11
AG13
AF14
AG11
AD12
AF13
AH13
AH16
AG17
AF19
AE20
AD18
AE18
AH18
AG19
AH20
AG20
AF22
AH22
AF20
AH19
AH21
AG22
AE23
AH23
AE24
AH25
AG23
AF23
AF25
AG25
AH26
AE26
AG28
AF28
AG26
AF26
AE27
AD27
AG14
AE14
AE17
AG16
AH14
AE15
AF16
AF17
1
D
NB_MA6
NB_MA7
NB_MA8
NB_MA9
NB_MA10
NB_MA11
SMAB[1..2]
SDQ[0]
SDQ[1]
SDQ[2]
SDQ[3]
SDQ[4]
SDQ[5]
SDQ[6]
SDQ[7]
SDQ[8]
SDQ[9]
SDQ[10]
SDQ[11]
SDQ[12]
SDQ[13]
SDQ[14]
SDQ[15]
SDQ[16]
SDQ[17]
SDQ[18]
SDQ[19]
SDQ[20]
SDQ[21]
SDQ[22]
SDQ[23]
SDQ[24]
SDQ[25]
SDQ[26]
SDQ[27]
SDQ[28]
SDQ[29]
SDQ[30]
SDQ[31]
SDQ[32]
SDQ[33]
SDQ[34]
SDQ[35]
SDQ[36]
SDQ[37]
SDQ[38]
SDQ[39]
SDQ[40]
SDQ[41]
SDQ[42]
SDQ[43]
SDQ[44]
SDQ[45]
SDQ[46]
SDQ[47]
SDQ[48]
SDQ[49]
SDQ[50]
SDQ[51]
SDQ[52]
SDQ[53]
SDQ[54]
SDQ[55]
SDQ[56]
SDQ[57]
SDQ[58]
SDQ[59]
SDQ[60]
SDQ[61]
SDQ[62]
SDQ[63]
SDQ[64]
SDQ[65]
SDQ[66]
SDQ[67]
SDQ[68]
SDQ[69]
SDQ[70]
SDQ[71]
SMA[0]
SMA[1]
SMA[2]
SMA[3]
SMA[4]
SMA[5]
SMA[6]
SMA[7]
SMA[8]
SMA[9]
SMA[10]
SMA[11]
SMA[12]
2
6
6
6
6
6
6
AC18
AD14
AD13
AD17
AD11
AC13
AD8
AD7
AC6
AC5
AC19
AD5
AB5
1
SMA[4..5]
6 SMA[4..5]
NB_MA0
SMA1
SMA2
NB_MA3
SMA4
SMA5
NB_MA6
NB_MA7
NB_MA8
NB_MA9
NB_MA10
NB_MA11
NB_MA12
W21
AA19
AA17
T17
P17
U16
R16
N16
AA15
T15
P15
J15
U14
R14
N14
H14
T13
P13
6
2
SMA[1..2]
6 SMA[1..2]
NB_MD[0..63]
1
U714D
NB_MD[0..63]
U714C
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
5
of
34
MD32
MD33
C432
0.01U
0402
+80-20%
50V
DQS4
MD34
MD35
MD40
GND
MD41
DQS5
DQS6
MD50
C336
1U
0402
+80-20%
10V
MD51
MD56
MD57
DQS7
GND
MD58
MD59
SMBDATA
SMBCLK
11,14 SMBDATA
11,14 SMBCLK
+3V
2
2
2
2
2
2
2
2
2
2
2
2
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
CLK_DDR0
CLK_DDR0#
CLK_DDR1
CLK_DDR1#
CLK_DDR2
CLK_DDR2#
CLK_DDR3
CLK_DDR3#
CLK_DDR4
CLK_DDR4#
CLK_DDR5
CLK_DDR5#
MCB0
MCB1
DM8
MCB6
DQS8
MCB2
MCB7
MCB3
CKE1_S1
CLK_DDR5
CLK_DDR5#
MA11
MA8
CKE3
CS#0_S1
NB_MA12
NB_MA9
MA6
SMA4
SMA2
MA0
NB_MA7
SMAB5
NB_MA3
SMAB1
BA1
RAS#
CAS#
CS#1
NB_MA10
NB_BA0
NB_WE#
CS#2
MD36
MD37
MD32
MD33
DM4
MD38
DQS4
MD34
MD39
MD44
MD35
MD40
MD45
DM5
MD41
DQS5
MD46
MD47
MD42
MD43
CKE0
CLK_DDR1#
CLK_DDR1
MD52
MD53
MD48
MD49
DM6
MD54
DQS6
MD50
MD55
MD60
MD51
MD56
MD61
DM7
MD57
DQS7
MD62
MD63
MD58
MD59
SMBDATA
SMBCLK
+3V
0.6MM/200P/H9.2
QUASAR
CA0145-200N01
GND
+2.5VS_DDR
1
1
C402
0.01U
0402
+80-20%
50V
C410
0.01U
0402
+80-20%
50V
C421
0.01U
0402
+80-20%
50V
2
C420
0.01U
0402
+80-20%
50V
C419
0.01U
0402
+80-20%
50V
C415
0.01U
0402
+80-20%
50V
2
R340
75
0402
1%
R334
75
0402
1%
4
C346
0.1U
0402
+80-20%
50V
MD30
MD31
MCB4
MCB5
DM8
MCB6
MCB7
CKE0_S1
C
CKE2
NB_MA11
NB_MA8
NB_MA6
SMAB4
SMAB2
NB_MA0
NB_BA1
NB_RAS#
NB_CAS#
CS#3
CS#1_S1
MD36
MD37
DM4
MD38
MD39
MD44
MD45
DM5
MD46
MD47
CLK_DDR4#
CLK_DDR4
B
MD52
MD53
DM6
MD54
MD55
MD60
MD61
DM7
MD62
MD63
+3V
C422
0.1U
0402
+80-20%
50V
C423
0.1U
0402
+80-20%
50V
C424
0.1U
0402
+80-20%
50V
GND
C386
0.01U
0402
+80-20%
50V
C366
0.1U
0402
+80-20%
50V
C338
0.1U
0402
+80-20%
50V
C384
0.1U
0402
+80-20%
50V
8050 MOTHER B/D
Size
C
Date:
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
C437
10U
0805
6.3V
10%
Title
GND
3
C436
10U
0805
6.3V
10%
A
+DDR_VREF
GND
GND
5
C337
0.01U
0402
+80-20%
50V
1
1
C418
0.01U
0402
+80-20%
50V
2
1
C417
0.01U
0402
+80-20%
50V
1
1
1
C413
0.01U
0402
+80-20%
50V
2
1
C416
0.01U
0402
+80-20%
50V
2
C411
0.01U
0402
+80-20%
50V
C401
0.01U
0402
+80-20%
50V
2
1
C399
0.01U
0402
+80-20%
50V
1
1
C398
0.01U
0402
+80-20%
50V
2
1
C395
0.01U
0402
+80-20%
50V
2
1
C396
0.01U
0402
+80-20%
50V
2
2
1
2
C393
0.01U
0402
+80-20%
50V
1
C414
0.01U
0402
+80-20%
50V
1
C408
0.01U
0402
+80-20%
50V
MD29
DM3
GND
2
1
C407
0.01U
0402
+80-20%
50V
2
1
C412
0.01U
0402
+80-20%
50V
2
1
C406
0.01U
0402
+80-20%
50V
2
1
C405
0.01U
0402
+80-20%
50V
2
C404
0.01U
0402
+80-20%
50V
C391
0.01U
0402
+80-20%
50V
MD23
MD28
+1.25V_DDR
2
1
C409
0.01U
0402
+80-20%
50V
2
1
2
1
C403
0.01U
0402
+80-20%
50V
2
1
2
1
1
C400
0.01U
0402
+80-20%
50V
2
1
C397
0.01U
0402
+80-20%
50V
2
C394
0.01U
0402
+80-20%
50V
2
1
2
1
C392
0.01U
0402
+80-20%
50V
2
1
C390
0.01U
0402
+80-20%
50V
2
C389
0.01U
0402
+80-20%
50V
1
2
1
2
C388
0.01U
0402
+80-20%
50V
DM2
MD22
0.6MM/200P/H5.2
QUASAR
CA0115-200N01
+1.25V_DDR
C387
0.01U
0402
+80-20%
50V
2
1
CKE0_S1
CKE1_S1
CS#0_S1
CS#1_S1
1
5%
5%
5%
5%
MCB4
MCB5
+1.25V_DDR
2
R976 1 0 0402 2
R1037 1 0 0402 2
R1029 1 0 0402 2
R968 1 0 0402 2
A
MD26
MD27
MD20
MD21
1
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
MD30
MD31
MD14
MD15
2
0
0
0
0
0
0
0
0
0
0
0
0
MD25
DQS3
MD13
DM1
1
NB_CLK_DDR0
NB_CLK_DDR0#
NB_CLK_DDR1
NB_CLK_DDR1#
NB_CLK_DDR2
NB_CLK_DDR2#
NB_CLK_DDR3
NB_CLK_DDR3#
NB_CLK_DDR4
NB_CLK_DDR4#
NB_CLK_DDR5
NB_CLK_DDR5#
1
1
1
1
1
1
1
1
1
1
1
1
MD29
DM3
D
MD7
MD12
2
5
5
5
5
5
5
5
5
5
5
5
5
R338
R337
R319
R320
R336
R335
R354
R352
R359
R360
R351
R347
MD19
MD24
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
126
128
130
132
134
136
138
140
142
144
146
148
150
152
154
156
158
160
162
164
166
168
170
172
174
176
178
180
182
184
186
188
190
192
194
196
198
200
DM0
MD6
1
1
C372
0.1U
0402
+80-20%
50V
2
C352
0.1U
0402
+80-20%
50V
MD48
MD49
MD23
MD28
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
125
127
129
131
133
135
137
139
141
143
145
147
149
151
153
155
157
159
161
163
165
167
169
171
173
175
177
179
181
183
185
187
189
191
193
195
197
199
MD4
MD5
2
1
C353
0.1U
0402
+80-20%
50V
2
1
2
1
C371
1U
0402
+80-20%
10V
2
1
2
1
C351
0.1U
0402
+80-20%
50V
1
2
1
C335
0.1U
0402
+80-20%
50V
2
C370
0.1U
0402
+80-20%
50V
1
RP35
56*8
RPX8
C334
0.1U
0402
+80-20%
50V
2
RP37
56*8
RPX8
C348
1U
0402
+80-20%
10V
1
RP34
56*8
RPX8
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
MD42
MD43
2
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
+2.5VS_DDR
16
15
14
13
12
11
10
9
DQS2
MD18
1
C425
0.01U
0402
+80-20%
50V
MD16
MD17
DM2
MD22
2
1
2
C428
0.01U
0402
+80-20%
50V
MD20
MD21
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
1
1
2
1
2
1
2
1
2
1
2
1
2
1
2
C430
0.01U
0402
+80-20%
50V
1
SMA1
SMA2
SMA4
SMA5
SMAB1
SMAB2
SMAB4
SMAB5
CKE0
CKE1
CKE2
CKE3
CS#0
CS#1
CS#2
CS#3
R979 1 10
R1040 1 10
C433
0.01U
0402
+80-20%
50V
MA10
BA0
WE#
CS#0
C426
0.01U
0402
+80-20%
50V
2
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
C429
0.01U
0402
+80-20%
50V
CLK_DDR3
CLK_DDR3#
2
RP36
56*8
RPX8
C431
0.01U
0402
+80-20%
50V
MD10
MD11
1
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
C434
0.01U
0402
+80-20%
50V
MD14
MD15
2
SMAB4
SMAB2
SMA5
SMA2
NB_MA12
NB_MA11
NB_MA8
NB_MA9
NB_BA0
NB_WE#
NB_CAS#
NB_RAS#
CS#1
CS#2
CS#3
CS#0
MCB3
MCB7
CKE1
CKE0
CKE2
CKE3
SMAB5
SMA4
NB_MA7
NB_MA6
NB_MA3
SMA1
SMAB1
NB_MA10
NB_MA0
NB_BA1
C427
0.01U
0402
+80-20%
50V
MD9
DQS1
1
MA0
MA3
MA6
MA7
MA8
MA9
MA10
MA11
MA12
WE#
CAS#
RAS#
BA0
BA1
SMA1
SMA2
SMA4
SMA5
SMAB1
SMAB2
SMAB4
SMAB5
CKE0
CKE1
CKE2
CKE3
CS#0
CS#1
CS#2
CS#3
DM8
2 0402
DQS8
2 0402
MA7
SMA5
MA3
SMA1
+1.25V_DDR
MD13
DM1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
MA12
MA9
MD3
MD8
1
10
10
10
10
10
10
10
10
10
10
10
10
10
10
CKE1
GND
MD7
MD12
2
NB_MA0
R972 1
NB_MA3
R1033 1
NB_MA6
R973 1
NB_MA7
R1034 1
NB_MA8
R974 1
NB_MA9
R1035 1
NB_MA10 R1032 1
NB_MA11 R975 1
NB_MA12 R1036 1
NB_WE# R1030 1
NB_CAS#R969 1
NB_RAS#R970 1
NB_BA0 R1031 1
NB_BA1 R971 1
CLK_DDR2
CLK_DDR2#
DQS0
MD2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
1
RP38
56*8
RPX8
MCB3
DM0
MD6
2
1
2
3
4
5
6
7
8
DQS8
MCB2
C332
0.1U
0402
+80-20%
50V
MD0
MD1
1
MCB1
MCB0
MCB4
MCB5
DQS8
DM8
MCB6
MCB2
C350
0.1U
0402
+80-20%
50V
MD4
MD5
2
MCB0
MCB1
MCB2
MCB3
MCB4
MCB5
MCB6
MCB7
C349
0.1U
0402
+80-20%
50V
2
0402
0402
0402
0402
0402
0402
0402
0402
C333
0.1U
0402
+80-20%
50V
MCB0
MCB1
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
126
128
130
132
134
136
138
140
142
144
146
148
150
152
154
156
158
160
162
164
166
168
170
172
174
176
178
180
182
184
186
188
190
192
194
196
198
200
2
2
2
2
2
2
2
2
2
MD26
MD27
C369
0.1U
0402
+80-20%
50V
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
125
127
129
131
133
135
137
139
141
143
145
147
149
151
153
155
157
159
161
163
165
167
169
171
173
175
177
179
181
183
185
187
189
191
193
195
197
199
2
10
10
10
10
10
10
10
10
C347
0.1U
0402
+80-20%
50V
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
2
R1042 1
R1041 1
R1039 1
R1038 1
R981 1
R980 1
R978 1
R977 1
C331
0.1U
0402
+80-20%
50V
J712
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
2
NB_CB0
NB_CB1
NB_CB2
NB_CB3
NB_CB4
NB_CB5
NB_CB6
NB_CB7
C868
0.1U
0402
+80-20%
50V
1
DM0
DM1
DM2
DM3
DM4
DM5
DM6
DM7
MD25
DQS3
2
0402
0402
0402
0402
0402
0402
0402
0402
+2.5VS_DDR
1
2
2
2
2
2
2
2
2
MD19
MD24
2
10
10
10
10
10
10
10
10
DQS2
MD18
1
1
1
1
1
1
1
1
1
MD16
MD17
2
R999
R994
R989
R984
R965
R960
R955
R950
CLK_DDR0
CLK_DDR0#
1
NB_DM0
NB_DM1
NB_DM2
NB_DM3
NB_DM4
NB_DM5
NB_DM6
NB_DM7
RP29
56*8
RPX8
MD10
MD11
2
DQS0
DQS1
DQS2
DQS3
DQS4
DQS5
DQS6
DQS7
MD9
DQS1
1
0402
0402
0402
0402
0402
0402
0402
0402
MD3
MD8
2
2
2
2
2
2
2
2
2
DQS0
MD2
1
RP30
56*8
RPX8
10
10
10
10
10
10
10
10
J711
2
RP31
56*8
RPX8
+2.5VS_DDR
+DDR_VREF
MD0
MD1
1
RP32
56*8
RPX8
+2.5VS_DDR
2
RP33
56*8
RPX8
1
+DDR_VREF
1
RP39
56*8
RPX8
2
DDR -SODIMM
2
RP40
56*8
RPX8
3
+1.25V_DDR
1
RP41
56*8
RPX8
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
2
RP42
56*8
RPX8
R1060 1
R1055 1
R1050 1
R1045 1
R1026 1
R1021 1
R1016 1
R1011 1
NB_CB[0..7]
5 NB_DM8
5 NB_DQS8
RP43
56*8
RPX8
NB_DQS0
NB_DQS1
NB_DQS2
NB_DQS3
NB_DQS4
NB_DQS5
NB_DQS6
NB_DQS7
NB_DM[0..7]
NB_MA0
NB_MA3
NB_MA6
NB_MA7
NB_MA8
NB_MA9
NB_MA10
NB_MA11
NB_MA12
NB_WE#
NB_CAS#
NB_RAS#
NB_BA0
NB_BA1
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
NB_DQS[0..7]
B
5
5
5
5
5
5
5
5
5
5
5
5
5
5
MD0
MD4
MD1
MD5
DQS0
DM0
MD2
MD6
MD3
MD7
MD8
MD12
MD9
MD13
DQS1
DM1
MD10
MD14
MD11
MD15
MD16
MD20
MD17
MD21
DQS2
DM2
MD18
MD22
MD19
MD23
MD24
MD28
MD25
MD29
DQS3
DM3
MD26
MD30
MD27
MD31
MD32
MD36
MD33
MD37
DQS4
DM4
MD34
MD38
MD35
MD39
MD40
MD44
MD41
MD45
DQS5
DM5
MD42
MD46
MD43
MD47
MD48
MD52
MD49
MD53
DQS6
DM6
MD50
MD54
MD51
MD55
MD56
MD60
MD57
MD61
DQS7
DM7
MD58
MD62
MD59
MD63
1
NB_CB[0..7]
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
MD8
MD9
MD10
MD11
MD12
MD13
MD14
MD15
MD16
MD17
MD18
MD19
MD20
MD21
MD22
MD23
MD24
MD25
MD26
MD27
MD28
MD29
MD30
MD31
MD32
MD33
MD34
MD35
MD36
MD37
MD38
MD39
MD40
MD41
MD42
MD43
MD44
MD45
MD46
MD47
MD48
MD49
MD50
MD51
MD52
MD53
MD54
MD55
MD56
MD57
MD58
MD59
MD60
MD61
MD62
MD63
2
NB_DM[0..7]
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
1
C
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
D
NB_DQS[0..7]
4
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
2
5
NB_MD[0..63]
NB_MD0 R1062 1
NB_MD1 R1061 1
NB_MD2 R1059 1
NB_MD3 R1058 1
NB_MD4 R1001 1
NB_MD5 R1000 1
NB_MD6 R998 1
NB_MD7 R997 1
NB_MD8 R1057 1
NB_MD9 R1056 1
NB_MD10R1054 1
NB_MD11R1053 1
NB_MD12R996 1
NB_MD13R995 1
NB_MD14R993 1
NB_MD15R992 1
NB_MD16R1052 1
NB_MD17R1051 1
NB_MD18R1049 1
NB_MD19R1048 1
NB_MD20R991 1
NB_MD21R990 1
NB_MD22R988 1
NB_MD23R987 1
NB_MD24R1047 1
NB_MD25R1046 1
NB_MD26R1044 1
NB_MD27R1043 1
NB_MD28R986 1
NB_MD29R985 1
NB_MD30R983 1
NB_MD31R982 1
NB_MD32R1028 1
NB_MD33R1027 1
NB_MD34R1025 1
NB_MD35R1024 1
NB_MD36R967 1
NB_MD37R966 1
NB_MD38R964 1
NB_MD39R963 1
NB_MD40R1023 1
NB_MD41R1022 1
NB_MD42R1020 1
NB_MD43R1019 1
NB_MD44R962 1
NB_MD45R961 1
NB_MD46R959 1
NB_MD47R958 1
NB_MD48R1018 1
NB_MD49R1017 1
NB_MD50R1015 1
NB_MD51R1014 1
NB_MD52R957 1
NB_MD53R956 1
NB_MD54R954 1
NB_MD55R953 1
NB_MD56R1013 1
NB_MD57R1012 1
NB_MD58R1010 1
NB_MD59R1009 1
NB_MD60R952 1
NB_MD61R951 1
NB_MD62R949 1
NB_MD63R948 1
5 NB_MD[0..63]
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
6
of
34
5
4
3
2
1
+3V
M10_GPIO0
ATI M10-P(1/4)
Bus configuration straps
1.5V, AGP4X, ID=16
R743 1 10K/NA 2 0402
M10_GPIO4
M10_GPIO5
M10_GPIO6
R742 1 10K/NA 2 0402
M10_GPIO1
R61 1 10K/NA 2 0402
R57 1 10K/NA 2 0402
R735 1 10K/NA 2 0402
R744 1 10K/NA 2 0402
AGP_VDDQ
GND
R777
M10_GPIO2
AGP_VREF
GND
2 0.1U/NA
50V +80-20%
R762
1
0603
11 ATI_TV_CRMA
11 ATI_TV_LUMA
11 ATI_TV_COMP
2
AK21
715/NA5%
ATI_TV_CRMA AJ23
ATI_TV_LUMA AJ22
ATI_TV_COMP AK22
AJ24
AK24
AG23
AG24
+3V
R770 1
0/NA 2 0402
R773 1
0/NA 2 0402
X1
R775 1
0/NA 2 0402
AH28
X2
R774 1
0/NA 2 0402
AJ29
1
C72
0.1U/NA
0402
+80-20%
50V
R776
1 1M/NA 2
0402 5%
1
C131
0.1U/NA
0402
+80-20%
50V
AK25
AJ25
TX0M
TX0P
TX1M
TX1P
TX2M
TX2P
TXCM
TXCP
AGPREF
AGPTEST
AGP8X_DET#
R2SET
C_R
Y_G
COMP_B
H2SYNC
V2SYNC
DDC2CLK
DDC2DATA
HPD1
DDC3CLK
DDC3DATA
R
G
B
HSYNC
VSYNC
SSIN
SSOUT
GND
1K/NA 2
5%
0/NA 2 0402
AH27
AG26
C766
22P/NA
0402
+/-10%
50V
USE 22P 5%
TEST_MCLK
TEST_YCLK
XTALOUT
DDC1DATA
DDC1CLK
AE12
AG12
AK27
AJ27
AJ26
AG25
AH25
AH26
14
7
1
2
2
1
+3V
R72
2.21K/NA
0402
1%
4
4
4
4
4
4
4
4
4
4
ENAVDD
ENABKL
HYB25D128323CL3.6
EM6A9320B1-3.6M
1
0
Reserve 64M
EtroTech
0
1
Reserve 64M
Hynix
1
1
Reserve 128M
EtroTech
R764 1
2
0603 499/NA 1%
H230904RAT309A
AF25
AF24
L711
120Z/100M/NA
2012
GND
R771
0/NA
0402
5%
ATI_CRT_DDDA 12
ATI_CRT_DDCK 12
AF26
1
X1
X2
R786 2
620/NA
C774 0603
0.1U/NA
0402
10%5%
16V
1
ATI_CRT_RED
ATI_CRT_GREEN
ATI_CRT_BLUE
GND
C760
47P/NA
0402
+/-10%
25V
C759
47P/NA
0402
+/-10%
25V
R768
75/NA
0402
5%
R769
75/NA
0402
5%
R765
8.2K/NA
0402
5%
C757
1U/NA
0402
+80-20%
10V
C755
0.1U/NA
0402
10%
16V
U711
1
2
3
4
+3V
2
+3V
+3V
GND
XIN/CLKIN
VDD
XOUT
REF
PD#
MODOUT
LF
VSS
P2779A/NA
C770
270P/NA SO8
0402
+/-10%
50V
GND
8
7
6
5
GND
GND
R772
1 150/NA 2 0402
1%
REF_OUT
OSC_SPREAD
R777
180/NA
0603
1%
GND
A
GND
R767
75/NA
0402
5%
Title
8050 MOTHER B/D
GND
GND
Size
C
Date:
5
4
C
B
+3V
10K/NA
0402 5%
2
K4D263238E-GL36
12
12
R84 1 100K/NA 2
0402
5%
ATI_CRT_RED
ATI_CRT_RED 12
ATI_CRT_GREEN
GND
ATI_CRT_GREEN 12
ATI_CRT_BLUE
ATI_CRT_BLUE 12
ATI_CRT_HSYNC 12
ATI_CRT_VSYNC 12
B6
E8
C761
47P/NA
0402
+/-10%
25V
Infineon
LVDS CH2
GND
+3V
GND
Samsung
64M
LVDS CH1
2
GND
64M
+3V
R101
20K/NA
0402
1%
ZV13
Reserve
R79
2.21K/NA
0402
1%
R104
AUXWIN
0
R86
10K/NA
0402
5%
TESTEN
SUS_STAT#
ZV12
GND
1
1
1
1
1
1
1
1
1
1
R752
DIGON 1 0/NA
0402 2 5%
BLON 1 0/NA
ENABKL
2
R85 0402 5%
AE13
AE14
AF12
2 0402
2 0402
HDS402/NA
SW_HDS402
ZV11
I2C_DAT
I2C_CLK
TXOUT0-_ATI
TXOUT0+_ATI
TXOUT1-_ATI
TXOUT1+_ATI
TXOUT2-_ATI
TXOUT2+_ATI
TXOUT3-_ATI
TXOUT3+_ATI
TXCLK-_ATI
TXCLK+_ATI
TP8
TP7
TP6
TP10
TP9
TP11
TP13
TP15
TP12
TP14
AJ13
AH14
AJ14
AH15
AJ15
AK15
AH13
AK13
R748 1 1K/NA
R749 1 1K/NA
GND
TP1
1
TP2
1
5% 2 0402
1 33/NA
5% 2 0402
1 33/NA
10K/NA2 0402
1
ZV11
1 0/NA
2
0402 25% ZV12
1 0/NA
0402 25% ZV13
1 0/NA
0402 5%
RP718
8
0*4/NA
7
1206
6
5
MOBILITY-M10-P/NA
BGA644_64_1MM
2
1
27MHZ/NA
C765 TXC8X4.5
22P/NA
0402
+/-10%
50V
SB_SUSST#
R102 1
0402
R100 1
XTALIN
1
2
1
2
1
2
1
2
A
13
2
2
1
AGP_VDDQ
C120
0.01U/NA
0402
+80-20%
50V
GND
X702
1
C122
10U/NA
0805
6.3V
10%
1
DIGON
BLON
RSET
GND
C126
1000P/NA
0402
+/-20%
50V
TP702
1
C128
0.01U/NA
0402
+80-20%
50V
2
1
C110
10U/NA
0805
6.3V
10%
2
1
C123
1000P/NA
0402
+/-20%
50V
2
2
1
REF_OUT
2
M26
M27
AC25
SB_STBS
AD_STBS0
AD_STBS1
4
3
1
AGP_VREF
AGPTEST
R140
1 47K/NA 2 0402 5%
R121 1 10K/NA 2
0402
5%
715 ohm is recommanded for R2SET. GND
4
C145 1
0402
+3V
SW701
1
2
2
+3V
ST0
ST1
ST2
+3V
1
AB28
M29
V26
5 AGP_SBSTBS
4 AGP_ADSTB0#
4 AGP_ADSTB1#
B
AF29
AD27
AE28
SBA0
SBA1
SBA2
SBA3
SBA4
SBA5
SBA6
SBA7
2 0402
2
AGP_ST0
AGP_ST1
AGP_ST2
AGP_ST0
AGP_ST1
AGP_ST2
AD28
AD29
AC28
AC29
AA28
AA29
Y28
Y29
2 0402
1 1K/NA
1
AGP_SBA0
AGP_SBA1
AGP_SBA2
AGP_SBA3
AGP_SBA4
AGP_SBA5
AGP_SBA6
AGP_SBA7
1 1K/NA
R62
0402
1 10K/NA 2 ZV11
1 10K/NA 2 ZV12
0402
0
TP53
TP54
TP55
R83
GND
C68
0.01U/NA
0402
+80-20%
50V
1
AGP_SBA[0..7]
TXOUT_L0N
TXOUT_L0P
TXOUT_L1N
TXOUT_L1P
TXOUT_L2N
TXOUT_L2P
TXOUT_L3N
TXOUT_L3P
TXCLK_LN
TXCLK_LP
TXOUT_U0N
TXOUT_U0P
TXOUT_U1N
TXOUT_U1P
TXOUT_U2N
TXOUT_U2P
TXOUT_U3N
TXOUT_U3P
TXCLK_UN
TXCLK_UP
STP_AGP#
AGP_BUSY#
RBF#
AD_STBF0
AD_STBF1
SB_STBF
1 10K/NA 2 0402
2
5
5
5
AH30
AH29
AE29
M28
V25
AB29
C733
0.01U/NA
0402
+80-20%
50V
1
40.2/NA1% 0402
STP_AGP#
AGPBUSY#
R82
R58
2
AGPTEST
AK16
AH16
AH17
AJ16
AH18
AJ17
AK19
AH19
AK18
AJ18
AG16
AF16
AG17
AF17
AF18
AE18
AH20
AG20
AF19
AG19
1
1
1
C734
0.01U/NA
0402
+80-20%
50V
12,14,24
12,14,24
12,14,24
12,14,24
1
2
WBF#
C69
0.01U/NA
0402
+80-20%
50V
2
13,24 STP_AGP#
4,13,24 AGPBUSY#
5
AGP_RBF#
4 AGP_ADSTB0
4 AGP_ADSTB1
5
AGP_SBSTBF
4 AGP_SBA[0..7]
R119
1
AC26
AJ10 1
AK102
AJ11 3
AH114
PANEL_ID0
PANEL_ID1
PANEL_ID2
PANEL_ID3
1
40R
AH6
AJ6
AK6
AH7
AK7
AJ7
AH8
AJ8
AH9
AJ9
AK9
AH10
AE6
AG6
AF6
AE7
AF7
AE8
AG8 R77
AF8 R78
AE9 R76
AF9 R405
AG10R406
AF10 R407
2
M10
AGP_VDDQ
ZV_LCDCNTL0
ZV_LCDCNTL1
ZV_LCDCNTL2
ZV_LCDCNTL3
1 10K/NA 2 0402
R67
GND
1
49.9R
R66
74AHC14_V
TSSOP14
GND
AF5
2
M9+
+3V
ZV13
SW_1.5V/1.25V 30
OSC_SPREAD
1
R794
PCICLK
RST#
REQ#
GNT#
PAR
STOP#
DEVSEL#
TRDY#
IRDY#
FRAME#
INTA#
GND
GND
2
2
AGP MODE
AG30
AG28
AF28
AD26
M25
N26
V29
V28
W29
W28
AE26
R733 1 10K/NA 2 0402
1
5% 2 0402
2 22P/NA R778 1
50V
+/-10%
33/NA
R779 1 0/NA
5%
2 0402
11 66M_AGP
R105
22/NA 2
1
13 ATI_PCIRST#
0402
5%
5
AGP_REQ#
5
AGP_GNT#
4
AGP_PAR
4
AGP_STOP#
4 AGP_DEVSEL#
4
AGP_TRDY#
4
AGP_IRDY#
4 AGP_FRAME#
R122
5%
1 0/NA
2 0402
13,24 PCI_INTA#
R118
5%
1 0/NA
2 0402
5 AGP_WBF#
D
10K*8/NA 1206
1
C773 1
0402
GND
C/BE#0
C/BE#1
C/BE#2
C/BE#3
1
M10_GPIO11
M10_GPIO12
M10_GPIO9
M10_GPIO8
2
FOR M10
C
N29
U28
P26
U26
10
9
8
7
6
For MEM_ID
1
AGP_CBE#0
AGP_CBE#1
AGP_CBE#2
AGP_CBE#3
ZV_LCDDATA0
ZV_LCDDATA1
ZV_LCDDATA2
ZV_LCDDATA3
ZV_LCDDATA4
ZV_LCDDATA5
ZV_LCDDATA6
ZV_LCDDATA7
ZV_LCDDATA8
ZV_LCDDATA9
ZV_LCDDATA10
ZV_LCDDATA11
ZV_LCDDATA12
ZV_LCDDATA13
ZV_LCDDATA14
ZV_LCDDATA15
ZV_LCDDATA16
ZV_LCDDATA17
ZV_LCDDATA18
ZV_LCDDATA19
ZV_LCDDATA20
ZV_LCDDATA21
ZV_LCDDATA22
ZV_LCDDATA23
1
2
3
4
5
R734 1 10K/NA 2 0402
U703A
2
AGP_CBE#[0..3]
4,5 AGP_CBE#[0..3]
ROMCS#
+3VS
1
GND
M10_GPIO3
2
C146
10U/NA
0805
6.3V
10%
AJ5
AH5
AJ4
AK4
AH4
AF4
AJ3
AK3
AH3
AJ2
AH2
AH1
AG3
AG1
AG2
AF3
AF2
1
2
0.01U/NA
0402
50V
10%
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
GPIO13
GPIO14
GPIO15
GPIO16
2
2
2
C149
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
1
1
1
1
AGP_VREF
R110
1.02K/NA
0402
1%
H29
H28
J29
J28
K29
K28
L29
L28
N28
P29
P28
R29
R28
T29
T28
U29
N25
R26
P25
R27
R25
T25
T26
U25
V27
W26
W25
Y26
Y25
AA26
AA25
AA27
M10_GPIO0
M10_GPIO1
M10_GPIO2
M10_GPIO3
M10_GPIO4
M10_GPIO5
M10_GPIO6
M10_GPIO7
M10_GPIO8
M10_GPIO9
M10_GPIO10
M10_GPIO11
M10_GPIO12
M10_GPIO13
M10_GPIO14
2
2
AGP_AD0
AGP_AD1
AGP_AD2
AGP_AD3
AGP_AD4
AGP_AD5
AGP_AD6
AGP_AD7
AGP_AD8
AGP_AD9
AGP_AD10
AGP_AD11
AGP_AD12
AGP_AD13
AGP_AD14
AGP_AD15
AGP_AD16
AGP_AD17
AGP_AD18
AGP_AD19
AGP_AD20
AGP_AD21
AGP_AD22
AGP_AD23
AGP_AD24
AGP_AD25
AGP_AD26
AGP_AD27
AGP_AD28
AGP_AD29
AGP_AD30
AGP_AD31
M10_GPIO13
M10_GPIO10
M10_GPIO7
M10_GPIO14
R738 1 10K/NA 2 0402
R737 1 10K/NA 2 0402
U710A
2
AGP_AD[0..31]
4,24 AGP_AD[0..31]
1
100
RP715
2
1.02K
324
1
1.02K
AGP3.0(8X).35V
2
AGP2.0(4X).75V
R739 1 10K/NA 2 0402
1
R120
1.02K/NA
0402
1%
D
R779
2
1
AGP MODE
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
7
of
34
5
4
3
2
1
ATI M10-P(2/4)
VGA_1.2/1.0
AVDD_1.8
AF22
AH24
A2VDDQ
2
1
2
1
2
1
2
1
1
2
2
1
1
1
2
2
2
1
1
C737
0.1U/NA
0402
+80-20%
50V
2
1
2
120Z/100M/NA
2
2012
GND
1
VDD_DAC2.5
1
2
C116
0.1U/NA
0402
+80-20%
50V
C115
0.1U/NA
0402
+80-20%
50V
2
C112
10U/NA
0805
6.3V
10%
120Z/100M/NA
2
1
VDD_PNLIO2.5
1
1
1
L31
1
2012
AC10
AC9
AD10
AD9
AG7
C738
0.1U/NA
0402
+80-20%
50V
C92
10U/NA
0805
6.3V
10%
C103
0.1U/NA
0402
+80-20%
50V
C102
0.1U/NA
0402
+80-20%
50V
2
2
1
C736
10U/NA
0805
6.3V
10%
+2.5V_M10
L30
1
C44
1000P/NA
0402
+/-20%
50V
GND
2
2
1
2
1
2
1
2
2
1
2
1
2
2
2
0/NA
0805
C55
10U/NA
0805
6.3V
10%
C140
0.1U/NA
0402
+80-20%
50V
VDD_MEMPLL1.8
GND
R55
C139
0.1U/NA
0402
+80-20%
50V
2
1
2
1
1
C84
10U/NA
0805
6.3V
10%
1
1
1
2
1
2
2
1
2
2
2
1
2
1
1
1
1
1
2
1
2
1
1
C118
0.1U/NA
0402
+80-20%
50V
1
1
2
2
1
2
1
2
1
2
2
2
2
1
1
1
1
VDDR4_0
VDDR4_1
VDDR4_2
VDDR4_3
VDDR4_4
A2VDD_0
A2VDD_1
2012
+3V
AC19
AC21
AC22
AC8
AD19
AD21
AD22
AD7
VDDDI_1.8
C141
10U/NA
0805
6.3V
10%
2
LPVDD
MPVDD
PVDD
TPVDD
C66
0.01U/NA
0402
+80-20%
50V
C137
0.01U/NA
0402
+80-20%
50V
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSS_10
VSS_11
VSS_12
VSS_13
VSS_14
VSS_15
VSS_16
VSS_17
VSS_18
VSS_19
VSS_20
VSS_21
VSS_22
VSS_23
VSS_24
VSS_25
VSS_26
VSS_27
VSS_28
VSS_29
VSS_30
VSS_31
VSS_32
VSS_33
VSS_34
VSS_35
VSS_36
VSS_37
VSS_38
VSS_39
VSS_40
VSS_41
VSS_42
VSS_43
VSS_44
VSS_45
VSS_46
VSS_47
VSS_48
VSS_49
VSS_50
VSS_51
VSS_52
VSS_53
VSS_54
VSS_55
VSS_56
VSS_57
VSS_58
VSS_59
VSS_60
VSS_61
VSS_62
VSS_63
VSS_64
VSS_65
VSS_66
VSS_67
VSS_68
VSS_69
VSS_70
VSS_71
VSS_72
VSS_73
VSS_74
VSS_75
VSS_76
VSS_77
VSS_78
VSS_79
VSS_80
VSS_81
VSS_82
VSS_83
VSS_84
VSS_85
VSS_86
VSS_87
VSS_88
VSS_89
VSS_90
VSS_91
VSS_92
VSS_93
VSS_94
VSS_95
VSS_96
VSS_97
VSS_98
VSS_99
VSS_100
VSS_101
VSS_102
VSS_103
VSS_104
VSS_105
VSS_106
VSS_107
VSS_108
VSS_109
VSS_110
VSS_111
VSS_112
VSS_113
VSS_114
VSS_115
VSS_116
VSS_117
VSS_118
VSS1DI
VSS2DI
VSSRH0
VSSRH1
TXVSSR_0
TXVSSR_1
TXVSSR_2
LVSSR_0
LVSSR_1
LVSSR_2
LVSSR_3
LPVSS
MPVSS
PVSS
TPVSS
VSS_123
A2VSSN_0
A2VSSN_1
A2VSSQ
AVSSN
AVSSQ
N15
N16
N23
N24
N27
P15
P16
P4
R12
R13
R14
R15
R16
R17
R18
R23
R24
R30
R7
R8
T1
T13
T14
T15
T16
T17
T18
T19
T27
U15
U16
U4
U8
V15
V16
V30
W15
W23
W24
W27
W7
W8
Y4
C
AE23
AE21
F19
M6
AG13
AG14
AH12
AE16
AE19
AF15
AF20
AJ19
A6
AJ28
AJ12
B
U23
AH22
AJ21
AF23
AH23
AD24
MOBILITY-M10-P/NA
BGA644_64_1MM
VDD_MEM_IO
GND
AVDD
L26
1
120Z/100M/NA
2
2012
VDD_MCLK2.5
2
1
MOBILITY-M10-P/NA
BGA644_64_1MM
+2.5V_M10
L27
1
L24
1
C50
10U/NA
0805
6.3V
10%
GND
1
A2VDDQ_1.8
AG21
AH21
VDDR3_0
VDDR3_1
VDDR3_2
VDDR3_3
VDDR3_4
VDDR3_5
VDDR3_6
VDDR3_7
LVDDR_25_0
LVDDR_25_1
C76
1000P/NA
0402
+/-20%
50V
C136
0.1U/NA
0402
+80-20%
50V
C54
0.1U/NA
0402
+80-20%
50V
C105
0.1U/NA
0402
+80-20%
50V
2
VDD_DAC2.5
AJ20
A7
AK28
AK12
LVDDR_18_0
LVDDR_18_1
C75
0.1U/NA
0402
+80-20%
50V
C130
0.1U/NA
0402
+80-20%
50V
AVDD_1.8
C138
10U/NA
0805
6.3V
10%
1
VDD_MEMPLL1.8
VDD_PLL1.8
VDD_PNLPLL1.8
AE17
AE20
A2VDDQ_1.8
C129
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
GND
VDD_MEM_IO
C747
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
C58
0.01U/NA
0402
+80-20%
50V
L709
1
C746
0.1U/NA
0402
+80-20%
50V
C127
10U/NA
0805
6.3V
10%
2
AE15
AF21
CONNECT LVDDR_25 TO 1.8V FOR M9 VDD_PNLIO2.5
, TO 2.5V FOR M10
TXVDDR_0
TXVDDR_1
L35
1
2012
C60
0.01U/NA
0402
+80-20%
50V
C124
0.1U/NA
0402
+80-20%
50V
VDD_PNLPLL1.8
C739
10U/NA
0805
6.3V
10%
1
AF13
AF14
VDD1DI
VDD2DI
VDD_PNLIO1.8
C86
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
2
VDD_PNLIO1.8
B
VDDRH0
VDDRH1
C74
1000P/NA
0402
+/-20%
50V
A10
A16
A2
A22
A29
AA30
AB1
AB23
AB24
AB27
AB7
AB8
AC12
AC14
AC16
AC18
AC4
AD12
AD16
AD18
AD25
AD30
AE27
AG11
AG15
AG18
AG22
AG27
AG5
AG9
AJ1
AJ30
AK2
AK29
C1
C28
C3
C30
D12
D15
D18
D21
D24
D27
D4
D6
D9
F27
G12
G16
G18
G21
G24
G9
H12
H14
H16
H18
H21
H23
H27
H4
H8
H9
K1
K23
K24
K27
K30
K7
K8
L4
M16
M30
M7
M8
C764
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
2
AE24
AE22
GND
C90
0.1U/NA C78
0402
10U/NA
+80-20% 0805
50V
6.3V
10%
2
F18
N6
VDDDI_1.8
C77
0.01U/NA
0402
+80-20%
50V
C763
0.1U/NA
0402
+80-20%
50V
C98
10U/NA
0805
6.3V
10%
VDD_MEM_IO
C87
1000P/NA
0402
+/-20%
50V
U710E
VDD_PLL1.8
C762
10U/NA
0805
6.3V
10%
120Z/100M/NA
2
2012
L34
1
C153
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
2012
GND
C152
0.1U/NA
0402
+80-20%
50V
120Z/100M/NA
2
L710
1
C758
10U/NA
0805
6.3V
10%
C81
0.1U/NA
0402
+80-20%
50V
2
VDD_MCLK2.5
VDDR1_53
VDDR1_54
VDDR1_55
VDDR1_56
VSS_119
VSS_120
VSS_121
VSS_122
L712
1
2012
C117
0.01U/NA
0402
+80-20%
50V
2
GND
D13
D19
N4
T4
AB4
D10
D25
E4
VDDCI_0
VDDCI_1
VDDCI_2
VDDCI_3
C125
0.1U/NA
0402
+80-20%
50V
1
C113
0.1U/NA
0402
VDD_MEM_IO
+80-20%
50V
C99
1000P/NA
0402
+/-20%
50V
2
1
C96
0.01U/NA
0402
+80-20%
50V
2
1
2
2
C79
10U/NA
0805
6.3V
10%
C97
1000P/NA
0402
+/-20%
50V
M15
R19
T12
W16
VDDC15_0
VDDC15_1
VDDC15_2
VDDC15_3
VDDC15_4
VDDC15_5
VDDC15_6
VDDC15_7
C767
0.1U/NA
0402
+80-20%
50V
L32
1
2
2
1
1
2
120Z/100M/NA
2012
C95
0.01U/NA
0402
+80-20%
50V
1
L28
AC11
AC20
H11
H20
L23
P8
Y23
Y8
C147
1000P/NA
0402
+/-20%
50V
GND
2
0/NA 2
VDD_CORE1.8
C167
10U/NA
0805
6.3V
10%
VDD_MEM_IO
C108
1000P/NA
0402
+/-20%
50V
1
R94 1
0805
C132
0.01U/NA
0402
+80-20%
50V
2012
2
1
VDD_CORE1.5
120Z/100M/NA
2
2012
L29
1
1
VDD_CORE
1.8V for M9 , 1.5V for M10
VGA_1.2/1.0
C769
0.1U/NA
0402
+80-20%
50V
GND
2
GND
C164
10U/NA
0805
6.3V
10%
1
C83
0.1U/NA
0402
+80-20%
50V
L39
1
2012
2
C80
0.1U/NA
0402
+80-20%
50V
C114
10U/NA
0805
6.3V
10%
1
1
C119
0.1U/NA
0402
+80-20%
50V
2
1
C
2
C111
0.1U/NA
0402
+80-20%
50V
2
2
1
GND
1
VDD_CORE
AA23
AA24
AB30
AC23
AC27
AE30
AF27
J30
M23
M24
N30
P23
P27
T23
T24
T30
U27
V23
V24
W30
Y27
A15
A21
A28
A3
A9
AA1
AA4
AA7
AA8
AD4
B1
B30
D11
D14
D17
D20
D23
D26
D5
D8
E27
F4
G10
G13
G15
G19
G22
G27
G7
H10
H13
H15
H17
H19
H22
J1
J23
J24
J4
J7
J8
L27
L8
M4
N7
N8
R1
R4
T7
T8
V4
V7
V8
2
C101
1000P/NA
0402
+/-20%
50V
VDDP_0
VDDP_1
VDDP_2
VDDP_3
VDDP_4
VDDP_5
VDDP_6
VDDP_7
VDDP_8
VDDP_9
VDDP_10
VDDP_11
VDDP_12
VDDP_13
VDDP_14
VDDP_15
VDDP_16
VDDP_17
VDDP_18
VDDP_19
VDDP_20
VDDR1_0
VDDR1_1
VDDR1_2
VDDR1_3
VDDR1_4
VDDR1_5
VDDR1_6
VDDR1_7
VDDR1_8
VDDR1_9
VDDR1_10
VDDR1_11
VDDR1_12
VDDR1_13
VDDR1_14
VDDR1_15
VDDR1_16
VDDR1_17
VDDR1_18
VDDR1_19
VDDR1_20
VDDR1_21
VDDR1_22
VDDR1_23
VDDR1_24
VDDR1_25
VDDR1_26
VDDR1_27
VDDR1_28
VDDR1_29
VDDR1_30
VDDR1_31
VDDR1_32
VDDR1_33
VDDR1_34
VDDR1_35
VDDR1_36
VDDR1_37
VDDR1_38
VDDR1_39
VDDR1_40
VDDR1_41
VDDR1_42
VDDR1_43
VDDR1_44
VDDR1_45
VDDR1_46
VDDR1_47
VDDR1_48
VDDR1_49
VDDR1_50
VDDR1_51
VDDR1_52
2
2
2
2
1
2
C91
0.01U/NA
0402
+80-20%
50V
C109
0.1U/NA
0402
+80-20%
50V
VDDC_0
VDDC_1
VDDC_2
VDDC_3
VDDC_4
VDDC_5
VDDC_6
VDDC_7
VDDC_8
VDDC_9
VDDC_10
VDDC_11
VDDC_12
VDDC_13
VDDC_14
VDDC_15
VDDC_16
VDDC_17
VDDC_18
VDDC_19
VDDC_20
VDDC_21
VDDC_22
VDDC_23
VDDC_24
VDDC_25
VDDC_26
VDDC_27
VDDC_28
VDDC_29
VDDC_30
VDDC_31
VDDC_32
VDDC_33
VDDC_34
VDDC_35
VDDC_36
VDDC_37
VDDC_38
VDDC_39
VDDC_40
1
1
1
1
1
2
C100
C106
1000P/NA 0.01U/NA
0402
0402
+/-20%
+80-20%
50V
50V
C107
0.1U/NA
0402
+80-20%
50V
2
2
C89
10U/NA
0805
6.3V
10%
C85
0.01U/NA
0402
+80-20%
50V
1
1
2
C88
0.1U/NA
0402
+80-20%
50V
1
C82
10U/NA
0805
6.3V
10%
2
2
1
2
C743
+ 150U/NA
7343
2.5V
1
1
U710D
AC13
AC15
AC17
AD13
AD15
M12
M13
M14
M17
M18
M19
N12
N13
N14
N17
N18
N19
P12
P13
P14
P17
P18
P19
U12
U13
U14
U17
U18
U19
V12
V13
V14
V17
V18
V19
W12
W13
W14
W17
W18
W19
D
+1.8V
AGP_VDDQ
1
D
VDD_MEM_IO
120Z/100M/NA
2
2012
120Z/100M/NA
2
2012
GND
+1.5V
A
A
120Z/100M/NA
2
2
VDD_CORE1.5
C121
10U/NA
0805
6.3V
10%
1
2012
C134
0.1U/NA
0402
+80-20%
50V
2
L33
1
1
120Z/100M/NA
2
2012
AGP_VDDQ
2
L705
1
120Z/100M/NA
2
2012
1
L40
1
+1.8V
C135
0.1U/NA
0402
+80-20%
50V
Title
8050 MOTHER B/D
Size
C
GND
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
8
of
34
5
4
3
D
C
MEMA_MD0
MEMA_MD1
MEMA_MD2
MEMA_MD3
MEMA_MD4
MEMA_MD5
MEMA_MD6
MEMA_MD7
MEMA_MD8
MEMA_MD9
MEMA_MD10
MEMA_MD11
MEMA_MD12
MEMA_MD13
MEMA_MD14
MEMA_MD15
MEMA_MD16
MEMA_MD17
MEMA_MD18
MEMA_MD19
MEMA_MD20
MEMA_MD21
MEMA_MD22
MEMA_MD23
MEMA_MD24
MEMA_MD25
MEMA_MD26
MEMA_MD27
MEMA_MD28
MEMA_MD29
MEMA_MD30
MEMA_MD31
MEMA_MD32
MEMA_MD33
MEMA_MD34
MEMA_MD35
MEMA_MD36
MEMA_MD37
MEMA_MD38
MEMA_MD39
MEMA_MD40
MEMA_MD41
MEMA_MD42
MEMA_MD43
MEMA_MD44
MEMA_MD45
MEMA_MD46
MEMA_MD47
MEMA_MD48
MEMA_MD49
MEMA_MD50
MEMA_MD51
MEMA_MD52
MEMA_MD53
MEMA_MD54
MEMA_MD55
MEMA_MD56
MEMA_MD57
MEMA_MD58
MEMA_MD59
MEMA_MD60
MEMA_MD61
MEMA_MD62
MEMA_MD63
L25
L26
K25
K26
J26
H25
H26
G26
G30
D29
D28
E28
E29
G29
G28
F28
G25
F26
E26
F25
E24
F23
E23
D22
B29
C29
C25
C27
B28
B25
C26
B26
F17
E17
D16
F16
E15
F14
E14
F13
C17
B18
B17
B15
C13
B14
C14
C16
A13
A12
C12
B12
C10
C9
B9
B10
E13
E12
E10
F12
F11
E9
F9
F8
DQA0
DQA1
DQA2
DQA3
DQA4
DQA5
DQA6
DQA7
DQA8
DQA9
DQA10
DQA11
DQA12
DQA13
DQA14
DQA15
DQA16
DQA17
DQA18
DQA19
DQA20
DQA21
DQA22
DQA23
DQA24
DQA25
DQA26
DQA27
DQA28
DQA29
DQA30
DQA31
DQA32
DQA33
DQA34
DQA35
DQA36
DQA37
DQA38
DQA39
DQA40
DQA41
DQA42
DQA43
DQA44
DQA45
DQA46
DQA47
DQA48
DQA49
DQA50
DQA51
DQA52
DQA53
DQA54
DQA55
DQA56
DQA57
DQA58
DQA59
DQA60
DQA61
DQA62
DQA63
MAA0
MAA1
MAA2
MAA3
MAA4
MAA5
MAA6
MAA7
MAA8
MAA9
MAA10
MAA11
MAA12
MAA13
MAA14
DQMA#0
DQMA#1
DQMA#2
DQMA#3
DQMA#4
DQMA#5
DQMA#6
DQMA#7
QSA0
QSA1
QSA2
QSA3
QSA4
QSA5
QSA6
QSA7
RASA#
CASA#
WEA#
CSA0#
CSA1#
CKEA
CLKA0
CLKA0#
CLKA1
CLKA1#
DIMA_0
DIMA_1
PLLTEST
RSTB_MSK
VREFG
DVOVMODE
DMINUS
DPLUS
DBI_LO
DBI_HI
E22
B22
B23
B24
C23
C22
F22
F21
C21
A24
C24
A25
E21
B20
C19
MEMA_MA0
MEMA_MA1
MEMA_MA2
MEMA_MA3
MEMA_MA4
MEMA_MA5
MEMA_MA6
MEMA_MA7
MEMA_MA8
MEMA_MA9
MEMA_MA10
MEMA_MA11
MEMA_MA12
MEMA_MA13
J25
F29
E25
A27
F15
C15
C11
E11
MEMA_DQM#0
MEMA_DQM#1
MEMA_DQM#2
MEMA_DQM#3
MEMA_DQM#4
MEMA_DQM#5
MEMA_DQM#6
MEMA_DQM#7
J27
F30
F24
B27
E16
B16
B11
F10
MEMA_QSA0
MEMA_QSA1
MEMA_QSA2
MEMA_QSA3
MEMA_QSA4
MEMA_QSA5
MEMA_QSA6
MEMA_QSA7
E18 MEMA_CAS#
E19 MEMA_WE#
E20 MEMA_CS0#
C751 1
2 470P/NA
0402
50V 10%
R760 1 56/NA 2
R758 1 56/NA 2
0402
5%
0402
5%
F20 MEMA_CS1#
B19 MEMA_CKE
GND
5% 2 0402
B21 MEMA_CLK0 R761 1 10/NA
5% 2 0402
C20 MEMA_CLK0# R759 1 10/NA
5% 2 0402
C18 MEMA_CLK1 R757 1 10/NA
5% 2 0402
A18 MEMA_CLK1# R755 1
10/NA
DIMA_0
D30
DIMA_1
B13
AE25
VCLKA0
VCLKA#0
VCLKA1
VCLKA#1
R756 1 56/NA 2
R754 1 56/NA 2
0402
5%
0402
5%
C742 1
2 470P/NA
0402
50V 10%
R81
VGA_THERMDC
VGA_THERMDA
AB26
AB25
R98
R97
MOBILITY-M10-P/NA
BGA644_64_1MM
10
10
VCLKA1
VCLKA#1
10
10
GND
GND
R45
AE10
AE11
AF11
VCLKA0
VCLKA#0
TP17
1
R787 1
0/NA 2 5%
0402G_DFS
AG4
1
0/NA 2 0402
R44
GND
VGA_THERMDC 22
VGA_THERMDA 22
0/NA 2 5%
1
0402G_DFS
0/NA 2 5%
1
0402G_DFS
1% 2 0402
1K/NA
1% 2 0402
1
1K/NA
1
1
VMDA[0..63]
MEMA_MD0
MEMA_MD1
MEMA_MD2
MEMA_MD3
MEMA_MD4
MEMA_MD5
MEMA_MD6
MEMA_MD7
MEMA_MD8
MEMA_MD9
MEMA_MD10
MEMA_MD11
MEMA_MD12
MEMA_MD13
MEMA_MD14
MEMA_MD15
MEMA_MD16
MEMA_MD17
MEMA_MD18
MEMA_MD19
MEMA_MD20
MEMA_MD21
MEMA_MD22
MEMA_MD23
MEMA_MD24
MEMA_MD25
MEMA_MD26
MEMA_MD27
MEMA_MD28
MEMA_MD29
MEMA_MD30
MEMA_MD31
MEMA_MD32
MEMA_MD33
MEMA_MD34
MEMA_MD35
MEMA_MD36
MEMA_MD37
MEMA_MD38
MEMA_MD39
MEMA_MD40
MEMA_MD41
MEMA_MD42
MEMA_MD43
MEMA_MD44
MEMA_MD45
MEMA_MD46
MEMA_MD47
MEMA_MD48
MEMA_MD49
MEMA_MD50
MEMA_MD51
MEMA_MD52
MEMA_MD53
MEMA_MD54
MEMA_MD55
MEMA_MD56
MEMA_MD57
MEMA_MD58
MEMA_MD59
MEMA_MD60
MEMA_MD61
MEMA_MD62
MEMA_MD63
A19 MEMA_RAS#
AG29
2
ATI M10-P(3/4)
U710B
+3V
GND
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
RP23
24*4/NA
1206
RP24
24*4/NA
1206
RP18
24*4/NA
1206
RP20
24*4/NA
1206
RP19
24*4/NA
1206
RP17
24*4/NA
1206
RP21
24*4/NA
1206
RP22
24*4/NA
1206
RP706
24*4/NA
1206
RP709
24*4/NA
1206
RP716
24*4/NA
1206
RP713
24*4/NA
1206
RP714
24*4/NA
1206
RP717
24*4/NA
1206
RP708
24*4/NA
1206
RP705
24*4/NA
1206
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
VMDA[0..63]
VMDA0
VMDA1
VMDA2
VMDA3
VMDA4
VMDA5
VMDA6
VMDA7
VMDA8
VMDA9
VMDA10
VMDA11
VMDA12
VMDA13
VMDA14
VMDA15
VMDA16
VMDA17
VMDA18
VMDA19
VMDA20
VMDA21
VMDA22
VMDA23
VMDA24
VMDA25
VMDA26
VMDA27
VMDA28
VMDA29
VMDA30
VMDA31
VMDA32
VMDA33
VMDA34
VMDA35
VMDA36
VMDA37
VMDA38
VMDA39
VMDA40
VMDA41
VMDA42
VMDA43
VMDA44
VMDA45
VMDA46
VMDA47
VMDA48
VMDA49
VMDA50
VMDA51
VMDA52
VMDA53
VMDA54
VMDA55
VMDA56
VMDA57
VMDA58
VMDA59
VMDA60
VMDA61
VMDA62
VMDA63
VDQMA#[0..7]
CASB#
WEB#
CSB0#
CSB1#
CKEB
CLKB0
CLKB0#
CLKB1
CLKB1#
DIMB_0
DIMB_1
MVREFD
MVREFS
MEMB_QSA0
MEMB_QSA1
MEMB_QSA2
MEMB_QSA3
MEMB_QSA4
MEMB_QSA5
MEMB_QSA6
MEMB_QSA7
R2
MEMB_RAS#
T5
MEMB_CAS#
T6
MEMB_WE#
R5
MEMB_CS0#
R6
MEMB_CS1#
R3
MEMB_CKE
MEMTEST
GND
R728 1 10/NA
5% 2 0402
R727 1 10/NA
5% 2 0402
VCLKB0
VCLKB#0
T2
T3
R50
R51
VCLKB1
VCLKB#1
E3
AA3
5% 2 0402
1 10/NA
5% 2 0402
1 10/NA
R42
1 56/NA 2
0402 5%
C41 1
0402
DIMB_0
DIMB_1
B7
0/NA 2 5%
B8 R747 1
0402G_DFS
C6
C7
C8
R750
47/NA
0402
5%
GND
5
C729 1
2 470P/NA
0402
50V 10%
R726 1 56/NA 2
R725 1 56/NA 2
0402 5%
0402
5%
N1
N2
1
MEMVMODE0
MEMVMODE1
F6
B3
K6
G1
V5
W1
AC5
AD1
R69
R74
R75
4.7K/NA
0402
5%
R43
1 56/NA 2
0402 5%
2 470P/NA
50V 10%
GND
VCLKB0
VCLKB#0
10
10
VCLKB1
VCLKB#1
10
10
VDD_MEM_IO
1 R740
2
1K/NA 0402 1%
2
VDD_MEM_IO
1%
1 R736
2
1K/NA 0402 1%
2
1%
C732 1
2 0.1U/NA
GND
0402
50V +80-20%
2 0.1U/NA
GND
50V +80-20%
C730
6.3V
6.3V
1
2
10U/NA
0805 10%
2
0805 10%
1 R741
1K/NA 0402
1 R745
VDD_CORE1.8
1K/NA 0402
C735 1
0402
0402 5%
1 4.7K/NA 2
1 4.7K/NA 2
0402 5%
1
RASB#
MEMB_DQM#0
MEMB_DQM#1
MEMB_DQM#2
MEMB_DQM#3
MEMB_DQM#4
MEMB_DQM#5
MEMB_DQM#6
MEMB_DQM#7
2
QSB0
QSB1
QSB2
QSB3
QSB4
QSB5
QSB6
QSB7
E6
B2
J5
G3
W6
W2
AC6
AD2
1
1
1
1
1
1
1
1
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
VDQMA#0
VDQMA#1
VDQMA#2
VDQMA#3
VDQMA#4
VDQMA#5
VDQMA#6
VDQMA#7
MEMA_QSA0
MEMA_QSA1
MEMA_QSA2
MEMA_QSA3
MEMA_QSA4
MEMA_QSA5
MEMA_QSA6
MEMA_QSA7
R109
R91
R90
R106
R720
R731
R732
R717
1
1
1
1
1
1
1
1
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
VQSA0
VQSA1
VQSA2
VQSA3
VQSA4
VQSA5
VQSA6
VQSA7
VQSA[0..7]
VDQMA#[0..7]
10
VQSA[0..7]
10
D
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
MEMA_CAS#
MEMA_RAS#
MEMA_CS0#
MEMA_WE#
1
2
3
4
RP15
0*8/NA
RPX8
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
RP14
0*8/NA
RPX8
VMA12
VMA13
VMA0
VMA2
VMA1
VMA10
VMA3
VMA11
VMA4
VMA9
VMA6
VMA5
VMA7
VMA8
VCKEA
DIMA_0
R89 1
DIMA_1
R746 1
MEMA_CS1# R80 1
VCKEA
VCASA#
VRASA#
VCSA#0
VWEA#
RP16
8
0*4/NA 7
1206
6
5
VDIMA_0
VDIMA_1
VCSA#1
0/NA 2 0402
0/NA 2 0402
0/NA 2 0402
VMA[0..13]
10
10
VCASA#
VRASA#
VCSA#0
VWEA#
10
10
10
10
VDIMA_0
VDIMA_1
VCSA#1
10
10
10
C
AGP_VDDQ
MEMB_MA0
MEMB_MA1
MEMB_MA2
MEMB_MA3
MEMB_MA4
MEMB_MA5
MEMB_MA6
MEMB_MA7
MEMB_MA8
MEMB_MA9
MEMB_MA10
MEMB_MA11
MEMB_MA12
MEMB_MA13
2
MOBILITY-M10-P/NA
BGA644_64_1MM
DQMB#0
DQMB#1
DQMB#2
DQMB#3
DQMB#4
DQMB#5
DQMB#6
DQMB#7
N5
M1
M3
L3
L2
M2
M5
P6
N3
K2
K3
J2
P5
P3
P2
1
A
MAB0
MAB1
MAB2
MAB3
MAB4
MAB5
MAB6
MAB7
MAB8
MAB9
MAB10
MAB11
MAB12
MAB13
MAB14
2
B
DQB0
DQB1
DQB2
DQB3
DQB4
DQB5
DQB6
DQB7
DQB8
DQB9
DQB10
DQB11
DQB12
DQB13
DQB14
DQB15
DQB16
DQB17
DQB18
DQB19
DQB20
DQB21
DQB22
DQB23
DQB24
DQB25
DQB26
DQB27
DQB28
DQB29
DQB30
DQB31
DQB32
DQB33
DQB34
DQB35
DQB36
DQB37
DQB38
DQB39
DQB40
DQB41
DQB42
DQB43
DQB44
DQB45
DQB46
DQB47
DQB48
DQB49
DQB50
DQB51
DQB52
DQB53
DQB54
DQB55
DQB56
DQB57
DQB58
DQB59
DQB60
DQB61
DQB62
DQB63
R108
R93
R92
R107
R719
R729
R730
R718
VMA[0..13]
VMDB[0..63]
D7
F7
E7
G6
G5
F5
E5
C4
B5
C5
A4
B4
C2
D3
D1
D2
G4
H6
H5
J6
K5
K4
L6
L5
G2
F3
H2
E2
F2
J3
F1
H3
U6
U5
U3
V6
W5
W4
Y6
Y5
U2
V2
V1
V3
W3
Y2
Y3
AA2
AA6
AA5
AB6
AB5
AD6
AD5
AE5
AE4
AB2
AB3
AC2
AC3
AD3
AE1
AE2
AE3
MEMA_DQM#0
MEMA_DQM#1
MEMA_DQM#2
MEMA_DQM#3
MEMA_DQM#4
MEMA_DQM#5
MEMA_DQM#6
MEMA_DQM#7
MEMA_MA12
MEMA_MA13
MEMA_MA0
MEMA_MA2
MEMA_MA1
MEMA_MA10
MEMA_MA3
MEMA_MA11
MEMA_MA4
MEMA_MA9
MEMA_MA6
MEMA_MA5
MEMA_MA7
MEMA_MA8
MEMA_CKE
U710C
MEMB_MD0
MEMB_MD1
MEMB_MD2
MEMB_MD3
MEMB_MD4
MEMB_MD5
MEMB_MD6
MEMB_MD7
MEMB_MD8
MEMB_MD9
MEMB_MD10
MEMB_MD11
MEMB_MD12
MEMB_MD13
MEMB_MD14
MEMB_MD15
MEMB_MD16
MEMB_MD17
MEMB_MD18
MEMB_MD19
MEMB_MD20
MEMB_MD21
MEMB_MD22
MEMB_MD23
MEMB_MD24
MEMB_MD25
MEMB_MD26
MEMB_MD27
MEMB_MD28
MEMB_MD29
MEMB_MD30
MEMB_MD31
MEMB_MD32
MEMB_MD33
MEMB_MD34
MEMB_MD35
MEMB_MD36
MEMB_MD37
MEMB_MD38
MEMB_MD39
MEMB_MD40
MEMB_MD41
MEMB_MD42
MEMB_MD43
MEMB_MD44
MEMB_MD45
MEMB_MD46
MEMB_MD47
MEMB_MD48
MEMB_MD49
MEMB_MD50
MEMB_MD51
MEMB_MD52
MEMB_MD53
MEMB_MD54
MEMB_MD55
MEMB_MD56
MEMB_MD57
MEMB_MD58
MEMB_MD59
MEMB_MD60
MEMB_MD61
MEMB_MD62
MEMB_MD63
10
R70
4.7K/NAFOR 2.5V VDDR1
0402
MEMVMODE=1.8V
5%
MEMVMODE1=GND
FOR 1.8V VDDR1(ELPIDA)
MEMVMODE=GND
MEMVMODE1=1.8V
C731
1
10U/NA
MEMB_MD0
MEMB_MD1
MEMB_MD2
MEMB_MD3
MEMB_MD4
MEMB_MD5
MEMB_MD6
MEMB_MD7
MEMB_MD8
MEMB_MD9
MEMB_MD10
MEMB_MD11
MEMB_MD12
MEMB_MD13
MEMB_MD14
MEMB_MD15
MEMB_MD16
MEMB_MD17
MEMB_MD18
MEMB_MD19
MEMB_MD20
MEMB_MD21
MEMB_MD22
MEMB_MD23
MEMB_MD24
MEMB_MD25
MEMB_MD26
MEMB_MD27
MEMB_MD28
MEMB_MD29
MEMB_MD30
MEMB_MD31
MEMB_MD32
MEMB_MD33
MEMB_MD34
MEMB_MD35
MEMB_MD36
MEMB_MD37
MEMB_MD38
MEMB_MD39
MEMB_MD40
MEMB_MD41
MEMB_MD42
MEMB_MD43
MEMB_MD44
MEMB_MD45
MEMB_MD46
MEMB_MD47
MEMB_MD48
MEMB_MD49
MEMB_MD50
MEMB_MD51
MEMB_MD52
MEMB_MD53
MEMB_MD54
MEMB_MD55
MEMB_MD56
MEMB_MD57
MEMB_MD58
MEMB_MD59
MEMB_MD60
MEMB_MD61
MEMB_MD62
MEMB_MD63
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
RP9
24*4/NA
1206
RP11
24*4/NA
1206
RP4
24*4/NA
1206
RP3
24*4/NA
1206
RP12
24*4/NA
1206
RP13
24*4/NA
1206
RP5
24*4/NA
1206
RP7
24*4/NA
1206
RP707
24*4/NA
1206
RP712
24*4/NA
1206
RP701
24*4/NA
1206
RP702
24*4/NA
1206
RP711
24*4/NA
1206
RP710
24*4/NA
1206
RP703
24*4/NA
1206
RP704
24*4/NA
1206
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
VMDB0
VMDB1
VMDB2
VMDB3
VMDB4
VMDB5
VMDB6
VMDB7
VMDB8
VMDB9
VMDB10
VMDB11
VMDB12
VMDB13
VMDB14
VMDB15
VMDB16
VMDB17
VMDB18
VMDB19
VMDB20
VMDB21
VMDB22
VMDB23
VMDB24
VMDB25
VMDB26
VMDB27
VMDB28
VMDB29
VMDB30
VMDB31
VMDB32
VMDB33
VMDB34
VMDB35
VMDB36
VMDB37
VMDB38
VMDB39
VMDB40
VMDB41
VMDB42
VMDB43
VMDB44
VMDB45
VMDB46
VMDB47
VMDB48
VMDB49
VMDB50
VMDB51
VMDB52
VMDB53
VMDB54
VMDB55
VMDB56
VMDB57
VMDB58
VMDB59
VMDB60
VMDB61
VMDB62
VMDB63
VMDB[0..63]
10
VDQMB#[0..7]
MEMB_DQM#0
MEMB_DQM#1
MEMB_DQM#2
MEMB_DQM#3
MEMB_DQM#4
MEMB_DQM#5
MEMB_DQM#6
MEMB_DQM#7
R40
R29
R38
R35
R724
R710
R722
R716
1
1
1
1
1
1
1
1
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
VDQMB#0
VDQMB#1
VDQMB#2
VDQMB#3
VDQMB#4
VDQMB#5
VDQMB#6
VDQMB#7
MEMB_QSA0
MEMB_QSA1
MEMB_QSA2
MEMB_QSA3
MEMB_QSA4
MEMB_QSA5
MEMB_QSA6
MEMB_QSA7
R41
R30
R39
R33
R723
R709
R721
R715
1
1
1
1
1
1
1
1
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
24/NA
5%
2
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
0402
VQSB0
VQSB1
VQSB2
VQSB3
VQSB4
VQSB5
VQSB6
VQSB7
MEMB_MA12
MEMB_MA13
MEMB_MA0
MEMB_MA2
MEMB_MA1
MEMB_MA10
MEMB_MA3
MEMB_MA11
MEMB_MA4
MEMB_MA9
MEMB_MA6
MEMB_MA5
MEMB_MA7
MEMB_MA8
MEMB_CKE
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
MEMB_CAS#
MEMB_RAS#
MEMB_CS0#
MEMB_WE#
1
2
3
4
DIMB_0
DIMB_1
MEMB_CS1#
RP6
0*8/NA
RPX8
VCASB#
VRASB#
VCSB#0
VWEB#
0/NA 2 0402
0/NA 2 0402
0/NA 2 0402
10
VDIMB_0
VDIMB_1
VCSB#1
VMB[0..13]
VCKEB
10
10
VCASB#
VRASB#
VCSB#0
VWEB#
10
10
10
10
VDIMB_0
VDIMB_1
VCSB#1
10
10
10
A
8050 MOTHER B/D
Date:
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
VMB12
VMB13
VMB0
VMB2
VMB1
VMB10
VMB3
VMB11
VMB4
VMB9
VMB6
VMB5
VMB7
VMB8
VCKEB
RP10
8
0*4/NA 7
1206
6
5
R31 1
R711 1
R36 1
Size
C
3
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
VQSB[0..7]
B
VMB[0..13]
RP8
0*8/NA
RPX8
10
Title
GND
4
VQSB[0..7]
VDQMB#[0..7]
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
9
of
34
9
VMB[0..13]
+2.5V_M10
C727
0.01U/NA
0402
+80-20%
50V
5
4
C28
1U/NA
0402
+80-20%
10V
C36
0.1U/NA
0402
10%
16V
VMDB48
VMDB49
VMDB50
VMDB51
VMDB52
VMDB53
VMDB54
VMDB55
VQSB6
D12
C12
C11
B12
A9
A8
B8
A7
A12
VMDB56
VMDB57
VMDB58
VMDB59
VMDB60
VMDB61
VMDB62
VMDB63
VQSB7
K8
L9
+2.5V_M10
VDD_0
VDD_1
VDD_2
VDD_3
VDD_4
VDD_5
VDD_6
VDD_7
VDDQ_0
VDDQ_1
VDDQ_2
VDDQ_3
VDDQ_4
VDDQ_5
VDDQ_6
VDDQ_7
VDDQ_8
VDDQ_9
VDDQ_10
VDDQ_11
VDDQ_12
VDDQ_13
VDDQ_14
VDDQ_15
C6
C7
D3
D10
K3
K6
K7
K10
VDD_MEM_IO
B2
B4
B6
B7
B9
B11
D2
D11
E3
E10
F3
F10
H3
H10
J3
J10
B
C33
0.01U/NA
0402
+80-20%
50V
1
C30
1U/NA
0402
+80-20%
10V
C35
0.1U/NA
0402
10%
16V
C29
0.1U/NA
0402
10%
16V
2
C37
10U/NA
0805
6.3V
10%
1
C726
0.01U/NA
0402
+80-20%
50V
2
C725
0.1U/NA
0402
10%
16V
GND
C34
0.01U/NA
0402
+80-20%
50V
GND
VDD_MEM_IO
1
A
R34
1K/NA
0402
1%
VDD_MEM_IOREF
GND
GND
1
C27
0.1U/NA
0402
10%
16V
2
R32
1K/NA
0402
1%
C722
10U/NA
0805
6.3V
10%
2
C719
0.1U/NA
0402
10%
16V
2
2
R712
1K/NA
0402
1%
1
1
2
VDD_MEM_IOREF
1
1
E2
E1
F2
F1
H2
H1
J1
J2
G1
D
C
1
1
C718
0.1U/NA
0402
10%
16V
2
1
C721
1U/NA
0402
+80-20%
10V
2
C716
10U/NA
0805
6.3V
10%
1
GND
C57
10U/NA
0805
6.3V
10%
VMDB40
VMDB41
VMDB42
VMDB43
VMDB44
VMDB45
VMDB46
VMDB47
VQSB5
GND
1
C51
0.01U/NA
0402
+80-20%
50V
A12/RFU1
BA2/RFU2
J12
J11
H12
H11
F12
F11
E12
E11
G12
VDD_MEM_IO
1
2
GND
C65
0.1U/NA
0402
10%
16V
2
1
1
2
VDD_MEM_IOREF
C32
10U/NA
0805
6.3V
10%
1
C720
0.1U/NA
0402
10%
16V
2
C723
1U/NA
0402
+80-20%
10V
2
1
1
1
C46
0.1U/NA
0402
10%
16V
2
1
C63
0.1U/NA
0402
10%
16V
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQS3
VMDB32
VMDB33
VMDB34
VMDB35
VMDB36
VMDB37
VMDB38
VMDB39
VQSB4
HY5DU2832222F/NA
BGA144F_08MM_1
1
C724
10U/NA
0805
6.3V
10%
R713
1K/NA
0402
1%
R60
1K/NA
0402
1%
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSSQ_0
VSSQ_1
VSSQ_2
VSSQ_3
VSSQ_4
VSSQ_5
VSSQ_6
VSSQ_7
VSSQ_8
VSSQ_9
VSSQ_10
VSSQ_11
VSSQ_12
VSSQ_13
VSSQ_14
VSSQ_15
VSSQ_16
VSSQ_17
VSSQ_18
VSSQ_19
GND
VDD_MEM_IO
2
C740
10U/NA
0805
6.3V
10%
VDD_MEM_IO
B2
B4
B6
B7
B9
B11
D2
D11
E3
E10
F3
F10
H3
H10
J3
J10
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS2
A6
B5
A5
A4
B1
C2
C1
D1
A1
+2.5V_M10
GND
1
2
1
2
2
C741
0.1U/NA
0402
10%
16V
VDDQ_0
VDDQ_1
VDDQ_2
VDDQ_3
VDDQ_4
VDDQ_5
VDDQ_6
VDDQ_7
VDDQ_8
VDDQ_9
VDDQ_10
VDDQ_11
VDDQ_12
VDDQ_13
VDDQ_14
VDDQ_15
D6
D7
D9
J5
J6
J7
J8
K4
K9
D4
C8
C9
C10
D5
D8
E4
E9
F4
F9
G4
G9
H4
H9
J4
J9
A3
C3
C4
C5
A10
C6
C7
D3
D10
K3
K6
K7
K10
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS1
VSS/TH1
VSS/TH2
VSS/TH3
VSS/TH4
VSS/TH5
VSS/TH6
VSS/TH7
VSS/TH8
VSS/TH9
VSS/TH10
VSS/TH11
VSS/TH12
VSS/TH13
VSS/TH14
VSS/TH15
VSS/TH16
GND
C48
1U/NA
0402
+80-20%
10V
2
1
C49
10U/NA
0805
6.3V
10%
1
1
1
2
C47
0.01U/NA
0402
+80-20%
50V
R65
1K/NA
0402
1%
VDD_MEM_IOREF
VDD_0
VDD_1
VDD_2
VDD_3
VDD_4
VDD_5
VDD_6
VDD_7
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS0
VREF
MCL
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
G7
G8
H5
H6
H7
H8
G5
G6
E5
E6
E7
E8
F5
F6
F7
F8
K8
L9
VDD_MEM_IO
VDD_MEM_IO
R753
1K/NA
0402
1%
9
9
1
C45
0.1U/NA
0402
10%
16V
1
C62
1U/NA
0402
+80-20%
10V
GND
R751
1K/NA
0402
1%
VDD_MEM_IOREFM12
L12
M2
B3
GND
B10
G3
G10
K11
VDIMB_1
K12
L2
VCSB#1
L3
VCSB#1
2
C59
10U/NA
0805
6.3V
10%
2
1
C749
0.01U/NA
0402
+80-20%
50V
2
1
2
1
2
1
C752
0.1U/NA
0402
10%
16V
2
1
2
1
C754
0.1U/NA
0402
10%
16V
VMDB24
VMDB25
VMDB26
VMDB27
VMDB28
VMDB29
VMDB30
VMDB31
VQSB3
VRASB#
VCASB#
VWEB#
VCSB#0
VCLKB1
VCLKB#1
VCKEB
A0
A1
A2
A3
A4
A5
A6
A7
A8/AP
BA0
BA1
A9
A10
A11
DQM0
DQM1
DQM2
DQM3
RAS
CAS
WE
CS
CK
CK#
CKE
+2.5V_M10
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSSQ_0
VSSQ_1
VSSQ_2
VSSQ_3
VSSQ_4
VSSQ_5
VSSQ_6
VSSQ_7
VSSQ_8
VSSQ_9
VSSQ_10
VSSQ_11
VSSQ_12
VSSQ_13
VSSQ_14
VSSQ_15
VSSQ_16
VSSQ_17
VSSQ_18
VSSQ_19
GND
C748
1U/NA
0402
+80-20%
10V
VDD_MEM_IO
A12/RFU1
BA2/RFU2
D12
C12
C11
B12
A9
A8
B8
A7
A12
9
9
9
9
9
9
9
HY5DU2832222F/NA
BGA144F_08MM_1
GND
VDD_MEM_IO
C756
10U/NA
0805
6.3V
10%
VSS/TH1
VSS/TH2
VSS/TH3
VSS/TH4
VSS/TH5
VSS/TH6
VSS/TH7
VSS/TH8
VSS/TH9
VSS/TH10
VSS/TH11
VSS/TH12
VSS/TH13
VSS/TH14
VSS/TH15
VSS/TH16
VMDB16
VMDB17
VMDB18
VMDB19
VMDB20
VMDB21
VMDB22
VMDB23
VQSB2
+2.5V_M10
GND
2
VDD_MEM_IO
B2
B4
B6
B7
B9
B11
D2
D11
E3
E10
F3
F10
H3
H10
J3
J10
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQS3
E2
E1
F2
F1
H2
H1
J1
J2
G1
M4
M5
L5
M6
M7
L8
M8
M9
M10
M3
L4
L7
K5
L6
A2
G11
G2
A11
L1
K1
K2
M1
L10
L11
M11
2
VDDQ_0
VDDQ_1
VDDQ_2
VDDQ_3
VDDQ_4
VDDQ_5
VDDQ_6
VDDQ_7
VDDQ_8
VDDQ_9
VDDQ_10
VDDQ_11
VDDQ_12
VDDQ_13
VDDQ_14
VDDQ_15
D6
D7
D9
J5
J6
J7
J8
K4
K9
D4
C8
C9
C10
D5
D8
E4
E9
F4
F9
G4
G9
H4
H9
J4
J9
A3
C3
C4
C5
A10
C6
C7
D3
D10
K3
K6
K7
K10
VREF
MCL
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
VMDB8
VMDB9
VMDB10
VMDB11
VMDB12
VMDB13
VMDB14
VMDB15
VQSB1
U708
VMB0
VMB1
VMB2
VMB3
VMB4
VMB5
VMB6
VMB7
VMB8
VMB12
VMB13
VMB9
VMB10
VMB11
VDQMB#4
VDQMB#5
VDQMB#6
VDQMB#7
VRASB#
VCASB#
VWEB#
VCSB#0
VCLKB1
VCLKB#1
VCKEB
1
VDD_0
VDD_1
VDD_2
VDD_3
VDD_4
VDD_5
VDD_6
VDD_7
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS2
J12
J11
H12
H11
F12
F11
E12
E11
G12
9
2
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSSQ_0
VSSQ_1
VSSQ_2
VSSQ_3
VSSQ_4
VSSQ_5
VSSQ_6
VSSQ_7
VSSQ_8
VSSQ_9
VSSQ_10
VSSQ_11
VSSQ_12
VSSQ_13
VSSQ_14
VSSQ_15
VSSQ_16
VSSQ_17
VSSQ_18
VSSQ_19
2
1
C745
0.01U/NA
0402
+80-20%
50V
2
1
2
1
C744
0.1U/NA
0402
10%
16V
2
1
2
C753
1U/NA
0402
+80-20%
10V
G7
G8
H5
H6
H7
H8
G5
G6
E5
E6
E7
E8
F5
F6
F7
F8
K8
L9
+2.5V_M10
C750
10U/NA
0805
6.3V
10%
9
9
VDD_MEM_IOREFM12
L12
M2
B3
GND
B10
G3
G10
K11
VDIMB_0
K12
L2
VCSB#1
L3
VCSB#1
HY5DU2832222F/NA
BGA144F_08MM_1
GND
VDD_MEM_IO
A
VMDA56
VMDA57
VMDA58
VMDA59
VMDA60
VMDA61
VMDA62
VMDA63
VQSA7
VRASB#
VCASB#
VWEB#
VCSB#0
VCLKB0
VCLKB#0
VCKEB
VMDB0
VMDB1
VMDB2
VMDB3
VMDB4
VMDB5
VMDB6
VMDB7
VQSB0
9
VMB[0..13]
1
VDD_MEM_IO
B2
B4
B6
B7
B9
B11
D2
D11
E3
E10
F3
F10
H3
H10
J3
J10
A12/RFU1
BA2/RFU2
D12
C12
C11
B12
A9
A8
B8
A7
A12
9
9
9
9
9
9
9
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS1
A6
B5
A5
A4
B1
C2
C1
D1
A1
9
VQSB[0..7]
1
VDDQ_0
VDDQ_1
VDDQ_2
VDDQ_3
VDDQ_4
VDDQ_5
VDDQ_6
VDDQ_7
VDDQ_8
VDDQ_9
VDDQ_10
VDDQ_11
VDDQ_12
VDDQ_13
VDDQ_14
VDDQ_15
D6
D7
D9
J5
J6
J7
J8
K4
K9
D4
C8
C9
C10
D5
D8
E4
E9
F4
F9
G4
G9
H4
H9
J4
J9
A3
C3
C4
C5
A10
C6
C7
D3
D10
K3
K6
K7
K10
VSS/TH1
VSS/TH2
VSS/TH3
VSS/TH4
VSS/TH5
VSS/TH6
VSS/TH7
VSS/TH8
VSS/TH9
VSS/TH10
VSS/TH11
VSS/TH12
VSS/TH13
VSS/TH14
VSS/TH15
VSS/TH16
VMDA48
VMDA49
VMDA50
VMDA51
VMDA52
VMDA53
VMDA54
VMDA55
VQSA6
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS0
2
VDD_0
VDD_1
VDD_2
VDD_3
VDD_4
VDD_5
VDD_6
VDD_7
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQS3
E2
E1
F2
F1
H2
H1
J1
J2
G1
A0
A1
A2
A3
A4
A5
A6
A7
A8/AP
BA0
BA1
A9
A10
A11
DQM0
DQM1
DQM2
DQM3
RAS
CAS
WE
CS
CK
CK#
CKE
9
VDQMB#[0..7]
1
+2.5V_M10
VSS_0
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSSQ_0
VSSQ_1
VSSQ_2
VSSQ_3
VSSQ_4
VSSQ_5
VSSQ_6
VSSQ_7
VSSQ_8
VSSQ_9
VSSQ_10
VSSQ_11
VSSQ_12
VSSQ_13
VSSQ_14
VSSQ_15
VSSQ_16
VSSQ_17
VSSQ_18
VSSQ_19
VREF
MCL
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
VMDA40
VMDA41
VMDA42
VMDA43
VMDA44
VMDA45
VMDA46
VMDA47
VQSA5
M4
M5
L5
M6
M7
L8
M8
M9
M10
M3
L4
L7
K5
L6
A2
G11
G2
A11
L1
K1
K2
M1
L10
L11
M11
VMDB[0..63]
1
2
G7
G8
H5
H6
H7
H8
G5
G6
E5
E6
E7
E8
F5
F6
F7
F8
K8
L9
+2.5V_M10
1
9
HY5DU2832222F/NA
BGA144F_08MM_1
GND
2
9
VDD_MEM_IOREFM12
L12
M2
B3
GND
B10
G3
G10
K11
VDIMA_1
K12
L2
VCSA#1
L3
VCSA#1
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS2
J12
J11
H12
H11
F12
F11
E12
E11
G12
U1
VMB0
VMB1
VMB2
VMB3
VMB4
VMB5
VMB6
VMB7
VMB8
VMB12
VMB13
VMB9
VMB10
VMB11
VDQMB#0
VDQMB#1
VDQMB#2
VDQMB#3
VRASB#
VCASB#
VWEB#
VCSB#0
VCLKB0
VCLKB#0
VCKEB
2
VMDA24
VMDA25
VMDA26
VMDA27
VMDA28
VMDA29
VMDA30
VMDA31
VQSA3
VRASA#
VCASA#
VWEA#
VCSA#0
VCLKA1
VCLKA#1
VCKEA1
VMDA32
VMDA33
VMDA34
VMDA35
VMDA36
VMDA37
VMDA38
VMDA39
VQSA4
1
D12
C12
C11
B12
A9
A8
B8
A7
A12
9
9
9
9
9
9
9
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS1
A6
B5
A5
A4
B1
C2
C1
D1
A1
2
VMDA16
VMDA17
VMDA18
VMDA19
VMDA20
VMDA21
VMDA22
VMDA23
VQSA2
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS0
1
E2
E1
F2
F1
H2
H1
J1
J2
G1
A0
A1
A2
A3
A4
A5
A6
A7
A8/AP
BA0
BA1
A9
A10
A11
DQM0
DQM1
DQM2
DQM3
RAS
CAS
WE
CS
CK
CK#
CKE
2
VMDA8
VMDA9
VMDA10
VMDA11
VMDA12
VMDA13
VMDA14
VMDA15
VQSA1
U709
M4
M5
L5
M6
M7
L8
M8
M9
M10
M3
L4
L7
K5
L6
A2
G11
G2
A11
L1
K1
K2
M1
L10
L11
M11
1
J12
J11
H12
H11
F12
F11
E12
E11
G12
VMA0
VMA1
VMA2
VMA3
VMA4
VMA5
VMA6
VMA7
VMA8
VMA12
VMA13
VMA9
VMA10
VMA11
VDQMA#4
VDQMA#5
VDQMA#6
VDQMA#7
VRASA#
VCASA#
VWEA#
VCSA#0
VCLKA1
VCLKA#1
VCKEA
1
A12/RFU1
BA2/RFU2
VMDA0
VMDA1
VMDA2
VMDA3
VMDA4
VMDA5
VMDA6
VMDA7
VQSA0
2
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQS3
VSS/TH1
VSS/TH2
VSS/TH3
VSS/TH4
VSS/TH5
VSS/TH6
VSS/TH7
VSS/TH8
VSS/TH9
VSS/TH10
VSS/TH11
VSS/TH12
VSS/TH13
VSS/TH14
VSS/TH15
VSS/TH16
D6
D7
D9
J5
J6
J7
J8
K4
K9
D4
C8
C9
C10
D5
D8
E4
E9
F4
F9
G4
G9
H4
H9
J4
J9
A3
C3
C4
C5
A10
B
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS2
VREF
MCL
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
G7
G8
H5
H6
H7
H8
G5
G6
E5
E6
E7
E8
F5
F6
F7
F8
C
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS1
A6
B5
A5
A4
B1
C2
C1
D1
A1
2
VDD_MEM_IOREFM12
L12
M2
B3
GND
B10
G3
G10
K11
9
VDIMA_0
K12
L2
VCSA#1
L3
VCSA#1
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS0
2
A0
A1
A2
A3
A4
A5
A6
A7
A8/AP
BA0
BA1
A9
A10
A11
DQM0
DQM1
DQM2
DQM3
RAS
CAS
WE
CS
CK
CK#
CKE
2
U3
M4
M5
L5
M6
M7
L8
M8
M9
M10
M3
L4
L7
K5
L6
A2
G11
G2
A11
L1
K1
K2
M1
L10
L11
M11
2
VMA0
VMA1
VMA2
VMA3
VMA4
VMA5
VMA6
VMA7
VMA8
VMA12
VMA13
VMA9
VMA10
VMA11
VDQMA#0
VDQMA#1
VDQMA#2
VDQMA#3
VRASA#
VCASA#
VWEA#
VCSA#0
VCLKA0
VCLKA#0
VCKEA
VDQMB#[0..7]
VQSB[0..7]
2
9
VMA[0..13]
2
VMDB[0..63]
VRAM
1
VRASA#
VCASA#
VWEA#
VCSA#0
VCLKA0
VCLKA#0
VCKEA
9
2
9
9
9
9
9
9
9
9
VQSA[0..7]
1
D
VDQMA#[0..7]
2
VMA[0..13]
3
1
VQSA[0..7]
4
9
2
VDQMA#[0..7]
VMDA[0..63]
2
5
VMDA[0..63]
C25
10U/NA
0805
6.3V
10%
Title
8050 MOTHER B/D
Size
C
Date:
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
10
of
34
51
48
44
R862 33/NA 1
R873 33
1
R875 33
1
2 0402
2 0402
2 0402
ITP_CPU# 1
HCLK_MCH#
HCLK_CPU#
5%
10
11
12
13
16
17
18
R825 33
1
R816 33
1
R826 33
1
R827 33
1
PCICK_1394
PCICK_KBC
2
2
2
2
PCICLK_F0
PCICLK_F1
PCICLK_F2
5
6
7
R824 33
1
2 0402
VDDPCI0
VDDPCI1
66MHZ_OUT0/3V66_2
66MHZ_OUT1/3V66_3
66MHZ_OUT2/3V66_4
GND0
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
21
22
23
R829 33
1
R818 33
1
R819 33/NA 1
2 0402
2 0402
2 0402
42
IREF
1
5%
R876
C793
10P/NA
0402
+/-10%
50V
C792
10P/NA
0402
+/-10%
50V
13
C799
10P/NA
0402
+/-10%
50V
C795
10P
0402
+/-10%
50V
66M_MCH
66M_ICH
66M_AGP
4
14
7
R865 1
33
2 0402
66M_DEFSSCLK 4
33
2 0402
PCICLK_1394
18
PCICK_KBC
33
2 0402
PCICLK_KBC
22
R817 1
C826
10P/NA
0402
+/-10%
50V
GND
C798
10P
0402
+/-10%
50V
C791
10P
0402
+/-10%
50V
GND
1
1
C812
0.1U
0402
10%
16V
1
2
2
C821
0.1U
0402
10%
16V
C803
0.1U
0402
10%
16V
C809
0.1U
0402
10%
16V
GND
C811
2.2U
0603
+/-10%
GND
13
48
2 0402855_TV_CRMA
AS
ISET
BCO
2
R68
8.2K
0402
5%
R56 1 0/NA
0402
5%
C64
0.1U
0402
+80-20%
50V
2
9
19
20
21
22
23
24
25
26
27
28
29
30
31
32
2
8
7
2
GND
C53
0.1U
0402
+80-20%
50V
R54
330
0402
5%
DVOBCINTR#
4
1
1
12
49
DVDD_0
DVDD_1
DVDD_2
18
44
45
2
R53
8.2K/NA
0402
5%
1
1
+3V
GND
R71
330/NA
0402
5%
GND
GND
Default NTSC
CH7011A
PQFP64_0.5MM
A
GND
+3V
+3VA_TV
L25
GND
2
2012
C39
10U
6.3V
0805
10%
10U
6.3V
0805
10%
1
1
120Z/100M
C73
C40
0.1U
0402
+80-20%
50V
2
C42
0.1U
0402
+80-20%
50V
1
1
C71
0.1U
0402
+80-20%
50V
2
1
C43
0.1U
0402
+80-20%
50V
2
1
C70
0.1U
0402
+80-20%
50V
2
10U
6.3V
0805
10%
GND
1
1
+3V
C38
GND
2
+3V
GND
C61
0.1U
0402
+80-20%
50V
Title
8050 MOTHER B/D
Size
C
Date:
4
B
+3V
GND
RP2
75*4
1206
C18
100P
0402
10%
50V
2
GND
RESET*
C/HSYNC
R49
330
0402
5%
5
6
7
8
0
P-OUT
34
40
1 R766
4
R37 1 140
2
R73 1 0/NA
2
DVOCFLDSTL
0402 5%
10
35
47
XO
NC0
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
NC10
NC11
NC12
NC13
NC14
NC15
4
2
46
XI/FIN
DVOCD[0..11]
1
43
DVOCD0
DVOCD1
DVOCD2
DVOCD3
DVOCD4
DVOCD5
DVOCD6
DVOCD7
DVOCD8
DVOCD9
DVOCD10
DVOCD11
63
62
61
60
59
58
55
54
53
52
51
50
1
XOUT
D[0]
D[1]
D[2]
D[3]
D[4]
D[5]
D[6]
D[7]
D[8]
D[9]
D[10]
D[11]
GPIO[0]
GPIO[1]
SPC
SPD
1
C20
100P
0402
10%
50V
33
2
42
CVBS/B
CVBS
DGND_0
DGND_1
DGND_2
15
14
XIN
C/R
Y/G
2
2
TV_GND
5
1608
DVOCD[0..11]
H
V
AGND_0
AGND_1
AGND_2
1
1
1
2
1
TV_DDCK
TV_DDDA
2
0
1
2 0402855_TV_LUMA
2
R704
1
2 0402855_TV_COMP
1 R763
ATI_TV_CRMA 7
2
C21
270P
0402
+/-10%
50V
1 R1240
0
ATI_TV_LUMA 7
1
1
C15
270P
0402
+/-10%
50V
2
1
2
1
2
C782
270P
0402
+/-10%
50V
0
1
1
C19 1
0402
C56
20P
0402
+/-10%
50V
GND
4 POUT/DET#
R47
8.2K/NA
13 TV_PCIRST#
0402
5%
GND
2
L20
C17 1
0402
1
GND
4
3
2
1
L19
TXC8X4.5
+3V
ATI_TV_COMP 7
1
1
2
3
4
5
6
7
2 33P
25V
+/-10%
2
120Z/100M
2 33P
25V
+/-10%
2
120Z/100M
2
120Z/100M
2 33P
25V
+/-10%
855_TV_COMP39
CVBS1
36
14.318MHZ
C52
20P
0402
+/-10%
50V
WHEN USE INTEGRATE VGA
ADD R763 R766 U2 R1240
Q712
2N7002
SOT23_FET
288227002006
2
3
3
J704
D
USE 20P 5%
2
G
1
2
1
2
2
1
3
D4
BAV99/NA
C344 1
0402
L56 1
GND1
GND2
S
4 MI2CDATA
GND
D
S
TV_GND
D3
TV_GND
BAV99/NA
GND
10K
0402
5%TV_DDDA
855_TV_CRMA 38
855_TV_LUMA 37
XOUT
1 1M/NA 2
5%
X701
1
2
2
R52
0402
2
2
R46
75
0402
5%
XCLK
XCLK*
6
11
64
1
1
R48
75/NA
0402
5%
+3V
4
5
4 DVOCHSYNC
XIN 4 DVOCVSYNC
VREF
16
17
41
4 DVOCCLK
4 DVOCCLK#
855_TV_COMP
CVBS1
+3V
57
56
VDD
U2
3
4 DVOVREF
TV_DDCK
AVDD_0
AVDD_1
1
4 MI2CCLK
10K
0402
5%
D
D
S
2
S
Q702
2N7002
SOT23_FET
288227002006
TV_GND
GND1
GND2
+3VCLKANA
2 120Z/100M
R63
0
0805
+3VA_TV +3V
GND_0
GND_1
G
1
C67
0.1U
0402
+80-20%
50V
R935
7P/RA
SUYIN
33007S-07T1-C
331870007007
GND
1
2
+3V
+3V
A
C823
2.2U
0603
+/-10%
+1.5V
R807
Place near
to 7011.
GND
1
2
3
4
5
6
7
C822
0.1U
0402
10%
16V
GND
+3V
DVOVREF
BAV99/NA
C802
0.1U
0402
10%
16V
CLK_PCI_STOP#
+3V
D719
1608
C827
0.1U
0402
10%
16V
L722 1
TV ENCODER
B
+3VCLK66
2 120Z/100M
GND
PCICK_1394 R828 1
2
5%
GND
L726 1
GND
CLK_CPU_STOP#
5%
PCICLK_ICH
C788
2.2U
0603
+/-10%
C
390
0402
1%
CLK_PD#
2
0402
C800
0.1U
0402
10%
16V
2
1
R881 0
C801
0.1U
0402
10%
16V
+3V
5%
2
0402
C778
0.1U
0402
10%
16V
1
13 STOP_PCI#
1
R887 0/NA
1608
GND
2
WHEN USE INTEGRATE VGA R887/NA
3,13,31 STOP_CPU#
2 120Z/100M
2
2
0402
PCICLK_FWH 23
PCICLK_MINIPCI 19
PCICLK_CARD 17
PCICLK_LAN 16
C790
10P
0402
+/-10%
50V
GND
1
1
R820 0
C797
10P
0402
+/-10%
50V
+3VCLKPCI
L718 1
GND
ICS950810
TSSOP56
284595081201
VTT_PWRGD#
C789
10P
0402
+/-10%
50V
GND
+3V
+3V
DEFSSCLK
13 SUSA#
C796
10P
0402
+/-10%
50V
GND
CLK_ITP_CPU# 2
HCLK_MCH#
4
HCLK_CPU#
2
0402
0402
0402
0402
33
24
3V66_0
66MHZ_IN/3V66_5
CLK_ITP_CPU 2
HCLK_MCH
4
HCLK_CPU
2
1
VDDCPU0
VDDCPU1
R889 2 0402
0/NA
1
5%
2
ITP_CPU 1 R888
2 0402
HCLK_MCH
0/NA
HCLK_CPU
2
2 0402
2 0402
2 0402
1
R861 33/NA 1
R872 33
1
R874 33
1
2
R821 0
PCICLK0
PCICLK1
PCICLK2
PCICLK3
PCICLK4
PCICLK5
PCICLK6
VDDREF
VDD48
VDDA
VDD3V66_0
VDD3V66_1
52
49
45
C239
2.2U
0603
+/-10%
1
2
0402
MULTSEL0*
VTT_PWRGD#
GND
2
1
31 CORE_CLKEN#
CPUCLKC0
CPUCLKC1
CPUCLKC2
D
C819
0.1U
0402
10%
16V
2
R831
10K
0402
5%
C
*PD#
PCI_STOP#
CPU_STOP#*
4
9
15
20
27
31
36
41
47
+3V
CPUCLKT0
CPUCLKT1
CPUCLKT2
C820
0.1U
0402
10%
16V
1
+3VCLKPCI
8
14
C262
0.1U
0402
10%
16V
20
13
2
46
50
14M_CODEC
14M_ICH
2
+3VCLKCPU
1
GND
FS0
FS1
FS2
1608
1
R869
4.7K/NA
0402
5%
REF
33
DVDDV
1
2
+3VCLK66
1
37
26
19
32
+3VCLKANA
2
R848
4.7K
0402
5%
2
R894
4.7K
0402
5%
2
R860
4.7K
0402
5%
1
1
1
1
1
2
FS0
FS1
FS2
R853
4.7K/NA
0402
5%
2
+3V
R864
4.7K/NA
0402
5%
54
55
40
0402
CLK_PD#
1 R830
2 8.2K/NA
25
CLK_PCI_STOP# 34
1 R882
2 8.2K/NA
CLK_CPU_STOP#53
0402 2 8.2K/NA
1
R886
0402
R863
8.2K 0402 43
1
2
+3V
VTT_PWRGD# 28
5%
GND
56
2 120Z/100M
2
FS0
FS1
FS2
+3V
SDATA
SCLK
DEFSSCLK
R859 1
1
R858 33
35
3V66_1/VCH_CLK
29
30
6,14 SMBDATA
6,14 SMBCLK
1
1
TXC8X4.5
C794
27P
0402
5%
+3VCLKCPU
L43
GND
2
14.318MHZ
+3V
SIO_48M
19
USBCLK_ICH 14
48M_DREFCLK 4
2 0402
50V +/-10%
2
C804
27P
0402
5%
C825 1
10P/NA
2 0402
5%
2
0402 5%
1
Reserved
UNIT: MHz
X2
GND
10402 5%
10402 5%
10402 5%
2
Reserved
3
2
Reserved
1
1
2
1
2
R895 2 33
R877 2 33
R878 2 33
39
38
48MHZ_USB
48MHZ_DOT
1
1
0:0V
1:3.3V
X1
2
U712
X703
1
Reserved
2 49.9/NA 0402
2 49.9 0402 1%
2 49.9 0402 1% GND
2
TCLK/2
Reserved
1
1
1
1
TCLK/2
Reserved
R870
R892
R890
2
TCLK/2
0
ITP_CPU
HCLK_CPU
HCLK_MCH
1
1
1
2 49.9/NA 0402
2 49.9 0402 1%
2 49.9 0402 1%
1
0
Mid
1
1
1
1
Mid
Layout note: Place crystal within
500 mils of CLK Gen.
2
Tristate
R871
R893
R891
1
33.33
Tristate
2
66.66
Tristate
ITP_CPU#
HCLK_CPU#
HCLK_MCH#
1
133.33
0
2
1
0
1
1
2 0402
50V +/-10%
2 0402
50V +/-10%
2 0402
50V +/-10%
2
X
Mid
C834 1
10P/NA
C833 1
10P/NA
C830 1
10P/NA
1
33.33
2
33.33
66.66
1
66.66
200.00
2
100.00
0
1
1
1
2
0
X
1
X
2
33.33
1
PCI*
2
66.66
1
166.66
2
CPU
0
1
FS0
0
2
FS1
X
Mid
1
CLOCK SYNTHERIZER
FS2
2
D
2
2
3V66[5:0]
3
1
001
4
2
5
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
11
of
34
5
4
3
2
1
Pannel ID
1
1
1
2
4
R370
0/NA
0402
5%
1
0
2
S
1
1
WHEN USE INTEGRATE VGA
ADD R22
DEL R20
ENABKL_VGA_C
3
Q4
GND
2
R323
2
0402
+3V
GND
R19 1 10K
0402
5%
2
C14
0.22U
0402
+80-20%
16V
NEED USE X7R ?
Q11
2N7002
SOT23_FET
Q9
SI4835DY
SO8
4
1
DTC144TKA/NA
288202240001
GND
D
1
10K/NA
0402
5%
2
2A
FUSE_1206
1
2
3
R20 1 0/NA
0402
5%
ENAVDD
D
F1
1
5
6
7
8
C12
0.1U
0402
+80-20%
50V
FPVDEN
R16
1M
2
0402 5%
2
2
2
2
20K/NA
0402
1%
ENABKL_VGA
7
R4
R399
MA/11PX1/RA
ACES
87213-1100
2
2
0
1
+5V_H
2
1
GND1
GND2
120Z/100M
2012
1
1
G
R365
0/NA
0402
5%
10K/NA
0402
5%
FPVEDEN R22 1 0
0402
5%
1
R398
1
2
1
1
1
0
1
R1
L18
0
0
+3VS
D
S
8
7
6
5
+3V
1
120OHM/100MHZ
273000610025
1
2
3
4
+5V_H
2
1
2
3
4
5
6
7
8
9
10
11
1
2
120Z/100M/NA
2 120Z/100M
2 1608
120Z/100M
FA2
BATT_R#
BATT_G#
AC_POWER#
BATT_POWER#
1
PANEL TYPE
J1
2
2
1
2
INVERTER
C7
GND
0.1U
0402
+80-20%
50V
C6
4.7U/NA
0805
+80-20%
GND
VDD3S
C8
0.1U/NA
0402
+80-20%
50V
2012
Inverter
1
1
L10 1
L9 1
1608
C340
1000P
0402
+/-20%
50V
2
2
L8
ENABKL_VGA_C
1 R5
2 0402
22,23 BATT_R#
22,23 BATT_G#
22,23 AC_POWER#
23 BATT_POWER#
LCD_ID2
0
G
+5V_H
BLADJ 0
4,22 BLADJ
LCD_ID1
0
D
C339
0.01U
0402
+80-20%
50V
L17 1
2
2012
120Z/100M
DVMAIN
D
LCD_ID0
S
1
Display (CRT / LCD)
1
5%
C11
1U
0402
+80-20%
10V
L15
1
2
120Z/100M
2012
0
GND
R383
H8_ENABKL
22 H8_ENABKL
WHEN USE INTEGRATE VGA
ADD R384
DEL R386
ENABKL
Cover Switch
D1
2
5%
BAT54
10K
0402
5%
D16
R373
470K
0402
5%
R379
1
3
1
2
1
1
0/NA 2
5%
+3V
1
R386 1
0402
+3VS
R380
2
7
1 ENABKL_VGA
3
2
4 ENABKL_NB
2
1
C
0
R2
470K/NA
0402
R3
5%
1
1
10K
0402
5%
22 H8_LIDSW#
4 TXCLK+
4 TXCLK4 TXOUT3+
4 TXOUT34 TXOUT2+
4 TXOUT2-
SW1
2
1K 0402
1
When inverter use +3V ADD R323
and DEL Q4,R398,R399,R4
2
1
2
3
4
5%
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
To SB
PANEL_ID2
7,14,24
PANEL_ID1
7,14,24
PANEL_ID0
7,14,24
TXOUT1+
TXOUT1-
4
4
TXOUT0+
TXOUT0-
4
4
C
GND1
GND2
30V/0.1A
DT006-P11AA-A
C385
0.1U
0402
+80-20%
50V
MA/15PX2/ST
ACES
88107-300X
GND
D15
3
4,13,17,25,31 PWROK
2
2
0/NA
0402
5%
H8_LIDSW#
BAT54
7,14,24 PANEL_ID3
ESD0805A/NA
+3V
R372
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
When inverter use +5V ADD
Q4,R398,R399,R4 and DEL R323
2
0
0402
5%
+3V
D2
R384 1
0402
1
J2
1
GND
BAT54
GND
Check Power Plane is 3VS or 5VS
CRT
G
R1
R6
1
0402
R10 1
0402
4.7K 2
5%
4.7K 2
5%
+5V_H
2
D702
0
0805
1
2N7002 D
2
L12
2 120Z/100M 1608
1
GND
R703
3
1 0/NA
2 0402
R138
S
1 0/NA
2 0402
6
Q5
1
6
2
ATI_CRT_DDDA 7
855_CRT_DDDA 4
5
4
SMS05C/NA
SSOT6
CHAGND
B
GND
8
+5V_H
ESD41A/NA
1K
5%
2
J702
CRT_IN#
2 120Z/100M 1608
2N7002 D
L7
1
2 120Z/100M 1608
2N7002 D
R136
S
1 0/NA
2 0402
R137
S
1 0/NA
2 0402
Q8
3 CON_BLUE
855_CRT_VSYNC 4
ATI_CRT_VSYNC 7
2
ATI_CRT_HSYNC 7
855_CRT_HSYNC 4
CHAGND
Q1
1
SLVU2.8/NA
SOT23N
Q7
3 CON_GREEN
CP2
CHAGND
17
2
47PX4
1206
CON_DDCK
15
5
10
14
4
9
13
3
8
12
2
7
11
1
6
13,24
L11 1
5
6
7
8
0402
5%
2
BEAD_600Z/100M
0603D
C10
100P
0402
+/-10%
50V
R8
0/NA 2
2
1
L13
1
1
R9
1
0402
Q2
1
G
7
D
S
CHAGND
G
CHAGND
5
D
S
B
CON_DDDA
3
2N7002 D
0
0805
U702
855_CRT_DDCK 4
ATI_CRT_DDCK 7
4
2
D
S
1
R785
S
Q6
G
CHAGND
D
S
1
+5V_H
WHEN USE INTEGRATE VGA DEL
R785 R138 R136 R137 R139 R135
R783
4
3
2
1
CON_VSYNC
CON_HSYNC
CON_DDDA
CON_BLUE
CON_GREEN
CHAGND
CRT_BLUE
1
1
1
1
1 0/NA
2 0402
L58
CRT_GREEN
R135
1 0/NA
2 0402
2 220Z/100M
2 220Z/100M
2 220Z/100M
2
L74 1608 120Z/100M
CRT_RED
R783
1 0/NA
2 0402
L59
L60
CHAGND
Q3
1
855_CRT_BLUE 4
ATI_CRT_BLUE 7
3 CON_RED
2
SLVU2.8/NA
SOT23N
ATI_CRT_GREEN 7
855_CRT_GREEN 4
CHAGND
ATI_CRT_RED 7
855_CRT_RED 4
4
3
2
1
CON_RED
R139
SLVU2.8/NA
SOT23N
16
5
6
7
8
RP1
75*4/NA
1206
D701
1
CHAGND
2
3
4
5
6
CP1
47PX4/NA
1206
C1
1
50V 10%
C2
1
50V 10%
C4
1
50V 10%
2 47P
0402
2 47P
0402
2 47P
0402
A
5
6
7
8
15P/3R-FM
7312S-15G2T-DC
SUYIN
4
3
2
1
A
GND
7
8
CHAGND
GND
ESD41A/NA
CHAGND
Title
8050 MOTHER B/D
CLOSE TO CRT CONNECTOR
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
12
of
34
3
1
1
22P 0402
2
1
2
1
1
2
V5REF_SUS
C221
0.1U
0402
10%
16V
74AHC08_V
TSSOP14
22
0402
5%
10U
6.3V
0805
10%
C277
0.1U
0402
10%
16V
C245
1U
0402
10V
C206
1U
0402
10V
C213
0.1U
0402
10%
16V
C306
0.1U
0402
10%
16V
1
C275
0.1U
0402
10%
16V
1
C305
0.1U
0402
10%
16V
1
C261
0.1U
0402
10%
16V
1
1
C233
C307
0.1U
0402
10%
16V
2
ICH_VGATE
13
7
C210
1U
0402
10V
C308
0.1U
0402
10%
16V
GND
A
GND
2
+VHI_ICH
1
1
VDD1.5
R932
10K
0402
5%
RTC_X2
+/-10%
22
A20GATE
+LAN_1.5V
R931 1
A20_GATE
2 0
1
0805
2 R234
0/NA
0805C_DFS
2 R245
0/NA
0805C
C229
10U
6.3V
0805
10% GND
C208
0.1U
0402
10%
16V
C260
1U
0402
10V
1
+1.5V
+3V
2 0/NA
C824
0.1U
0402
10%
16V
2
1
GND
R311 1
1
RTC_X1
R938
X704 10M
0402
32.768KHZ
5%
GND
C269
0.1U
0402
10%
16V
Title
8050 MOTHER B/D
GND
Size
C
Date:
5
BAT54
GND
2
2
2
1
2
50V
C207
0.1U
0402
10%
16V
D10
VDD3S
R306
11
1
C861
1
+/-10%
4
50V
22P 0402
2
V5REF
R164
1K/NA
0402
5%
GND
22,26,27
Spacing other signal 25 mils
U9D
12
31 VRMPWRGD
2
C855
1
GND
SUSC#
R397
1K
0402
5%
BAT54
VDD3S
+3V
GND
R296
10M
0402
5%
1
GND
C298
1U
0402
10V
VDD5
D11
BAW56
288100056017
PWROK
A
C225
0.1U
0402
10%
16V
VDD5S
2
C315
0.1U
0402
10%
16V
RTC_VBIAS
1.25MM/ST/MA-2
ACES
85205-0200
3
C228
10U
0805
6.3V
10%
+3V
R252
1K
0402
5%
1
1
2
1
1
2
J710
2
SLP_S5#
+3V
2
180K
0402
5%
C841
0.047U
0402
10%
25V
D704
SLP_S4#
RTC_RST#
2 R233
0/NA
0805C
2
GND
GND
2
2
2 R223
0/NA
0805C_DFS
1
0805
+3VS
+5V
5%
+LAN_3V
R926
4.7K
0402
5%
2
R288
1
2
GND
C856
1U
0402
+80-20%
10V
14
R917
1K
0402
5%
1
C311
4.7U
0805
+80-20%
INTRUDER#
2
0402
+3V
VDD3S
2
D12
BAV70LT1
288100070006
1
1
AME8800AEEV/NA
SOT25
1
GND
1
R287 10K
B
GND
ICH4-M
BGA360_25_36
+VCC_RTC
1
14
14
14
14
24
14,20
11
3
SMLINK0
SMLINK1
SMB_DATA
SMB_CLK
SMBALERT#
SBSPKR
14M_ICH
1
AC3
AB1
AB4
AC4
AA5
H23
J23
2 10K/NA SB_SUSST#
5%
LDRQ1#
2 10K/NA
5%
R939 1
0402
R270 1
0402
CPU_THRMTRIP# 14
SB_THRM#
22
1
2
2
+3V
1
DPRSLPVR
DPSLP#
SB_SUSST#
ICH_VGATE
C
2
SMILINK 0
SMLINK 1
SMBDATA
SMBCLK
SMBALERT#/GPIO 11
SPKR
CLK14
ICH_RI#
16
ICH_PWRBTN# 22
ICH_SYS_RESET# 14
ICH_LAN_RST# 14
ICH_BATLOW# 14
SB_SUSST#
7
2
SUSCLK
INTRUDER#
RTCRST#
PWROK
RSMRST#
VCCRTC
VBIAS
RTCX1
RTCX2
SLP_S4#
SLP_S5#
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
1
LAD0/FWH0
LAD1/FWH1
LAD2/FWH2
LAD3/FWH3
Y4
Y2
AA2
Y1
AA1
Y3
Y5
AB2
AB3
V19
W20
V1
VCCPLL
D1
C23
C21
C19
C17
C15
C6
B22
B20
B18
B16
B12
B9
A22
A20
A18
A16
A4
A1
1
SLP_S3#
SLP_S4#
SLP_S5#
RI#
PWRBTN#
SYS_RESET#
LANRST#
BATLOW#/TP[ 0 ]
SUS_STAT#/LPCPD
VGATE/VRMPWRGD
THERMTRIP#
THRM#
2
2
5
C219
1U
0402
10V
GND
LFRAME#/FWH4
LDRQ0#
LDRQ1#
3
NC0
10U
6.3V
0805
10%
SERIRQ
1
1
GND
7,24
TP705
ICH4-M
BGA360_25_36
+VCC_RTC
4
NC1
2
C289
2.2U/NA
0603
+/-10%
VOUT
VIN
GND0
2
2
1
3
2
1
17,22,23,25
STP_AGP#
1
U5
VDD5S
14,31 DPRSLPVR
2,4 HDPSLP#
RTC_VBIAS
RTC_X1
RTC_X2
R274 1
0/NA 2 5% V20
0402G_DFS
U23
SUSB#
1
2
1
VDD3S
16,17,19,24
21,24
24
24
V_CPU_IO
V_CPU_IO
V_CPU_IO
C22
1
4,12,17,25,31 PWROK
22,25 RSMRST#
+VCC_RTC
AA4
W6
W7
AB6
AA6
AB5
Y6
AC7
AC6
24
PCLKRUN#
SPK_OFF
GPIO27
GPIO28
C853
0.1U
0402
10%
16V
V5REF_SUS
P14
U18
AA23
+1.5V
3
4 SUSCLK
T2
R4
T4
U2
GPIO27
GPIO28
CPUPERF#
C304
0.1U
0402
10%
16V
C274
V5REF1
V5REF2
E15
1
SUSCLK
INTRUDER#
RTC_RST#
B
R276
0/NA
0805_DFS
LAD0
LAD1
LAD2
LAD3
C3_STAT#
VCCLAN1_5/VCCSUS1_5
VCCLAN1_5/VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
VCCSUS1_5
E7
V6
V5REF_SUS
2
LAD[0..3]
19,22,23 LAD[0..3]
STOP_PCI#
11
SUSA#
11
STOP_CPU#
3,11,31
0402
1
2 R896 0
SUSA#
V5REF
+VCCP
1
MINIPCI_PME# 19
22,24
22,24
C224
0.1U
0402
16V
GND
4,7,24
2
0/NA 2 R915
1
0402G_DFS 5%
0/NA 2 R908
1
0402
Y21
W18
W19
T3
Y20
J21
AC2
V2
W1
W4
SCI#
WAKE_UP#
C212
0.1U
0402
16V
1
18
T5
U3
U4
STP_PCI/GPIO 18
SLP_S1#/GPIO 19
STP_CPU#/GPIO 20
C3_STAT#/GPIO 21
CPUPERF#/GPIO 22
SSMUXSEL/GPIO 23
CLKRUN#/GPIO 24
GPIO 25
GPIO 27
GPIO 28
V5
W3
AGPBUSY#
22,24
22,24
1
PCI_PME#
LDRQ1#
GPIO 12
GPIO 13
STPCLK#
A20M#
CPUSLP#
CPUPWRGD
INTR
NMI
SMI#
IGNNE#
A20GATE
RCIN#
FERR#
INIT#
KBD_US/JP#
EXTSMI#
10U
6.3V
0805
10%
C211
0.1U
0402
16V
2
19,22,23 LFRAME#
19
LRDQ0#
AGPBUSY#/GPIO 6
GPIO 7
GPIO 8
0402
1
HSTPCLK#
HSTPCLK#
HA20M#
HSLP#
HPWRGD
HINTR
HNMI
HSMI#
HIGNNE#
APICCLK
APICD_0
APICD_1
2 R880 0
1
2
2 10K
5%
R2
R3
V4
1
1
C223
0.1U
0402
16V
1
Q704
R222 1
0402
J19
H19
K20
F6
F7
E12
R6
T6
U6
G18
E13
F14
E20
11
2
TV_PCIRST#
1
1
2
JP_NET10
2
2
PCI_PME#
1
0
V23
AB23
U21
1 R934
2 0 Y23
AB22
V21
W23
W21
A20_GATE
Y22
U22
22 HRCIN#
AA21
14 CPU_FERR#
0/NA 2
1
V22
2,23 HINIT#
R928 0402G_DFS 5%
J22
14,17,19,22 SERIRQ
R1
DTC144TKA
SOT23AN_1
288202240001
SB_PME#
3
2
+LAN_1.5V
VDD1.5
U715D
2
2
R867 0/NA
0805C_DFS
FWH_PCIRST# 23
+3V
R240 1
1
+1.5V
D
2
19
VCC1_5
VCC1_5
VCC1_5
VCC1_5
VCC1_5
VCC1_5
VCC1_5
VCC1_5
VCCHI0
VCCHI1
VCCHI2
VCCHI3
1
MINIPCI_PCIRST#
JL9
1
2
JP_NET10
74AHC08_V
TSSOP14
GND
+3V
1
+VHI_ICH
JL8
1
2
JP_NET10
2
7
CARDBUS_PME# 17
GND
2
U9C
9
JL10
2
2
2
2
2
2
2
2
K10
K12
K18
K22
P10
T18
V14
U19
L23
M14
P18
T22
CARD_PCIRST# 17
2
1
2
JP_NET10
1
16,17,18,19
2
PCI_C/BE#[0..3]
VCCLAN3_3/VCCSUS3_3
VCCLAN3_3/VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
VCCSUS3_3
1
PCI_C/BE#3
PCI_C/BE#2
PCI_C/BE#1
PCI_C/BE#0
GND
JL7
8
2 8.2K/NA
1
+1.5V
+3V
C285
0402 1 R904
2
1
LAN_PCIRST# 16
C244
0.1U
0402
16V
GND
0/NA 2 R921
0402
C3_STAT#
E9
F9
E11
F10
V9
V8
V7
F15
F16
F17
F18
K14
D22
AC23
AC18
AC14
AC10
AC5
AC1
AB20
AB7
AA22
AA16
AA12
AA9
AA3
Y19
Y7
W22
W8
W5
V17
V15
V3
U20
T23
T19
T1
R21
R18
R5
P22
P20
P13
P11
P3
N23
N21
N19
N14
N13
N12
N11
N10
N5
M13
M12
M11
M1
M22
L21
L14
L13
L12
L11
L10
K23
M20
K19
K13
K11
K3
J6
H1
G21
G19
G6
G3
F8
E22
E21
E19
E18
E17
E16
E14
E10
D23
D21
D19
D17
D15
D12
D8
D4
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
2
JL6
1
2
JP_NET10
74AHC08_V
TSSOP14
C253
0.1U
0402
16V
2
5
KBC_PCIRST# 22
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
VCC3_3
+LAN_3V
VDD3S
2
PCIRST#
C
SB_CARD_PME# 1
C246
0.1U
0402
16V
MCH_PCIRST# 4
JL5
1
2
JP_NET10
6
10
CARDBUS_PME#
1
1
7
4
ICH4-M
BGA360_25_36
PCI_PME# R920 1
0/NA 2 5%
0402G_DFS
C278
0.1U
0402
16V
1
SB_PME#
PCIRST#
11 PCICLK_ICH
JL4
1
2
JP_NET10
C294
0.1U
0402
16V
U9B
PCI_C/BE#[0..3]
N4
M4
K4
J2
C/BE#3
C/BE#2
C/BE#1
C/BE#0
10U
6.3V
0805
10%
2
PCI_LOCK#
FRAME#
IRDY#
TRDY#
DEVSEL#
STOP#
PAR
PERR#
PLOCK#
SERR#
PME#
PCIRST#
PCICLK
C292
GND
+3V
1
F1
L5
F2
M3
F3
G1
L4
M2
K5
W2
U5
P5
+1.5V
74AHC08_V
TSSOP14
2
PCI_FRAME#
PCI_IRDY#
PCI_TRDY#
PCI_DEVSEL#
PCI_STOP#
PCI_PAR
PCI_PERR#
PCI_LOCK#
PCI_SERR#
SB_PME#
15,25
1
PCI_GNT0#
TP34
1
R409 1
2
0/NA
GNT# 4
GNT# 3
GNT# 2
GNT# 1
GNT# 0
GNTB#/GNT5#/GPIO 17
GNTA#/GPIO 16
PCIRST#0
2
D6
B7
A7
E6
C1
C5
E8
REQB#/REQ5#/GPIO 1
REQA#/GPIO 0
1
2
JP_NET10
2
PCI_GNT4#
PCI_GNT4#
PCI_GNT3#
PCI_GNT2#
PCI_GNT1#
PCI_GNT0#
B/CB#
16,17,18,19,24
16,17,18,19,24
16,17,18,19,24
16,17,18,19,24
16,17,18,19,24
16,17,18,19
16,17,18,19,24
24
16,17,19,24
14,16
A6
B5
3
2
2
3,24
SB_CARD_PME#
CRT_IN#
REQ# 4
REQ# 3
REQ# 2
REQ# 1
REQ# 0
U715A
A5
B2
H6
J1
K6
M10
P6
U1
P12
V10
V16
V18
AC8
AC17
H18
J18
JL3
2
24 SB_CARD_PME#
12,24 CRT_IN#
24
16,24
19,24
18,24
17,24
PCI_REQ0#
B6
C7
B3
A2
B1
1
2
PCI_REQ4#
PCI_REQ4#
PCI_REQ3#
PCI_REQ2#
PCI_REQ1#
PCI_REQ0#
PCI_AD31
PCI_AD30
PCI_AD29
PCI_AD28
PCI_AD27
PCI_AD26
PCI_AD25
PCI_AD24
PCI_AD23
PCI_AD22
PCI_AD21
PCI_AD20
PCI_AD19
PCI_AD18
PCI_AD17
PCI_AD16
PCI_AD15
PCI_AD14
PCI_AD13
PCI_AD12
PCI_AD11
PCI_AD10
PCI_AD9
PCI_AD8
PCI_AD7
PCI_AD6
PCI_AD5
PCI_AD4
PCI_AD3
PCI_AD2
PCI_AD1
PCI_AD0
P4
D2
R1
D3
P2
E1
P1
E2
M5
E4
N3
E3
N2
E5
N1
F4
F5
L3
H2
L2
G4
L1
G2
K2
J5
H4
J4
G5
K1
H3
J3
H5
AD31
AD30
AD29
AD28
AD27
AD26
AD25
AD24
AD23
AD22
AD21
AD20
AD19
AD18
AD17
AD16
AD15
AD14
AD13
AD12
AD11
AD10
AD9
AD8
AD7
AD6
AD5
AD4
AD3
AD2
AD1
AD0
+3V
1
24
16,24
19,24
18,24
17,24
PIRQA#
PIRQB#
PIRQC#
PIRQD#
PIRQE#/GPI0 2
PIRQF#/GPIO 3
PIRQG#/GPIO 4
PIRQH#/GPIO 5
14
D
5% D5
5% C2
5% B4
5% A3
5% C8
5% D7
5% C3
C4
7
U9A
16,17,18,19
7
PCI_INTA# R195 1
0/NA 2
PCI_INTB# R854 10402G_DFS
0/NA 2
PCI_INTC# R805 10402G_DFS
0/NA 2
PCI_INTD# R823 10402G_DFS
0/NA 2
PCI_INTE# R192 10402G_DFS
0/NA 2
PCI_INTF# R199 10402G_DFS
0/NA 2
PCI_INTG# R844 10402G_DFS
0/NA 2
ICH_GPI50402G_DFS
PCI_INTA#
PCI_INTB#
PCI_INTC#
PCI_INTD#
PCI_INTE#
PCI_INTF#
PCI_INTG#
24 ICH_GPI5
PCI_AD[0..31]
1394_PCIRST# 18
14
7,24
17,24
17,24
19,24
16,24
17,19,24
18,24
PCI_AD[0..31]
ATI_PCIRST#
JL2
1
2
JP_NET10
2
U715B
+3V
1
1
SOUTHBRIDGE-ICH4-M(1/2)
2
JL1
1
2
JP_NET10
2
4
14
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
13
of
34
5
4
3
2
1
SOUTHBRIDGE-ICH4-M(2/2)
+VCCP
U715E
CLK48
B23
ACSYNC
ACSDOUT
ACBITCLK
ACRST#
ACSDIN0
ACSDIN1
ACSDIN2
USBRBIAS#
A23
1
USBRBIAS
1
2
R308 10K
R261 1
0/NA 2 5%
0402G_DFS
2 CPU_THRMTRIP_OUT#
VDD3S
D
GND
R812 0 0402 5%
1
2
20
20
20
20
20
ACSYNC
20
1
C787
10P/NA
0402
+/-10%
50V
2
Q20
288203904022
MMBT3904L R266
B
1
VDD3S
CPU_THRMTRIP# 13
+VCCP
R315
2.2K
0402
5%
2
13
1K 5%
0402
2 47K
5%
2 47K
5%
SMLINK1
R933 1
0402
R310 1
0402
2 10K
5%
2 10K
5%
ICH_BATLOW#
SMLINK0
ICH_SYS_RESET#
SMLINK1
13
SMLINK0
13
ICH_BATLOW# 13
ICH_SYS_RESET# 13
+3V
R318
2.2K
0402
5%
D
SMB_DATA
R316
10K
0402
5%
S
R317
10K
0402
5%
SMBDATA
6,11
SMBCLK
6,11
1Q21
2
2N7002
R313 0/NA 0402 5%
R290
0/NA
0402
5%
13
D
SMB_CLK
S
1 Q22
2
2N7002
R314 0/NA 0402 5%
THERM_ERR# 22,25
GND
R929 1
0402
R940 1
0402
R273
1
56 5%
0402
EE_DOUT
ACSDOUT
ACBITCLK
ACRST#
ACSDIN0
ACSDIN1
2 10K
5%
1
R269
56
0402
5%
11
R810
10
0402
5%
GND
5%
+VCCP
TP704
2 10K
5%
C9
D9
B8
C13
D13
A13
B13
C
0402
1
66M_ICH
R907 1
0402
13,16 SB_PME#
2
GND
4
4
HI_COMP
HI_VSWING
HI_VREF
ICH4-M
BGA360_25_36
2 5%
10K/NA
1
GND
HUB_STB#
HUB_STB
1
R811 1
0402
ICH_LAN_RST#
13 ICH_LAN_RST#
56 5%
0402
2 56
5%
VDD3S
2
2
R838
18.2
0402
1%
271061180101
D11
D10
C12
A8
13
2
EE_DIN
EE_CS
EE_SHCLK
EE_DOUT
A10
A9
A11
B10
C10
A12
B11
C11
CPU_FERR#
2
F19
11 USBCLK_ICH
LANRXD0
LANRXD1
LANRXD2
LANTXD0
LANTXD1
LANTXD2
LANRSTSYNC
LANCLK
2
G
GPIO43
GPIO 32
GPIO 33
GPIO 34
GPIO 35
GPIO 36
GPIO 37
GPIO 38
GPIO 39
GPIO 40
GPIO 41
GPIO 42
GPIO 43
R307 1
0402
R937
1
HFERR#
D
S
MB_ID0
MB_ID1
J20
G22
F20
G20
F21
H20
F23
H22
G23
H21
F22
E23
2
2 8.2K
5%
G
MB_ID2
8
7
6
5
VDD3S
R392 1
0402
13,17,19,22 SERIRQ
R936
56
0402
5%
N20
P21
R23
R22
M23
T21
+3V
4
D
S
RP26
0*4
1206
HI_COMP
HIVSWING
HIREF
CLK66
HUB_HI[0..10]
1
1
2
3
4
HI_STB#/HI_STBF
HI_STB/HI_STBS
HUB_HI0
HUB_HI1
HUB_HI2
HUB_HI3
HUB_HI4
HUB_HI5
HUB_HI6
HUB_HI7
HUB_HI8
HUB_HI9
HUB_HI10
R856 1
0402
2
WIRELESS_PD#
PANEL_ID0
PANEL_ID1
PANEL_ID2
PANEL_ID3
MB_ID2
IDERST#
MINIPCI_ACT#
MB_ID0
MB_ID1
GPIO42
GPIO43
OC#0
OC#1
OC#2
OC#3
OC#4
OC#5
L19
L20
M19
M21
P19
R19
T20
R20
P23
L22
N22
K21
1
USBOC1#
HI 0
HI 1
HI 2
HI 3
HI 4
HI 5
HI 6
HI 7
HI 8
HI 9
HI 10
HI 11
2
19,24
7,12,24
7,12,24
7,12,24
7,12,24
24
15,24
19,24
24
24
24
24
B15
C14
A15
B14
A14
D14
USBOC4#
USBOC5#
WHEN USE INTEGRATE VGA
ADD RP26
USBP_0
USBP_0#
USBP_1
USBP_1#
USBP_2
USBP_2#
USBP_3
USBP_3#
USBP_4
USBP_4#
USBP_5
USBP_5#
1
USB_OC1#
USBOC0#
C20
D20
A21
B21
C18
D18
A19
B19
C16
D16
A17
B17
2
15
0402G_DFS
0402G_DFS
0402G_DFS
0402G_DFS
0402G_DFS
0402G_DFS
C
USB_OC0#
5%
5%
5%
5%
5%
5%
1
1
1
1
1
1
E
15
2
2
2
2
2
2
1
D
0/NA
0/NA
0/NA
0/NA
0/NA
0/NA
TP23
TP29
TP33
TP37
TP24
TP28
2
1
1
1
1
1
1
1
R185
R190
R173
R178
R196
R205
USBP0+
USBP0USBP1+
USBP1USBP2+
USBP2-
2
15
15
15
15
15
15
HUB_HI[0..10]
C
GND
1
1
GPIO CHARACTERISTIC LIST
NAME
R809
10K
0402
5%
POWER PLANE
CURRENT DEFINE
B5
GPI[0]
I
MAIN POWER WELL
CRT_IN#
A6
GPI[1]
TYPE
I
MAIN POWER WELL
SB_CARD_PME#
C8
GPI[2]
I
MAIN POWER WELL
PCI_INTE#
D7
GPI[3]
I
MAIN POWER WELL
PCI_INTF#
C3
GPI[4]
I
MAIN POWER WELL
C4
GPI[5]
I
MAIN POWER WELL
ICH_GPI5
R2
GPI[6]
I
MAIN POWER WELL
AGPBUSY#
R3
GPI[7]
I
MAIN POWER WELL
KBD_US/JP#
V4
GPI[8]
I
RESUME POWER WELL
EXTSMI#
2
2
R197
10K
0402
5%
USBOC4#
USBOC5#
+1.5V
R911
130
0603
1%
R883
487
1%
+1.5V
R900
2
R1113
ACSDOUT
1
4.7K/NA
1
1
GND
C838
0.01U
0402
10%
50V
2
2
R884
150
0402
1%
2
C828
0.1U
0402
10%
16V
1
1
C829
0.01U
0402
10%
50V
2
1
2
48.7
+3V
C839
0.1U
0402
10%
16V
R912
150
0402
1%
EE_DOUT
R813 4.7K/NA
U715C
PD_D[0..15]
PD_D[0..15]
PD_D15
PD_D14
PD_D13
PD_D12
PD_D11
PD_D10
PD_D9
PD_D8
PD_D7
PD_D6
PD_D5
PD_D4
PD_D3
PD_D2
PD_D1
PD_D0
15
15
15
15
15
PDIOW#
PDDACK#
PDDREQ
PDIOR#
PIORDY
15
15
15
PDA0
PDA1
PDA2
15
15
PDCS1#
PDCS3#
Y11
W11
W10
AB10
W9
AC9
Y9
AB9
AA8
Y8
AB8
AA7
AA10
Y10
AC11
AB11
W12
Y12
AA11
AC12
AB12
AA13
AB13
W13
Y13
AB14
PDD 15
PDD 14
PDD 13
PDD 12
PDD 11
PDD 10
PDD 9
PDD 8
PDD 7
PDD 6
PDD 5
PDD 4
PDD 3
PDD 2
PDD 1
PDD 0
PDIOW#
PDDACK#
PDDREQ
PDIOR#
PIORDY
PDA0
PDA1
PDA2
PDCS1#
PDCS3#
SDIOW#
SDDACK#
SDDREQ
SDIOR#
SIORDY
SDA2
SDA1
SDA0
SDCS1#
SDCS3#
IRQ14
IRQ15
A
Y17
AA17
Y16
AB16
Y15
AA15
AC15
Y14
AA14
W14
AB15
W15
AC16
W16
AB17
W17
0402
5%
AA5 GPI[11]
I
RESUME POWER WELL
V5
GPI[12]
I
RESUME POWER WELL
SCI#
W3
GPI[13]
I
RESUME POWER WELL
WAKE_UP#
E8
GPO[16]
O
MAIN POWER WELL
C5
GPO[17]
O
MAIN POWER WELL
Y21 GPO[18]
O
MAIN POWER WELL
STOP_PCI#
W18 GPO[19]
O
MAIN POWER WELL
SUSA#
W19 GPO[20]
O
MAIN POWER WELL
STOP_CPU#
T3
O
MAIN POWER WELL
C3_STAT#
MAIN POWER WELL
CPUPERF#
SMBALERT#(Pull high only)
X
X
+VHI_ICH
R275
1
4.7K/NA
1
13,31 DPRSLPVR
SD_D[0..15]
SD_D15
SD_D14
SD_D13
SD_D12
SD_D11
SD_D10
SD_D9
SD_D8
SD_D7
SD_D6
SD_D5
SD_D4
SD_D3
SD_D2
SD_D1
SD_D0
15
R286 4.7K
0402
2
5%
2
0402
GPO[21]
B
5%
GND
Y20 GPO[22]
OD
J21 GPO[23]
O
MAIN POWER WELL
AC2 GPIO[24]
I/O
RESUME POWER WELL
PCLKRUN#
V2
I/O
RESUME POWER WELL
SPK_OFF
X
+3V
13,20
AA18
AB19
AB18
Y18
AC19
SDIOW#
SDDACK#
SDDREQ
SDIOR#
SIORDY
15
15
15
15
15
AC21
AC20
AA20
SDA2
SDA1
SDA0
15
15
15
AB21
AC22
SDCS1#
SDCS3#
15
15
AC13
AA19
IRQ14
IRQ15
15
15
ICH4-M
BGA360_25_36
2
GND
SD_D[0..15]
SDD 15
SDD 14
SDD 13
SDD 12
SDD 11
SDD 10
SDD 9
SDD 8
SDD 7
SDD 6
SDD 5
SDD 4
SDD 3
SDD 2
SDD 1
SDD 0
0402
2
5%
PCI_INTG#
GND
B
15
1
2
2
HI_VSWING
1
1
HI_VREF
1
HI_COMP
STRAPPING
1
2
+1.5V
SBSPKR
R852
1
4.7K/NA
0402
2
5%
STRAPPING AT RISING EDGE OF PWROK
GPIO[25]
W1
GPIO[27]
I/O
RESUME POWER WELL
W4
GPIO[28]
I/O
RESUME POWER WELL
X
X
J20 GPIO[32]
I/O
MAIN POWER WELL
WIRELESS_PD#
G22 GPIO[33]
I/O
MAIN POWER WELL
PANEL_ID0
F20 GPIO[34]
I/O
MAIN POWER WELL
PANEL_ID1
G20 GPIO[35]
I/O
MAIN POWER WELL
PANEL_ID2
F21 GPIO[36]
I/O
MAIN POWER WELL
STRAPPING PINS
FUNCTIONS
H20 GPIO[37]
I/O
MAIN POWER WELL
MB_ID2
ACSDOUT
SAFE MODE
F23 GPIO[38]
I/O
MAIN POWER WELL
IDERST#
EEDOUT
RESERVED
H22 GPIO[39]
I/O
MAIN POWER WELL
MINIPCI_ACT#
GNTA#
OP-BLOCK SWAP OVERRIDE
G23 GPIO[40]
I/O
MAIN POWER WELL
MB_ID0
DPRSLPVR
HUB INTERFACE TERMINATION SCHEME
H21 GPIO[41]
I/O
MAIN POWER WELL
MB_ID1
HUB_ICH_COMP
HUB INTERFACE SCHEME(1.0 OR 1.5)
F22 GPIO[42]
I/O
MAIN POWER WELL
X
SBSPKR
NO REBOOT
E23 GPIO[43]
I/O
MAIN POWER WELL
X
PANEL_ID3
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
14
of
34
5
4
3
2
HDD- PRIMARY IDE CONNECTOR
1
CDROM- SECONDARY IDE CONNECTOR
J714
2
3
1
+5V
GND
+5V_HDD
1 R492
10K
0402
5%
R476
10K
0402
5%
2
R1
+3V
GND
470/NA
0402
5%
DTC144TKA
288202240001
GND
1
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
CDROM_RIGHT
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
CDROM_RIGHT 20
SD_D8
SD_D9
SD_D10
SD_D11
SD_D12
SD_D13
SD_D14
SD_D15
SDDREQ
SDIOR#
D
SDDACK#
TP706
1
SDA2
SDCS3#
+5V_CDROM
R/A-25PX2/0.8
SPEED
K22-102-150X
GND
DTC144TKA
288202240001
14
14
14
14
14
14
14
14
14
14
14
GND
C878
10U
0805C
10V
GND
SDDREQ
SDIOW#
SDIOR#
SIORDY
SDDACK#
IRQ15
SDA1
SDA0
SDA2
SDCS1#
SDCS3#
SDDREQ
SDIOW#
SDIOR#
SIORDY
SDDACK#
IRQ15
SDA1
SDA0
SDA2
SDCS1#
SDCS3#
R879 1 5.6K/NA 2
0402 5%
R833 1 4.7K
0402
R834 1 8.2K
0402
2
5%
2
5%
+3V
+5V_CDROM
+3V
C813
0.1U
0402
10%
16V
GND
C816
0.1U
0402
10%
16V
GND
+5V
L723
1
+3V
1
1
1
GND
C877
0.1U
0402
10%
16V
2
+3V
2
1
2
5%
2
5%
2
R1081 1 4.7K
0402
R1074 1 8.2K
0402
C872
0.1U
0402
10%
16V
2
120Z/100M 2012
2
Q37
L733
1
+3V
+5V_CDROM
1
GND
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
2
C817 120Z/100M
10U 2012
0805C
10V
2
R295 1 5.6K/NA 2
0402 5%
CD_LED#
Q41
1
3
C
PDDREQ
PDIOW#
PDIOR#
PIORDY
PDDACK#
IRQ14
PDA1
PDA0
PDA2
PDCS1#
PDCS3#
23
SDIOW#
SIORDY
IRQ15
SDA1
SDA0
SDCS1#
CD_LED#
R836
R1
+5V
+5V_HDD
PDDREQ
PDIOW#
PDIOR#
PIORDY
PDDACK#
IRQ14
PDA1
PDA0
PDA2
PDCS1#
PDCS3#
PCIRST#0
PCIRST#0 2
RSTDRV1#
2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
1
GND
2
Q705
DTC144TKA/NA
470 5%
0402
PDA2
PDCS3#
1
R1
2
IDERST#
13,25
14
14
14
14
14
14
14
14
14
14
14
SD_D0
SD_D1
SD_D2
SD_D3
SD_D4
SD_D5
SD_D6
SD_D7
SD_D8
SD_D9
SD_D10
SD_D11
SD_D12
SD_D13
SD_D14
SD_D15
0
0402
5%
1
1
14,24
HDR/FM/22PX2/2MM
SPEED
ACE-1A2-0216
GND
GND
SD_D[0..15]
2
+5V_HDD
14 SD_D[0..15]
R927 110K/NA
0402
GND
R909
2
J708
CDROM_LEFT
CDROM_COM M
RSTDRV2#
SD_D7
2
5% SD_D6
SD_D5
SD_D4
SD_D3
SD_D2
SD_D1
SD_D0
20 CDROM_LEFT
20 CDROM_COM M
R919
10K/NA
0402
Q703
5%
DTC144TKA/NA
R1
2
R1085
1
2
5%
RSTDRV2#
3
HDD_LED#
1 R901
2
10K/NA
0402
5%
1
23
PDDREQ
PDIOW#
PDIOR#
PIORDY
PDDACK#
IRQ14
PDA1
PDA0
PDCS1#
HDD_LED#
PD_D8
PD_D9
PD_D10
PD_D11
PD_D12
PD_D13
PD_D14
PD_D15
2
GND
R922
1 10K
0402
GND
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
2
D
PD_D0
PD_D1
PD_D2
PD_D3
PD_D4
PD_D5
PD_D6
PD_D7
PD_D8
PD_D9
PD_D10
PD_D11
PD_D12
PD_D13
PD_D14
PD_D15
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
3
PD_D[0..15]
PD_D[0..15]
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
1
14
RSTDRV1#
2 PD_D7
PD_D6
PD_D5
10K/NA
PD_D4
0402
PD_D3
5%
PD_D2
PD_D1
PD_D0
+5V
GND2
GND1
GND2
GND1
R436
1
GND
C
USB CONNECOTR
+5VS
L702
1
1
2
3
2
2
2
2
2
2
BEAD/NA
JO4
JO5
JO6
JO3
JO7
JO8
A1
A2
A3
A4
14 USBP2A1
A2
A3
A4
GND1
GND2
1
1
2
3
4
2
L23
0603D
GND1
GND2
J706
+VCC_USB_2
90Z/100M
CHOKE_ACM2012
VCC
PP+
GND
GND1
GND2
BEAD/NA
GND1
GND2
USB/4PX1
SUYIN
2545A-04GXT
USB/4PX2/DIP
SUYIN
2522A-08G1T-K
2
+VCC_USB_1
2
L1
0603D
1
2
3
4
2
1
2
3
4
4
+VCC_USB_0
2
4
1
1
L22
J701
90Z/100M
CHOKE_ACM2012
1
2
2
2
1
3
14 USBP2+
L2
14 USBP0-
B
BEAD/NA
BEAD/NA
1
14 USBP0+
R708
47K
0402
5%
2
2
2
2
C711
1000P
0402
+/-20%
50V
GND
L21
0603D
L3
0603D
GND_USB1
USB_OC1#
14 USB_OC1#
GND
B
C713
+ 150U
7343
6.3V
C31
0.1U
0402
+80-20%
50V
2
GND
2
R706
33K
0402
5%
RT9701-CBL
SOT25
2
C709
1U
0402
+80-20%
10V
+VCC_USB_2
2
120Z/100M
2012
1
VOUT1
1
5
2
2
GND
C3
0.1U
0402
+80-20%
50V
GND_USB
R702
47K
0402
5%
VIN1
1
VOUT0
GND
VIN0
1
4
GND_USB
+VCC_USB_1
2
120Z/100M
2012
1
1
2
C704
1000P
0402
+/-20%
50V
L701
1
USB_OC0#
14 USB_OC0#
2
C702
+ 150U/NA
7343
6.3V
3
C5
0.1U
0402
+80-20%
50V
1
2
GND
1
2
GND
C701
+ 150U
7343
6.3V
2
R701
33K
0402
5%
RT9701-CBL
SOT25
2
2
C703
1U
0402
+80-20%
10V
1
VOUT1
+VCC_USB_0
2
120Z/100M
2012
1
5
L708
U705
1
1
GND
VIN1
1
VOUT0
1
4
VIN0
1
U701
3
1
+5VS
GND_USB1
JO16 JO15 JO14
L6
0603D
BEAD/NA
1
1
1
1
1
1
3
2
1
2
1
1
GND_USB
1
14 USBP1+
JO13
4
1
L5
90Z/100M
CHOKE_ACM2012
1
JO9
GND_USB
GND_USB
1
2
A
1
14 USBP1-
SHORT-SMT4
JO702
2
2
2
SHORT-SMT4
JO17
1
2
GND_USB1
A
SHORT-SMT4
1
L4
0603D
GND
GND_USB1
SHORT-SMT4
BEAD/NA
GND
GND_USB
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
15
of
34
5
4
+2.5VS_DDR
3
2 120Z/100M
2012
1
1
1
2
1
2
XTAL2
RSET
1
125
8
CTRL18
127
1
MDI1-
0603
1
R297 0/NA
MDI2-
0603
1
2 5.6K
0402
117
115
114
113
NC_15
AVDD25
NC_16
NC_17
11
12
72
74
2
C889
GND
C845
0.01U/NA 2
0402
12
13
PJTX+
1
PMDI0-
11
14
PJTX1-
V_DAC
10
15
MCT4
C835
RTL8100CL
PQFP128A_0.5MM
0.1U 2
0402
1
C849
0.01U/NA 2
0402
1
PMDI1+
9
16
PJRX+
PMDI1-
8
17
PJRX-
V_DAC
7
18
MCT3
PMDI2+
6
19
MDO2+
PMDI2-
5
20
MDO2-
V_DAC
4
21
MCT2
PMDI3+
3
22
MDO3+
V_DAC
PMDI3-
2
23
MDO3-
V_DAC
1
24
MCT1
Add thease caps when
use RTL8110S, and
C879 change to 0.01U
20
20
1
D710
3
R1
1
1K
1K
1K
LAN_WAKE 2
2
2
0
5%
0402
Q709
R1114
1
2
DTC144TKA
0/NA
288202240001
0402 5%
ICH_RI#
13
KBC_RI#
22
7
6
8
PMDI1V_DAC
PMDI1+
1
3
2
4
5
TX+
TXC
TX-
RD+
RDC
RD-
RX+
RXC
RX-
NC0
NC1
NC2
NC3
1
GND1
GND2
RJ11-2P/RJ45-8P
C10037-102XX
GND_45
MCT4
16
14
15
MCT3
PJTX1PJTXPJTX+
PJRXPJRX+
2
12
13
GND
GND_45
1
2
L728
0
0603
8 RP27MDO2+
7 0*4 MDO26 1206MDO3+
MDO35
1
2
3
4
GND
GND_45
A
R271
1
2
R277
1
2
MCT4
R152
1
2
MCT3
R930
1
2
MCT2
R262
1
2
MCT1
R254
1
2
2
2
2
10
11
9
LF-H80P
SOX16
75
0402
75
0402
75
0402
75
0402
75/NA
0402
75/NA
0402
C327
1000P
2KV
1808
10%
Title
8050 MOTHER B/D
Size
C
Date:
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
B
A2 RJ11
A1
L719
0
0603
TD+
TDC
TD-
3
RJ45
H5007/NA
H500X
GND_45
4
8
7
6
5
4
3
2
1
GND_45 GND_45
U717
PMDI0V_DAC
PMDI0+
A2
A1
GND1
GND2
1
R1115
10K
0402
5%
A
A
A
A
1K
2
MODEMP
MODEMN
MODEMP
MODEMN
+3V
R1109
510/NA
0402
1%
1
MDO2MDO2+
PJRX+
PJTX1PJTX+
Add AVDDL to V_DAC, when
change to RTL8110S
GND
5
8
7
6
5
4
3
2
1
1
GND
Pull high at EC side.
LED0
LED1
LED2
LED3
1
1
1
2
1
2
C915
27P
0402
5%
1 0/NA
0805
J709
MDO3MDO3+
JO717 JO716 JO715 JO714
0.01U/NA 2
0402
1 0/NA
0805
2
1
PJRX-
GND
GND
R944
R1107
510/NA
0402
1%
2
2
PMDI0+
GND_45
1 JO720
2
JO721
120Z/100M
2012
0.1U
0402
16V
10%
JO719
1
U716
1
ADD if use RTL8110S
CL-190G/NA CL-190G/NACL-190G/NA
R1102
510/NA
0402
1%
2
Use H1285 for RTL8100C
L735
V_12P
JO718
1
2
DVDD
GND
R1111
R1097
510/NA
0402
1%
1
2
It's should be NA when
change to RTL8110S
1
CL-190G/NA
2
LED0
LED1
LED2
LED3
+3VS
A
0603
GND
R943
D709
C
PMDI3-
2
R263 0/NA
2
LED0
LED1
LED2
NC_14
AVDDL 2
D708
0603
1
1%
1M
0402 1%
X706
2
D707
MDI3-
R1099
C854
GND
120Z/100M/NA
CORE_ACM2520U
PMDI2-
2
R278 0/NA
L44
ADD if use RTL8110S
1
GND
2
120Z/100M/NA
CORE_ACM2520U
PMDI1-
2
1
2
120Z/100M
CORE_ACM2520U
PMDI0-
2
L48
PMDI3+
4
120Z/100M
CORE_ACM2520U
MDI0-
L49
R272 0/NA
0603
MDI3+ 1
2
PMDI2+
Change to 2.49K when use
RTL8110S
DVDD
C914
27P
0402
5%
GND
3
LAN_XTAL2
GND
25MHZ
TXC8X4.5
274012500415
1
1
LAN_XTAL1
122
L51
R304 0/NA
NC_13
CTRL25
C884
0.01U/NA
0402
+80-20%
50V
4
121
2.Parallel and
equal length
3.Not to use via
3
1.50/8/8/8/50
2
1
C882
0.01U/NA
0402
+80-20%
50V
R285 0/NA
0603
MDI2+ 1
2
1
MDI3+
MDI3-
R303 0/NA
0603
MDI1+ 1
PMDI1+
2
PMDI0+
4
18
19
R305 0/NA
0603
MDI0+ 1
2
2
MDI2+
MDI2-
3
14
15
R1066
49.9/NA
0402
1%
ADD if use RTL8110S
1
MDI1+
MDI1-
R1101
2
R1063
49.9/NA
0402
1%
2
2
XTAL1
MDI0+
MDI0-
5
6
2
NC_11
NC_12
1
2
GND
LAN_XTAL2
1
1
EECK
EEDI
EEDO
EECS
2
111
109
108
106
R1071
49.9/NA
0402
1%
1
2
2
10
120
NC_25
NC_26
AVDD33_0
AVDD33_1
NC_24
AVDD33(REG)
3
7
16
20
26
41
56
71
84
94
107
VDD33_0
VDD33_1
VDD33_2
VDD33_3
VDD33_4
VDD33_5
VDD33_6
24
32
45
54
64
78
99
110
116
126
NC_18
VDD25_0
NC_19
VDD25_1
NC_20
VDD25_2
VDD25_3
NC_21
NC_22
NC_23
RX+
RXNC_9
NC_10
GND
LAN_XTAL1
R1067
49.9/NA
0402
1%
GND
GND
TX+
TX-
R1070
1K/NA
0402
5%
Crystal should be placed
far away from I/O port and
Tx,Rx,power,magnetics.
MDI3+
MDI3-
2
B
MDI2+
MDI2-
GND
2
PCI_PERR#
PCI_SERR#
PCI_STOP#
LAN_PCIRST#
2 0402
PCICLK
CLKRUNB
DEVSELB
FRAMEB
GNTB
REQB
IDSEL
INTAB
IRDYB
TRDYB
PAR
NC_8
PERRB
SERRB
STOPB
PCIRSTB
GND
C896
0.01U
0402
+80-20%
50V
1
13,17,18,19,24
13,17,19,24
13,17,18,19,24
13
100
28
65
68
61
29
30
46
25
63
67
76
88
70
75
69
27
EESK
AUX/EEDI
EEDO
EECS
CBEB0
CBEB1
CBEB2
CBEB3
1
PCI_INTE#
PCI_IRDY#
PCI_TRDY#
PCI_PAR
1
92
77
60
44
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
C900
0.01U
0402
+80-20%
50V
1
PCI_C/BE#0
PCI_C/BE#1
PCI_C/BE#2
PCI_C/BE#3
PCICLK_LAN
PCLKRUN#
PCI_DEVSEL#
PCI_FRAME#
PCI_GNT3#
PCI_REQ3#
R947
13,24
13,17,18,19,24
13,17,18,19,24
13,17,18,19
104
103
102
98
97
96
95
93
90
89
87
86
85
83
82
79
59
58
57
55
53
50
49
47
43
42
40
39
37
36
34
33
C911
1U
0402
+80-20%
10V
D
2
11
13,17,19,24
13,17,18,19,24
13,17,18,19,24
13,24
13,24
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
PMEB
ISOLATEB
LANWAKE
VCC
NC1
NC0
GND
93C46
SO8
283467540002
1
13,17,18,19 PCI_C/BE#[0..3]
31
23
105
CS
SK
DI
DO
R1086
49.9
0402
1%
1
0402
R1082
49.9
0402
1%
2
AVDDH
2
AVDDL
4
+3VS
8
7
6
5
1
DVDD_A
2
1
2
3
4
R1090
49.9
0402
1%
1
U723
EECS
EECK
EEDI
EEDO
R1087
49.9
0402
1%
2 3.6K
0603
2
R1110
2
PCI_C/BE#[0..3]
ISOLATEB
LAN_WAKE
2 10K/NA
0402
3
R1100
1
+3VS
MDI1+
MDI1-
R1108
1
2
2
C906
0.1U
0402
10%
16V
MDI0+
MDI01
USED IN 93C56
1
1
2
1
2
1
2
1
1
2
2
2
1
2
2
1
C891
0.1U
0402
10%
16V
NC_6
GND_12
NC_7
GND_13
GND_14
GND_15
GND_16
2
C890
0.1U/NA
0402
10%
16V
GND
PCI_AD18
C886
0.1U
0402
10%
16V
13
17
9
4
123
124
128
1
C903
0.1U/NA
0402
10%
16V
2
1
2
ADD if use RTL8110S
DVDD
GND
GND_4
GND_5
GND_6
GND_7
GND_8
GND_9
GND_10
GND_11
GND
L736
120Z/100M/NA
2012
C874
0.1U
0402
10%
16V
GND
21
38
51
66
81
91
101
119
1
C883
0.1U
0402
10%
16V
2
1
1
C887
0.1U
0402
10%
16V
AVDDH
1
C865
0.1U
0402
10%
16V
ADD if use RTL8110S
NC_0
GND_0
NC_1
GND_1
NC_2
NC_3
GND_2
GND_3
NC_4
NC_5
PCI_AD[0..31]
2
2
C893
0.1U
0402
10%
16V
+3VS
C
1
1
1
SB_PME#
AVDDL
C895
0.1U
0402
10%
16V
2
2 120Z/100M/NA
2012
C862
0.1U
0402
10%
16V
22
35
48
52
62
73
80
100
112
118
2
13,14
AVDDL
1
1
C876
0.1U
0402
10%
16V
1
U719
2 120Z/100M
2012
Change AVDDL to
+2.5VS_DDR , when
use RTL8110S
C880
0.1U
0402
10%
16V
R1006
1K
0402
R1008
15K
0402
2
1
L737
1
+3VS
0/NA
13,17,18,19 PCI_AD[0..31]
+2.5VS_DDR
L738
Close to RTL8100C
C873
0.1U
0402
10%
16V
+5V
GND
+3VS
C866
0.1U
0402
10%
16V
Change DVDD to +1.8VS,
when use RTL8110S
C867
0.1U
0402
16V
10%
GND
C879
0.1U
0402
10%
16V
1
C870
10U
16V
1206
2
2
2SB1188/NA
1
+1.8VS
C905
0.1U
0402
10%
16V
2
2
Q707
B
1C
CTRL18
E
D
C864
0.1U
0402
10%
16V
2
C863
0.1U
0402
10%
16V
2
1
+3VS
1
2 120Z/100M/NA
2012
C894
0.1U
0402
10%
16V
2
1
C904
0.1U
0402
10%
16V
2
L731
2
1
DVDD
+1.8VS
1
1
LAN-RTL8100CL/RTL8110S
DVDD
L732
1
2
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
16
of
34
2
+CARD_VCC
CARD_ACT
1
1
1
2
2
0402
0402
0402
0402
1%
1%
1%
1%
MS_BS
MS_SDIO
MS_SCLK
SM_LVD
GND
1%
1%
1%
SDCD#
SD_WP#
MS_INS#
SM_CD#
SM_WPD#
SM_R/B#
C465
0.1U
0402
+80-20%
50V
+SD_MSVDD
B
GND
MA/15PX2/ST
ACES
88025-3000
291000013027
GND
1
GND
L54
120Z/100M
2012
273000150013
Q24
SI2301DS
S
+3V
K
R376
100K
0402
5%
1
CCLK
C341
0.1U
0402
10%
16V
R378
1K
0402
5%
MS_PWREN#
(43K)
+3V
R1217
2
2
R377
10K
0402
SD_PWREN#
G
4,12,13,25,31 PWROK
R552
1 0402
2 5%
220
A
D Q716
S
2N7002
1
D
D36
CL-190G
D
R1213
33
0402
0/NA
5%
0402G_DFS
SD_LED#
MS_LED#
A
GND
+3V
GND
C1002
1U
0402
+80-20%
10V
1%
1%
1%
SD3
SD_CMD
SD_CLK
2 0402
2 0402
2 0402
1%
1%
1%
SD0
SD1
SD2
C993
0.1U
0402
10%
16V
C994
0.1U
0402
10%
16V
C995
0.1U
0402
10%
16V
C996
0.1U
0402
10%
16V
1
2 0402
2 0402
2 0402
1 R1235
1 R389
1 R1237
1
1 R388
1 R1233
1 R1234
43.2K
43.2K
43.2K
1
43.2K
43.2K
43.2K/NA
2
1
+SD_MSVDD
C1001
2.2U
0603
+/-10%
GND
C997
0.1U
0402
10%
16V
C998
0.1U
0402
10%
16V
C999
0.1U
0402
10%
16V
C1000
0.1U
0402
10%
16V
Title
8050 MOTHER B/D
Size
C
GND
Date:
5
MS_INS#
SD_WP#
SD_CMD
SD0
SD2
MS_BS
MS_SDIO
GND1
GND2
GND3
GND4
GND5
GND6
C463
10U
0805
6.3V
10%
GND
+SD_MSVDD
CB710
BGA_GHK_209
1
0402
0402
0402
0402
0402
0402
+SD_MSVDD
2
2
2
2
2
R431 1 0
5% 2 0402
R440 1 0
5% 2 0402
R435 1 0/NA5% 2 0402
R444 1 0/NA5% 2 0402
1
R1208
R1209
R1210
R1211
1
2
2
2
2
2
2
1
2
1
1
1
1
SM_W E#
SM_RE#
SM_CE#
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
+CARD_VCC
+VPPOUT
286302211006
GND
43.2K
43.2K
43.2K
43.2K
1%
1%
1%
2
VPPD0
VPPD1
R1224
R1225
R1226
R1228
R1230
R1231
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
MS_SCLK
SD_CLK
SD1
SD3
C988
10P
0402
5%
50V
GND
2 0402
2 0402
2 0402
CCLKRUN#
1
1
1
1
1
1
J716
SDCD#
MS_SCLK
2
10
0402
5%
+SD_MSVDD
2
SSOP16
16
15
14
13
12
11
10
9
2
1
2
GND
TPS2211A
SHDN
VDDP0
VDDP1
AVCCA
AVCCB
AVCCC
AVPP
12V
2
2
1
1
2
GND
C992
0.1U
0402
10%
16V
VCCD0
VCCD1
3.3VA
3.3VB
5VA
5VB
GND
OC
1
U728
1
2
3
4
5
6
7
8
43.2K
43.2K
43.2K
8.2K
8.2K
8.2K
1
+3V
C991
0.1U
0402
10%
16V
MS_CLK1 1
GND
+3V
+3V
GND
R1203
MS_PWREN#
MS_CLK1
R1204 1 0/NA
2
MS_BS
0402_DFS 5%
MS_LED#
MS_INS#
MS_SDIO
C987
10P
0402
5%
50V
2S
RI#
1 4.7K/NA 2 0402
GND
SD_CLK
2
10
0402
5%
1 R1205
1 R1206
1 R1207
+VPPOUT
FM/34PX2/1.27MM
ACECON
MF-291000000008
1
1 4.7K/NA 2 0402
R1220
SD_CLK1 1
2
0402
2
0402
43.2K
43.2K
43.2K
D
R1198
2
R1218
R1229
10K
0402
10K
1
2
0/NA
5%
0402G_DFS
1
1 4.7K/NA 2 0402
R1221
10K
0402
A
R1201
SHORT-SMT4
GND
GND
+3V
G
CARD_MF1
R1216
VCC5_EN#
VCC3_EN#
10K
1
R1214
+3VS
+5V
1
R1199
GND_C4
CTRDY#
CFRAME#
CAD17
CAD19
CVS2
CRST#
CSERR#
CREQ#
CCBE3#
CAUDIO
CSTSCHG
CAD28
CAD30
CAD31
CCD2#
291000256843
SC_PWR5EN# 1
R1196 2
SC_PWR3EN# 1 10K/NA 20402
R1197 10K/NA 0402
D
S
Multi Function pin need pull up.
+3V
G17
G18
H15
H14
N17
U11
V11
CD1#/CCD1#
CD2#/CCD2#
VS1#/CVS1
VS2#/CVS2
CE1#/CCBE0#
A8/CCBE1#
A12/CCBE2#
REG#/CCBE3#
A18/RSVD (R_A18)
D2/RSVD (R_D2)
D14/RSVD (R_D14)
A19/CBLOCK#
A20/CSTOP#
A21/CDEVSEL#
A22/CTRDY#
A13/CPAR
WE#/CGNT#
WP/CCLKRUN#
BVD1/CSTSCHG
BVD2/CAUDIO
WAIT#/CSERR#
READY/CINT#
A15/CIRDY#
A14/CPERR#
INPACK/CREQ#
RESET/CRST#
A23/CFRAME#
A16/CCLK
CCD1#
CCD2#
CVS1
CVS2
CCBE0#
CCBE1#
CCBE2#
CCBE3#
R2_A18
R2_D2
R2_D14
CBLOCK#
CSTOP#
CDEVSEL#
CTRDY#
CPAR
CGNT#
0.1U/NA
0402
16V
10%
H3
R9
U8
P7
K6
N1
T1
P8
N2
P10
K2
N6
N5
R1
R2
N3
P3
U9
CSTSCHG V9
CAUDIO
W9
CSERR#
W8
CINT#
V8
CIRDY#
P5
CPERR#
P1
CREQ#
R7
CRST#
W5
CFRAME# R3
2
P6
D3/CAD0
D4/CAD1
D11/CAD2
D5/CAD3
D12/CAD4
D6/CAD5
D13/CAD6
D7/CAD7
D15/CAD8
A10/CAD9
CE2#/CAD10
OE#/CAD11
A11/CAD12
IORD#/CAD13
A9/CAD14
IOWR#/CAD15
A17/CAD16
A24/CAD17
A7/CAD18
A25/CAD19
A6/CAD20
A5/CAD21
A4/CAD22
A3/CAD23
A2/CAD24
A1/CAD25
A0/CAD26
D0/CAD27
D8/CAD28
D1/CAD29
D9/CAD30
D10/CAD31
H2
J1
H1
J3
J2
K1
J6
K3
K5
L1
L2
L6
M1
L5
M3
M2
M6
W4
U5
R6
V5
U6
V6
W6
V7
W7
R8
W10
V10
U10
R10
W11
RI#
2
CAD0
CAD1
CAD2
CAD3
CAD4
CAD5
CAD6
CAD7
CAD8
CAD9
CAD10
CAD11
CAD12
CAD13
CAD14
CAD15
CAD16
CAD17
CAD18
CAD19
CAD20
CAD21
CAD22
CAD23
CAD24
CAD25
CAD26
CAD27
CAD28
CAD29
CAD30
CAD31
1
1
P12
U12
W13
P11
R12
V12
R11
CCD1#
CAD2
CAD4
CAD6
R2_D14
CAD8
CAD10
CVS1
CAD13
CAD15
CAD16
R2_A18
CBLOCK#
CSTOP#
CDEVSEL#
C
2
IRQSER
2
2
1
Q714
DTC144WK/NA
GND_C1 GND_C3
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
1
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
+3VS
3
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
1
MS_PWREN#
MS_SCLK
MS_CLKIN
MS_BS
MS_LED#
MS_INS#
MS_SDIO
B
C989
GND
TP709
TP16
TP711
TP712
TP713
TP18
TP715
TP716
TP19
2
VCC_SC
SC_PWR5EN#
SC_PWR3EN#
SC_CLK
SC_IO
SC_RST#
SC_CD#
SC_LED#
SC_OC#
SC_C8
SC_C4
PCLK
SPKROUT
RI_OUT#PME#
SUSPEND#
PRST#
GNT#
REQ#
IDSEL
FRAME#
IRDY#
TRDY#
DEVSEL#
STOP#
PERR#
SERR#
PAR
C/BE0#
C/BE1#
C/BE2#
C/BE3#
R1212
10K/NA
0402
CCLK
CIRDY#
CCBE2#
CAD18
CAD20
CAD21
CAD22
CAD23
CAD24
CAD25
CAD26
CAD27
CAD29
R2_D2
CCLKRUN#
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
2
SHORT-SMT4
JS8
1
2
1
G14
1 0402
TP708
2
SERIRQ
13,14,19,22 SERIRQ
GND
G
2
R1242 2 10K
2
13,16,18,19,24 PCI_FRAME#
13,16,18,19,24 PCI_IRDY#
13,16,18,19,24 PCI_TRDY#
13,16,18,19,24 PCI_DEVSEL#
13,16,18,19,24 PCI_STOP#
13,16,18,19,24 PCI_PERR#
13,16,19,24 PCI_SERR#
13,16,18,19 PCI_PAR
13,16,18,19 PCI_C/BE#0
13,16,18,19 PCI_C/BE#1
13,16,18,19 PCI_C/BE#2
13,16,18,19 PCI_C/BE#3
1 100
0402 5%
A10
G15
C14
D19
A14
C13
B13
C10
F8
A7
B7
C7
F7
A6
B6
C6
E2
A5
C8
A15
1 0402
1 0402
C986
0.1U
0402
10%
16V
TP707
1
13 CARD_PCIRST#
13,24 PCI_GNT0#
13,24 PCI_REQ0#
R1202
2 0402
CARD_PCIRST#
R1192 2 10K
R1241 2 10K
2
1 4.7K
C985
0.1U
0402
10%
16V
GND_C2 GND_C4
N14
N15
P18
R17
T19
P15
P19
M14
N18
R19
R18
1
PCI_AD20
R1200
+VPPOUT
GND
SM_PWR5EN#
SM_PWR3EN#
SM_WPD#
SM_WP#
1
SM_CE#
SM_RE#
SM_LED#
SM_CD#
SM_R/B#
SM_W E#
SM_ALE
1
SM_LVD
SM_CLE
1
SM_SD0
1
SM_SD1
1
SM_SD2
1
SM_SD3
1
SM_SD4
1
SM_SD5
1
SM_SD6
1
SM_SD7
1
2
11 PCICLK_CARD
20 CARDSPK#
13 CARDBUS_PME#
13,22,23,25 SUSB#
SD_CMD
SD_WP#
SDCD#
SD_LED#
SD0
SD1
SD2
SD3
1
0/NA 2 5%
PCI_INTC#
1
R1194 0402G_DFS
PCI_INTF#
CARD_MF1
1 0/NA
2 0402
R1238
5%
SERIRQ
R1195 1
0/NA 2
0402 5%
RI#
CARD_ACT
PCLKRUN#
13,16,19,24 PCLKRUN#
VCC5_EN#
VCC3_EN#
PCI_INTC#
13,19,24 PCI_INTF#
J15
H19
H18
K17
J14
J18
H17
N19
K14
K15
J19
K19
J17
L14
L17
L19
M18
M15
M19
L18
L15
SD_PWREN#
R1191 1
0/NA 2 5%
SD_CLK1
0402G_DFS
2
PCI_INTB# R1193 1
0/NA 2 5%
0402G_DFS
SM_PWR5EN#
SM_PWR3EN#
SM_WPD#
SM_WP#
SM_CE#
SM_RE#
SM_LED#
SM_CD#
SM_R/B#
SM_WE#
SM_ALE
SM_LVD
SM_CLE
SM_D0
SM_D1
SM_D2
SM_D3
SM_D4
SM_D5
SM_D6
SM_D7
V15
P13
V14
P14
R14
V13
U13
W14
W15
U14
W16
U15
1
13,24
PCI_INTB#
VCC_SD
SD_PWREN#
SD_CLKIN
SD_CLK
SD_CMD
SD_WP
SD_CD#
SD_LED#
SD_DAT0
SD_DAT1
SD_DAT2
SD_DAT3
2
13,24
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
MFUNC0
MFUNC1
MFUNC2
MFUNC3
MFUNC4
MFUNC5
MFUNC6
VCCD0#
VCCD1#
2
C
H5
G1
G3
H6
F1
G5
F2
E1
G6
F5
E3
C12
A4
E6
B5
F6
B8
A8
E9
F9
B9
A9
F10
E10
F11
E13
C11
B11
A12
B12
E12
A13
F15
E17
A16
C15
E14
F13
B15
E19
F14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
2
E5
NC
F18
F17
F19
VPPD0
VPPD1
VPPD2
M5
G2
J5
P2
P9
R13
P17
K18
E18
F12
B10
E8
C5
GND0
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
GND9
GND10
GND11
CAD11
+SD_MSVDD
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
CAD0
CAD1
CAD3
CAD5
CAD7
CCBE0#
CAD9
CAD11
CAD12
CAD14
CCBE1#
CPAR
CPERR#
CGNT#
CINT#
PCI_AD[0..31]
13,16,18,19 PCI_AD[0..31]
GND_C3
J6
U727
SHORT-SMT4
GND
1
GND
CCLKRUN#
2
SHORT-SMT4
JS7
1
2
JS4
C983
0.1U
0402
10%
16V
2
R1189
43.2K
0402
1%
1
1
R1188
10K
0402
CRST#
GND
VCCA
G_RST
GND_C2
2
R1187
43.2K
0402
1%
VPPD1
VPPD0
1
GND
VCC1
VCC2
VCC3
VCC4
VCC5
VCC6
VCC7
VCC8
VCC9
VCC10
VCC11
A11
D1
F3
L3
U7
W12
M17
G19
B14
E11
C9
E7
2
R1190 1
0/NA 2 5%
0402G_DFS
GND_C1
2
+CARD_VCC
CARD_PCIRST#
1
+CARD_VCC
+3V
C984
0.1U
0402
10%
16V
1
JS5
CardBus &
Reader(CB710)
CB710
IDSEL: AD20
PCI REQ0#
PCI GNT0#
PCI INTB#
INTC#
D
3
1
4
2
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
17
of
34
5
4
+3V
+3VS
120Z/100M
2012
+3V
C921
2.2U
+80-20%
0805C
1
D
2
C961
2.2U
+80-20%
0805C
L739
120Z/100M/NA
2
2
120Z/100M/NA
2012
1
L742
1
2
1
+3VS
1
120Z/100M
2012
C925
0.1U
0402
+80-20%
50V
L746
1
2
1
2
1
C922
0.1U
0402
+80-20%
50V
2
C923
0.1U
0402
+80-20%
50V
2
GND
GND
100 2
1%
24
39
49
VCCRAM
VCCSUS[0]
VCCSUS[1]
VCCATX0
VCCATX1
VCCATX2
62
76
90
VCCARX0
VCCARX1
VCCARX2
65
75
89
8
20
33
35
102
113
114
125
46
48
1
2
4.7K/NA 0402
5% +3V
47
TPA-_6307
TPA+_6307
TPB+_6307
TPB-_6307
PME#
MODE0
MODE1
1
9
16
26
34
36
94
103
111
115
121
NC0
NC1
NC2
NC3
NC4
NC5
NC6
NC7
1
1
2
2
2
2
1
1
1
XI
XO
29
30
31
32
EECS_1394
EEDO_1394
EEDI_1394
EECK_1394
R1145
6.34K
0402
1%
C958
47P
0402
+/-10%
50V
R1146 1
2
C
C964
0.33U
0402
+80-20%
16V
GND
PCI_PME#
13
1K/NA 2
0402 5%
+3V
+3V
R1147
1K
0402
5%
GND
37
U722
EECS_1394
EECK_1394
EEDI_1394
EEDO_1394
43
42
GND
38
40
44
45
51
56
57
67
1
2
3
4
CS
SK
DI
DO
VCC
NC1
NC0
GND
8
7
6
5
93C46
SO8
283467540002
XI
C907
1U
0402
+80-20%
10V
GND
R1116
XO
1
2
1M
0402
5%
VT6307L
PQFP128A_0.5MM
Configuration Straps
X707
1
I2C EEPROM.
I2CFAST
0: 4-wire EEPROM interface(Default)
1: 2-wire I2C EEPROM interface
using SCL/SDA
I2C EEPROM Fast Mode
2
1
C932
10P
0402
5%
50V
2
GND
I2CEEENA
24.576MHZ
TXC8X4.5
274012457406
1
1394_AGND
C965
270P
0402
+/-10%
50V
GND
60
61
2
GND
2
2
63
66
GND
B
R1142
54.9
0402
1%
1
EECS/EEAUTO#
EEDO
EEDI/SDA
EECK/SCL/EEFAST
FRAME#
DEVSEL#
TRDY#
IRDY#
PGNT#
PREQ#
IDSEL
INTA#
PCICLK
PCIRST#
PAR
PERR#
STOP#
PHYRST#
R1148
4.99K
0402
1%
TPBIAS
74
81
88
1
XI
XO
R1141
54.9
0402
1%
TPBIAS
2
XCPS
XRES
R1143
54.9
0402
1%
1
XTPBIAS0
XTPBIAS1
XTPBIAS2
R1144
54.9
0402
1%
87
86
85
84
2
XTPA2P
XTPA2M
XTPB2P
XTPB2M
80
79
78
77
1
1
72
73
71
70
1
XTPA1P
XTPA1M
XTPB1P
XTPB1M
C928
0.1U
0402
+80-20%
50V
2
52
2
PCI_AD21 R1117 1
0402
XTPA0M
XTPA0P
XTPB0P
XTPB0M
GNDATX0
GNDATX1
GNDATX2
GNDRAM
GNDSUS[0]
GNDSUS[1]
PCI_INTG#
PCICLK_1394
1394_PCIRST#
PCI_PAR
PCI_PERR#
PCI_STOP#
CARDBUSENA
CBE0#
CBE1#
CBE2#
CBE3#
123
127
126
124
95
96
108
91
93
92
3
2
128
58
1394_AGND
54
55
53
R1112
59
69
83
25
41
50
13,24
11
13
13,16,17,19
13,16,17,19,24
13,16,17,19,24
PHYCMC
12CEEENA
I2CFAST
1
PCI_FRAME#
PCI_DEVSEL#
PCI_TRDY#
PCI_IRDY#
PCI_GNT1#
PCI_REQ1#
C955
0.1U
0402
+80-20%
50V
GND
PHYPC0
PHYPC1
PHYPC2
2
15
4
122
107
13,16,17,19 PCI_C/BE#0
13,16,17,19 PCI_C/BE#1
13,16,17,19 PCI_C/BE#2
13,16,17,19 PCI_C/BE#3
13,16,17,19,24
13,16,17,19,24
13,16,17,19,24
13,16,17,19,24
13,24
13,24
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
GNDARX0
GNDARX1
GNDARX2
C
28
27
23
22
21
19
18
17
14
13
12
11
10
7
6
5
120
119
118
117
116
112
110
109
106
105
104
101
100
99
98
97
64
68
82
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
VCC0
VCC1
VCC2
VCC3
VCC4
VCC5
VCC6
VCC7
U724
PCI_AD[0..31]
GND0
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
GND9
GND10
13,16,17,19 PCI_AD[0..31]
2
L743
1
GND
1394_AVCC
+PHYVDD
+3V
C917
0.1U
0402
+80-20%
50V
2
+PHYVDD
+PHYVDD
1
1
C918
0.1U
0402
+80-20%
50V
2
C919
0.1U
0402
+80-20%
50V
2
2
1
C916
0.1U
0402
+80-20%
50V
2
1
C920
0.1U
0402
+80-20%
50V
2
1
C924
0.1U
0402
+80-20%
50V
2
C954
0.1U
0402
+80-20%
50V
2
1
D
C931
0.1U
0402
+80-20%
50V
1
ALL Capacator must close to power pin
C936
0.1U
0402
+80-20%
50V
1
1
2
1
C957
0.1U
0402
+80-20%
50V
2
1
2
C956
0.1U
0402
+80-20%
50V
GND
1
1
1394_AVCC
+3V
2
2
IEEE1394(VT6307L)
1394_AVCC:Because of
suspend then resume
unknow, us suspend
power
VT6307L
IDSEL: AD21
PCI REQ1#
PCI GNT1#
PCI INTG#
3
GND
C929
10P
0402
5%
50V
GND
B
0: Disable (Default)
1: Enable
CARDBUSENA
CardBus Mode
PHYCMC
Programmable Contender / Bus Manager Capable
0: Disable (PCI)(Default)
1: Enable
High specifies that the node is capable of
being a bus manager.
2 0402
5%
4
1 0/NA
3
R1149
L740
120Z/100M
CORE_ACM2520U
R1139
1 0/NA
2 0402 5%
R543
1 0/NA
2 0402
J718
1
2
3
4
A
ESD0805A/NA
L747
1
1
A
GND
2
120Z/100M
2012
R534
1 0/NA
2 0402
2
120Z/100M
2012
L87
K
K
GND0
GND1
4PX1/0.8MM-MA
MOLEX
54030-0411
331000004009
1
1
1
K
120Z/100M
CORE_ACM2520U
1
2
3
4
5
6
D706
ESD0805A/NA
ESD0805A/NA
ESD0805A/NA
1
1
2
D30
JO53 JO48 JO52 JO49
L83
A
D711
K
3
TPA+_6307
4
D28
A
A
A
2
2
TPATPA+
TPA-_6307
2
5%
2
TPB+_6307
2
TPBTPB+
1
TPB-_6307
5%
1394_GND
GND
1394_AGND
Because of EMC notice, change
L547 to 0 ohm 0805
1394_GND
1394_GND
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
18
of
34
5
4
3
2
1
MINI-PCI FROM LYNX-AMD
+3V
MINI-PCI
J713
PCICLK_MINIPCI
R1079 1 0
0402
2
5%
C885
10P/NA
0402
+/-10%
50V
1
11 PCICLK_MINIPCI
MINIPCI_LPCDRQ#
2
+3V
13,24 PCI_REQ2#
R1083 1 0
0402
5%
2
MINI_REQ2#
PCI_AD31
PCI_AD29
PCI_AD27
PCI_AD25
1
C898
0.1U
0402
+80-20%
50V
MINIPCI_LPCFRAME#
C901
0.1U
0402
+80-20%
50V
13,16,17,18 PCI_C/BE#3
PCI_CBE#3
PCI_AD23
PCI_AD21
PCI_AD19
GND
13,16,17,18 PCI_C/BE#2
13,16,17,18,24 PCI_IRDY#
1
C899
0.1U
0402
+80-20%
50V
2
1
C892
0.1U
0402
+80-20%
50V
2
1
C910
0.1U
0402
+80-20%
50V
2
2
1
+3V
2
1
C888
0.1U
0402
+80-20%
50V
2
1
C875
2.2U
0603
+/-10%
2
2
1
GND
C909
0.1U
0402
+80-20%
50V
13,16,17,24 PCLKRUN#
13,16,17,24 PCI_SERR#
13,16,17,18,24 PCI_PERR#
13,16,17,18 PCI_C/BE#1
GND
PCI_AD17
PCI_CBE#2
PCI_IRDY#
PCLKRUN#
PCI_SERR#
PCI_PERR#
PCI_CBE#1
PCI_AD14
PCI_AD12
PCI_AD10
C
PCI_AD8
PCI_AD7
PCI_AD5
PCI_AD3
PCI_AD1
+5V
2
MINIPCI_LPCAD0
1
R1093
0/NA
0402
5%
MINIPCI_SIO48M
GND1
GND2
13
13,14,17,22
13,22,23
11
LRDQ0#
SERIRQ
LFRAME#
SIO_48M
R1096
R1065
R1069
R1088
1
1
1
1
0
0
0
0
2
2
2
2
0402
0402
0402
0402
5%
5%
5%
5%
MINIPCI_LPCAD0
MINIPCI_LPCAD1
MINIPCI_LPCAD2
MINIPCI_LPCAD3
R1075
R1118
R1091
R1137
1
1
1
1
0
0
0
0
2
2
2
2
0402
0402
0402
0402
5%
5%
5%
5%
MINIPCI_LPCDRQ#
MINIPCI_PCISERIRQ
MINIPCI_LPCFRAME#
MINIPCI_SIO48M
MINIPCI_LPCAD2
GND
2 0402
5%
R1077 1 0
R1078 1 0/NA
2 0402
2 0402
5% MINIPCI_PCIRST#
5%
R1080 1 0
2 0402
5%
PCI_INTD#
PCI_GNT2#
TP721
TOUCHPAD_10
13,24
MINIPCI_PCIRST#
13
MINIPCI_GPORESET#
13,24
MINIPCI_PME# 13
MINIPCI_LPCAD3
PCI_AD30
PCI_AD28
PCI_AD26
PCI_AD24
R1092 1
0402
PCI_AD22
PCI_AD20
PCI_PAR
PCI_AD18
PCI_AD16
PCI_FRAME#
PCI_TRDY#
PCI_STOP#
PCI_DEVSEL#
PCI_AD17
100 2
1%
PCI_PAR
13,16,17,18
PCI_FRAME#
PCI_TRDY#
PCI_STOP#
13,16,17,18,24
13,16,17,18,24
13,16,17,18,24
+5V
PCI_DEVSEL# 13,16,17,18,24
PCI_AD15
PCI_AD13
PCI_AD11
R558
470
0402
5%
D38
CL-190G
LED_CL190
PCI_AD9
PCI_CBE#0
PCI_C/BE#0
13,16,17,18
PCI_AD6
PCI_AD4
PCI_AD2
PCI_AD0
R1095
R1094 1
1 0/NA
2 0402
C
5%
0
5%
2 0402
MINIPCI_PD
2
R1
Q710
DTC144TKA
288202240001
WIRELESS_PD# 14,24
MINIPCI_PCISERIRQ
GND
R1138
1 0
R1076
2 0402
1 0/NA
2 0402
5%
R1072 1
0/NA 2 5%
0402G_DFS
GND1
GND2
124P/0.8MM/H6
SPEED
R1068 1 0
PCI_PME#
291000251246
SPEED-B27-101-0038
2
13,22,23 LAD0
13,22,23 LAD1
13,22,23 LAD2
13,22,23 LAD3
D
MINIPCI_LPCAD1
1
R1064 1 0/NA
2
0402 5%
13,17,24 PCI_INTF#
+5V
1
2
5%
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
2A
R1003 1 0
0402
RING
TX+
TXPJ4
PJ5
LED2_YELP
LED2_YELN
RESERVED4
5V[1]
INTA#
RESERVED5
3.3VAUX[0]
RST#
3.3V[4]
GNT#
GROUND9
PME#
RESERVED6
AD[30]
3.3V[5]
AD[28]
AD[26]
AD[24]
IDSEL
GROUND10
AD[22]
AD[20]
PAR
AD[18]
AD[16]
GROUND11
FRAME#
TRDY#
STOP#
3.3V[6]
DEVSEL#
GROUND12
AD[15]
AD[13]
AD[11]
GROUND13
AD[9]
C/BE[0]#
3.3V[7]
AD[6]
AD[4]
AD[2]
AD[0]
RESERVED_WIP4[0]
RESERVED_WIP4[1]
GROUND14
M66EN
AC_SDATA_OUT
AC_CODEC_ID0#
AC_RESET#
RESERVED7
GROUND15
SYS_AUDIO_IN
SYS_AUDIO_IN_GND
AUDIO_GND2
MPCIACT#
3.3VAUX[1]
K
MINIPCI_PD
2
TIP
RX+
RXPJ7
PJ8
LED1_GRNP
LED1_GRNN
CHSGND
INTB#
3.3V[0]
RESERVED0
GROUND0
CLK
GROUND1
REQ#
3.3V[1]
AD[31]
AD[29]
GROUND2
AD[27]
AD[25]
RESERVED1
C/BE[3]#
AD[23]
GROUND3
AD[21]
AD[19]
GROUND4
AD[17]
C/BE[2]#
IRDY#
3.3V[2]
CLKRUN#
SERR#
GROUND5
PERR#
C/BE[1]#
AD[14]
GROUND6
AD[12]
AD[10]
GROUND7
AD[8]
AD[7]
3.3V[3]
AD[5]
RESERVED2
AD[3]
5V[0]
AD[1]
GROUND8
AC_SYNC
AC_SDATA_IN
AC_BIT_CLK
AC_CODEC_ID1#
MOD_AUDIO_MON
AUDIO_GND0
SYS_AUDIO_OUT
SYS_AUDIO_OUT_GND
AUDIO_GND1
RESERVED3
VCC5VA
3
R1007 1 10K
0402
5%
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
1
+3V
5%
MINIPCI_ACT# 14,24
+3V
+3VS
1
D
PCI_AD[0..31]
13,16,17,18 PCI_AD[0..31]
AD17
PCI_INTD#
REQ2#/GNT2#
GND
C881
0.1U
0402
+80-20%
50V
PIN24, 124 ARE AUX_POWER
GND
GND
B
B
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
19
of
34
5
4
3
2
1
AUDIO CODEC(ALC655)
L66
120Z/100M
2012
+3V
AGND
L741
PHONE
MONO-OUT
NC_1
CEN-OUT
LFE-OUT
JD0/GPIO0
XTLSEL
SPDIFI/EAPD
SPDIFO
S-OUT-L
S-OUT-R
AFILT1
GND
ALC655
PQFP48_0.5MM
21
21
EAPD
GND
C963
1U
0402
+80-20%
10V
1
1
1
R537
6.8K
0402
5%
AGND
AGND
R559 1
0402
10K/NA2
5%
GND
MODEM_SPK
C933
1000P/NA
0402
10%
50V
R560
1K/NA
0402
5%
C518
0.1U/NA
0402
10%
16V
AGND
SUB_OUTL
21
SUB_OUTR
AOUT_L
AGND
SUB_OUTR
R1130 1
4.42K 2
0402 5%
R1127 1
4.42K 2
0402 5%
C966
1U AGND
0402
+80-20%
10V
R1126
27K/NA
0402
5%
1
0402
1
0402
0
2
0
2
MIC_VREF
5%
2464_VREF
5%
0
5%
0
5%
2
AMP_LEFT
21
2
AMP_RIGHT
21
SUB_LEFT
SUB_RIGHT
21
21
R1129
27K/NA
0402
5%
B
AGND
2464_VREF
21
273000130006
1
5%
0
2 L53
0402
1 R519
2 L76
5%
0
0402
C499
100P/NA
0402
+/-10%
50V
R520
22K
0402
1%
2
2
R325
22K
0402
1%
5 J721
4
3
6
2
1
BEAD_600Z/100M
0603D
1
2
R.CH
1
L.CH
0603D
2
BEAD_600Z/100M
1
1
1
2
1
2
C159
100P/NA
0402
+/-10%
50V
C498
100P
0402
+/-10%
50V
J11
2
CAGND
C330
100P
0402
J10
+/-10%
50V
CAGND
RA/D6/6P
2SJ-SB2014D3
CONN_JACK_SB2014
291000920605
L751
2
1
L725
2
GND
GND
GND
A
1
J715
2
1
R1136
1K
0402
5%
HDR/MA-2
ACES
85204-0200
291000020206
R849
560-2010/NA
0805
L724
50UH
CHOKE_WLT04020201
L721
120Z/100M/NA
2
1 2012 1
F2
2
MINISMDC014-2
POLYSW_MINISMDC110
GND
C148 1
2 1808
1000P
2KV 10%
C806 1
2 1808
1000P
2KV 10%
MODEMP
MODEMN
MODEMP
MODEMN
16
16
GND_45
5
C912
10P/NA
0402
+/-10%
50V
AGND
120Z/100M/NA
2
1 2012
14
2
5% 2 0402ACBITCLK
ACSDIN1
3
R1120 1 22
ACSYNC
ACSDIN1
2
R1131 1 22 5% 2 0402
R1121 1 22/NA
5% 2 0402
R1133
0/NA
0402
5%
120Z/100M
1608
CAGND
C913
0.1U
0402
10%
10V
GND
CLOSE TO MDC
JP, use 4pcs of 2kV 1000P cap
Title
8050 MOTHER B/D
US, use 2pcs of 2kV 1000P cap
Size
C
UK, use 4pcs of 3kV 1000P cap
Date:
5
0/NA 2
5%
0/NA 2
5%
R1135 1
0402
R1128 1
0402
1
0402
2
5%
2
R1132
1
4.7K
291000023008
GND
R497 1
0402
R503 1
0402
SUB_OUTL
21
AGND
R535
1
FM/0.8MM/H2.4
AMP C-179373
2
120Z/100M
2012
AGND
GND
MODEM_SPK
5%
1
C926
0.1U
0402
10%
10V
2
0402
2
1
2
2
C927
0.1U
0402
10%
10V
1
ACSDOUT
ACRST#
1
CAGND
1
A
R1134 1
0/NA
2
+3VS
L62
2
120Z/100M
2012
AGND
AGND
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
1
+3V
2
120Z/100M
2012
AGND
MONO_OUT
MDC
+5V
1
GND
AGND
LINE_IN/R
+3V
2
120Z/100M
2012
AGND
GND
R324
J717
1
R549
6.8K
0402
5%
LINE_IN/L
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
L88
2
AGND
R532
MONO_OUT
L73
CDROM_COM M 15
AOUT_R
C967
0.1U
0402
10%
16V
1
2
2
2
1
1
2
1
2
2
1
C
FOR EMI REQUEST CHANGE TO 0 OHM
CDROM_LEFT 15
CDROM_COM M
L65
2 1U
10V
2 1U
10V
2 1000P
50V 10%
2 1000P
50V 10%
1
5%
1
2 0.1U/NA
16V 10%
2 0.1U
16V 10%
R542
5.6K
0402
5%
AGND
SPDIFOUT
R546
6.8K
0402
5%
CDROM_LEFT
5%
28
2
B
VREFOUT
C939
+80-20% 0402
C940
41
+80-20% 0402
C962
29
0402
C960
30
0402
27
20mil
39
0402
2 0 0402
CAGND
CDROM_RIGHT 15
2
1
5%
0
0402
VREF
37
2 6.8K
R550 1
AGND
1
R1124 2
JD0
AVSS1
AVSS2
1
5%
26
42
R1123 2 0/NA
0402
4
7
GND
DVSS1
DVSS2
AFILT2
C519 1
0402
C937 1
0402
13
ESD0805A/NA
0603B_0805C
CDROM_RIGHT
5%
1
FRONT-MIC1
R538 1
AOUT_R
36
0402
1
LINE-OUT-R
1
35
2 6.8K
2
NC_0
1
R547 1
1
AGND
LINE-OUT-L
15
1
1
AGND
1
40
43
44
45
46
47
48
FRONT-MIC2
14
1
AGND
2
0402
1
34
AUX-R
17
1
0
2
33
VRDA
16
1
1
5%
1
SPARKGAP_6
2
D718
1
1
32
JO725
2
1
31
19
1
MIC
RA/D6/6P
2SJ-SB2014D3
CONN_JACK_SB2014
291000920605
1
GND
1
2 1U
10V +80-20%
2 1U
10V +80-20%
2 1U/NA
10V +80-20%
2 0.1U/NA
16V 10%
18
1
CAGND
1%
R1157
2
JD2
PC-BEEP
20
1
2
2
GND
C504
22P/NA
0402
+/-10%
50V
1
BEAD_600Z/100M
0603D
1
XTL-OUT
22
LINE_IN/R
2
CD-GND
21
1
2
L744
1
CD-L
XTL-IN
AUX-L
C959
0402
C953
0402
C952
0402
C945
0402
R1155 1 0
0603
C948
100P/NA
0402
+/-10%
50V
2
CD-R
2
1
1
1
MIC2
JD1/GPIO1
2
C477
22P/NA
0402
+/-10%
50V
2
MIC1
24
5 J719
4
3
6
2
1
2
1 R1164 2
22K/NA 0402
1
RESET#
SDATA-OUT
SDATA-IN
SYNC
BIT-CLK
X2
1
24.576MHZ/NA
TXC8X4.5
274012457406
C971
0.1U/NA
0402
+80-20%
50V
AGND
2
12
0402
LINE_IN/L
2 1U
10V +80-20%
2 1U
10V +80-20%
2 1U
10V +80-20%
2 1U
10V +80-20%
2 1U
10V +80-20%
2 1U
10V +80-20%
2 0.22U
16V +80-20%
2 1U/NA
10V +80-20%
2 1U/NA
10V +80-20%
2 1U
10V +80-20%
2 1U
10V +80-20%
AOUT_L
1
1
PC_BEEP
2
5%
0
C972
0.1U/NA
0402
+80-20%
50V
2
2
0402
LINE-R
C974
0402
C969
0402
MIC1 C975
0402
MIC2 C970
0402
C513
0402
C507
0402
C515
0402
C979
0402
C980
0402
C976
0402
C516
0402
1
3
1 R516
1M/NA
C509
2200P
0402
+/-20%
50V
CAGND
BEAD_600Z/100M
0603D
1
2
MIC_EXT
AGND
23
2
2
1
C973
4.7U/NA
0603
6.3V
+80-20%
L57
MIC_INT
1
2 22
5%
2
4.7K
0402
5%
1
1608
1
2
R498 1
0402
2
11
5
8
10
6
MIC_VREF
AGND
LINE-L
1
L69
2 22
5%
2
R472 1
0
0402
5%
1
2
DVDD1
DVDD2
R530 1
0402
1
0
2
5%
4.7/NA
25
38
1
9
U726
ACRST#
ACSDOUT
ACSDIN0
ACSYNC
ACBITCLK
1
0402
R1153
R1154
C968
C938
0.1U
0.1U
0402
0402
+80-20%
+80-20%
50V
50V
AGND
AGND
GND
GND
ACRST#
ACSDOUT
ACSDIN0
ACSYNC
ACBITCLK
2
120Z/100M/NA
CORE_ACM2520U
1
1
GND
AVDD
C481
0.1U
0402
10%
16V
AVDD1
AVDD2
2
C501
0.1U
0402
10%
16V
2
1
1
2
1
GND
C491
10U
0805
6.3V
10%
2
C476
22P/NA
0402
+/-10%
50V
14M_CODEC
D
R1150 1 0
0603
AGND
ACBITCLK
11
1
C467
0.01U
0402
+80-20%
50V
R1151
C
AGND
1
R452
470K/NA
0402
5%
AGND
GND
14
14
14
14
14
1
AGND
1
AGND
2
MIC5205BM5
SOT25
1
C455
100P
0402
+/-10%
50V
C475
10U
1210
10V
2
PC_BEEP
2
1U
0402
10V
+80-20%
1
R437
1K
0402
5%
1
2
3
2
1
2
NC7S32
SOT25
R443
47K
0402
5%
IN
GND
EN
ADJ
1
2
10K
0402
5%
1
1
2
2
R442
47K
0402
5%
C456
R438
5
4
2
VCC
Y
1
1
A
B
GND
R484
180K/NA
0603
1%
4
4
2
1
2
3
2
C458
0.1U
0402
16V
10%
OUT
1
5
GND
1
CARDSPK#1
MIC1
BEAD_600Z/100M
L7341
0603D
2
1 +
L70 1
0603D
2
2 BEAD_600Z/100M
C942
47P/NA
D5.8/H2.0
0402
EM147TK
+/-10%
339115000046
50V
JO724
D705
SPARKGAP_6
ESD0805A/NA
0603B_0805C
2
16V
2
CARDSPK#
120Z/100M/NA
2
1 2012
3
0402
U17
1
17
VA
U18
2
D
2
2
SBSPKR
13,14 SBSPKR
10%
L64
1
2
+5V
C460 0.1U
2
VA
10%
16V
0402
0.1U
C457
1
2
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
20
of
34
4
1
1
1
1
C949
0.1U
0402
10%
16V
2
GND
HP in
0
1
OPT in
1
0
no this condition
1
1
on device
VA
100U
6.3V L752
20%
1
2
120Z/100M 2012
R322
4.7K
0402
5%
J7
1
2
R1183
10K
0402
2
GND
D
+5V
2
120Z/100M 2012
+ C466
C934
0.1U
0402
10%
16V
2
DTC144TKA
288202240001
1
AGND
CAGND
5
4
2
3
1
2 1608
8
7
9
2
Drive
IC
LED
1
600Z/100M
22
SPK_OFF#
1
12
13
24
+ C474
2 1U
10V +80-20%
100U
6.3V
20%
C1003
100P/NA
0402
+/-10%
50V
GP1FD310TP
SHARP
CONN_GP1FD310TP
L758
600Z/100M
1608
GND
AGND
1 0402
1 0402
5%
5%
L80
L78
2 600Z/100M
2 600Z/100M
1
1
1608
1608
+3V
4
9
TPA0212_GND
TSSOP24_TPA0102
Q711
288221371002
AGND
AGND
C150
100P
0402
10%
50V
C354
100P/NA
0402
10%
50V
C503
100P
0402
10%
50V
DTA144WK
1 SOT23AN_1
C356
100P/NA
0402
10%
50V
AGND
R1185
10K
0402
OPTIN#
AGND
AGND
3
CAGND
C
1
R328
1K
0402
1%
C978
2
R529
1K
0402
1%
2
25
26
27
28
29
L759
600Z/100M
1608
1
R329 2 22
R528 2 22
2
G1
G2
G3
G4
G5
G6
G7
G8
G9
G10
HDR/MA-2
ACES
85204-0200
291000020206
+ C489
100U
6.3V
20%
2
C485 1
0402
11
2
19
1
LOUT+
LOUT-
LIN
AGND
L757 1
SPDIFOUT
1
DTC144TKA
288202240001
2 1608
2 1608
1
2
600Z/100M
20
1
GND0
GND1
GND2
GND3
LLINEIN
LHPIN
30
31
32
33
34
L55
1608
1
2
2
SHUTDOWN
HP/LINE
10
AGND
Q23
1
BYPASS
SEBTL
5
6
1608
1608
0
0402
J720
600Z/100M
2
1
DEVICE_DECT
2 1U
10V
2 1U
10V
2 1U
10V
2 600Z/100M
2 600Z/100M
1
1
1
GAIN0
GAIN1
2
2
C484 1
0402
C480 1
0402
C493 1
0402
3
R1
2
VDD
2
3
15
L754 1
L755 1
DECT_HP#OPT
J3
L14
L16
7
18
1
AMP_LEFT
AMP_LEFT
R367
10K
0402
DEVICE_DECT#
PC-BEEP
17
20
PVDD0
PVDD1
1
5%
5%
5%
5%
ROUT+
ROUT-
RIN
2
0402
0402
0402
0402
HDR/MA-2
ACES
85204-0200
291000020206
1
14
RHPIN
RLINEIN
2
8
AGND
VA
C
2 1U
10V +80-20%
1608
1608
1
R1159
R1160
R1161
R391
2 600Z/100M
2 600Z/100M
L50
ROUT+
ROUT-
21
16
1
1
C497 1
0402
1U
10V +80-20%
1U
10V +80-20%
1
2 100K
1
2 100K/NA
1
2 100K
1
2 100K/NA
L52
U524
20
23
2
AMPVDD
AMPVDD
1
CAGND
1
1
2 1U
10V +80-20%
2
C935 2
0402
C950 2
0402
AGND
C492 1
0402
AMP_RIGHT
AMP_RIGHT
2
20
R1302 1
600Z/100M
DEVICE_DECT#
AGND
1
GND
Q52
AMPVDD
1
2
L67
C977
1U
0402
10V
BAW56
288100056017
2
R1
REMARK
0
2
2
OPTIN# 1
AMP_OFF
1
K
RLS4148
SPK_OFF#
2
A
2
3
D27
KBC_MUTE
D715
3
2
22
D
DTC144TKA
288202240001
R454
1K
0402
5%
R1158
1.3M
0402
1%
DECT_HP#/OPT
0
2
2
R1239
4.7K
0402
5%
Q38
BAT54C
DEVICE_DECT#
1
2
AMP_SHUTDOWN
3
1
+5V
1
SPK_OFF
1
2
2
2
13,24
3 AMP_OFF
+5V
1
EAPD
R477
100K
0402
5%
R1
D22
1
20
3
AUDIO AMPLIFIER
+5V
1
+3V
1
5
AGND
GND
Q713
DTC144TKA
288202240001
2
3
CAGND CAGND
AGND
1U/NA
0402
10V
+80-20%
DECT_HP#OPT
1
R1
DEVICE_DECT#
SUBWOOFER AMP(LM4871)
+5VS_SUBAMP
+5V
L63
1
C496
1
0402
SUB_OUTL
C483
1
0402
0.22U
2
+80-20% 16V
USE 3K 1%
1 10.2K
1%
2
2
1
2
22.1K 0402
2
R451
5% 1 0402
10K/NA
DEVICE_DECT
4
A
D19
RLS4148
A
K
R1125 1
K
RLS4148
0
0402
2
VA
1
R460
47K/NA
0402
5%
SUB_OUTL
C345
1U/NA
0402
+80-20%
10V
VDD
GND5
GND6
GND7
C941
4.7U
+80-20%
0805
U19A
LMV822
MSOP8
C462
0.1U/NA
0402
+80-20%
50V
2
C930
1U
0402
+80-20%
10V
R26
R27
2
5
+
6
-
1%
4
22.1K 0402
0.15U
0603
2464VREF2
RIN_2464
2 0805
2 0805
HDR/MA-2
ACES
85204-0200
291000020206
AGND
AGND
Q30
R1
TP49
2
1
DTC144TKA/NA
20
R511
1
100
2 0402
1%
2
1
2
3K/NA
0402 5%
1U/NA
10V
0805
2464VREF1
2
22.1K 0402
1%
R489 D
1M/NA S
0402
5%
Q36
2N7002/NA
G
R459
AGND
AGND
2
10U
6.3V
0805
10%
5% 1 0402
10K/NA
R463
1
2464VREF2
2
A
22.1K 0402
1%
2
SUB_OUTR
SUB_LEFT
R491 1
0/NA 2 0402
5%
SUB_OUTL
SUB_RIGHT
R512 1
0/NA 2 0402
5%
SUB_OUTR
AGND
7
1
1
2464_VREF
SUB_OUTR
SUB_OUTL
20
SUB_OUTR
20
AGND
U19B
LMV822
MSOP8
Title
8050 MOTHER B/D
AGND
Size
C
Date:
5
0
0
S
R462
18K
0402
1%
2
C470
2200P
0402
+/-20%
50V
8
R479
2 1
1
1
AGND
C500
1
1
2
VA
C482
J705
1
2
2
R461
1
1
2
A
1
1
ESD0603/NA
C479
D
USE 2200P
10%
SUB_RIGHT
2
D5
13
14
15
USE 3K 1%
20
1
JO10
LM4871
LLP8A
AGND
0
0402
GND
2
R510
1
2
AGND
R478 1
1
6
1
AGND
2
AGND
AGND
1
D17
2
AMP_SHUTDOWN
2
-
1%
0.15U
0603
G
GND
5
8
2
1
+
Q35
2N7002/NA
3
SUB_LEFT
3
R471 D
1M/NA S
0402
5%
VO1
VO2
1
2
1U/NA
10V
0805
D
1
1
1
2
3K/NA
0402 5%
R507
18K
0402
1%
+IN
-IN
BYPASS
SHDWN
GND
GND1
GND2
GND3
GND4
B
JO12
AGND
3
4
2
1
7
9
10
11
12
1
20
2464VREF1
R509
2
1
ESD0603/NA
2
1
2
8
C490
1 10.2K
1%
2
2
100U
6.3V
20%
U725
SUB_OUTL
C469
0.1U
0402
+80-20%
50V
R496
0402
S
C494
2200P
0402
+/-20%
50V
2
+80-20% 16V
R1122 1 22.1K
0603
1%
C487
2
2
VA
0.22U
2
2
1
0
0402
1
R521 1
R506
USE 2200P
10%
D6
+ C951
R502
0402
1
B
2
120Z/100M
2012
2
SUB_OUTR
2 0603
10%
1
C471 1
1000P
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
21
of
34
5
4
3
2
1
J5
25,32
25
D21
ADEN#
SW_VDD3
BATT_DEAD#
H8_ADEN#
LEARNING
H8_SUSB
H8_SCI
SW_VDD3
32
LEARNING
D703
10MIL
1
2
C
12 H8_ENABKL
33
CHARGING
FAN_SPEED
2
3
2
H8_ENABKL
CHARGING
27
26
C133
0.1U
0402
+80-20%
50V
2
GND
Processor Hot Protection
2
+VCC_CORE
DTC144TKA
288202240001
HPROCHOT#
1
HPROCHOT#
13
12
23
BATT_LED#
25 KBC_PWRON_VDD3S
1
R99
R96
33
1M/NA 0402
0402 5%
5%
GND
R1
BAT_DATA
BAT_CLK
1
R95
10K
0402
5%
1
GND
H8_PROCHOT# 3
17
15
14
23
22
19
+3V
K
RLS4148
2
A
1.25MM/ST/MA-3
ACES
85205-0300
291000010303
2
Q29
2
D
1
2
R1
3
S
1
0/NA 2
5%
13,24 WAKE_UP#
R381
0402
KO0
KO1
KO2
KO3
KO4
KO5
KO6
KO7
KO8
KO9
KO10
KO11
KO12
KO13
KO14
KO15
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
KI0
KI1
KI2
KI3
KI4
KI5
KI6
KI7
62
61
60
59
58
57
56
55
GP80/SD0
GP81/SD1
GP82/SD2
GP83/SD3
GP84/SD4
GP85/SD5
GP86/SD6
GP87/SD7
GP51/INT20#/S0
GP47/SRDY1#/S1
GP44/RXD
GP45/TXD
GP70/SIN2
P71/SOUT2
GP72/SCLK2
GP73/SRDY2#/INT21
GP74/INT31
GP75/INT41
GP50/A0
GP52/INT30#/R
GP53/INT40#/W
GP42/INT0/OBF00
GP43/INT1/OBF01
GP46/SCLK1/OBF1
GP20/FD0/LPCEN
GP21/FD1
GP22/FD2/SDA1/RXD1
GP23/FD3/SCL1/TXD1
GP24/FD4
GP25/FD5
GP26/FD6
GP27/FD7
GP76/SDA
GP77/SCL
GP40/XOUT/PWM2
GP41/XCIN/PWM3
16
18
H8_LIDSW#
H8_PWRON
H8_PWRON
0
21 R439 1
0402
20
GP56/DA1/PWM01
GP57/DA2/PWM11
GP60/AN0/INT5
GP61/AN1/INT6
GP62/AN2/INT7
GP63/AN3/INT8
GP64/AN4/INT9
GP65/AN5/INT10
GP66/AN6/INT11
GP67/AN7/INT12
GP0/P3REF/FA0
GP1/FA1
GP2/FA2
GP3/FA3
GP4/FA4
GP5/FA5
GP6/FA6
GP7/FA7
GP10/FA8
GP11/FA9
GP12/FA10
GP13/FA11
GP14/FA12
GP15/FA13
GP16/FA14
GP17/FA15
RESET#
T_DATA
H8_RSMRST
ICH_PWRBTN
T_CLK
38
37
36
35
34
33
32
31
H8_THRM#
H8_WAKE_UP#
BATT_G#
BATT_R#
EXTSMI#
CAP#
NUM#
SCROLL#
XIN
XOUT
11
10
BLADJ
H8_I_CTR
1
80
79
78
77
76
75
74
PWRBTN#
KBC_RI#
AC_POWER#
T_DATA
23
T_CLK
23
SUSC#
13,26,27
BATT_G#
BATT_R#
EXTSMI#
CAP#
NUM#
SCROLL#
12,23
12,23
13,24
23
23
23
AC_POWER#
0
0402
2
S
C454
0.1U
0402
+80-20%
50V
H8AGND
H8_RESET#
H8_RESET#
25
KBC_X+
VREF
KBC_X-
72
R414 1
0/NA 2 5%
0402G_DFS
VCC
VSS
AVSS
CNVSS
71
30
73
24
C449
0.1U
0402
+80-20%
50V
C448
0.1U
0402
+80-20%
50V
C445
10U
0805
6.3V
10%
GND
11
2N7002
D
S
KBC_RI#
R445 1
0
0402
2
R428 1
R483 1
0
0
R450 2 10K/NA 1
0402
2 0402 H8_I_LIMIT
2 0402 H8_I_CTR
BLADJ
L68
2
C478
0.1U
0402
+80-20%
50V
GND
1
16
+3VS
R404
1M
2
0402 5%
X1
1
2
1
I_LIMIT
I_CTRL
1
I_LIMIT
I_CTRL
BLADJ
KBC_X+
KBC_MUTE 21
KBC_RI#
32
33
4,12
BEAD_600Z/100M
0603D
1
2
C450
22P
0402
+/-10%
50V
8
7
6
5
C459
0.1U
0402
+80-20%
50V
H8AGND
RP45
H8AGND
4 1206
3
2
1
RP719
VDD3
BAT_CLK
BAT_DATA
R419 1 2.7K/NA 2 1% 0402
R455 1 2.7K/NA 2 1% 0402
0/NA
0402
5%
add
Closed to KB CONN
H8_THRM#
R390
0402
H8_ENABKL R425
0402
ADD-->R0B
TP718
1
TP719
1
FAN_SPEED
14,25 THERM_ERR#
THERM_ERR#
6
7
4
9
TACH1
TACH2
TACH3
TACH4/ADDRESS SELECT/THERM
D1+
D1D2+
D2GND
1
2
1
1
3
13
12
11
10
C869
2200P
0402
+/-20%
C728 50V
2200P
0402
+/-20%
50V
2
PWM1
PWM2/SMBALERT
PWM3/ADDRESS ENABLE
14
1
15
5
8
2
0
+2.5VIN/SMBALERT
2
2
FAN#
ADT7460
QSOP16B
T_DATA
T_CLK
10K
0402
5%
R482 2 10K 5% 1 0402
R481 2 10K 5% 1 0402
R385
1 0/NA
0402
5%
C871
4.7U
0805
+80-20%
0:internal flash
1:external flash
C447
22P
0402
+/-10%
50V
GND
H8_SCI R475
0402
1 10K
5%
2
VDD3
GND
VDD3
H8_RSMRST
H8_SUSB
ICH_PWRBTN
CPU_THERMDA 2
R7
1 1K
0402
5%
C9
1000P
0402
+/-20%
50V
X7R
2
1
3
R413
2 10K 5% 1 0402
VDD3
TC010-PSS11CET
297004010001
GND
1 H8_ADEN#
2 BATT_DEAD#
3
PWRBTN#
4
5
10
9
8
7
6
RP10KX8
RPSOE_10
RP44
2
4
5
10
9
8
7
6
KI4
KI5
KI6
KI7
1
2
3
4
5
VDD3
KI0
KI1
KI2
KI3
A
VDD3
GND
1206
4.7K*8
CPU_THERMDC 2
VGA_THERMDA 9
VGA_THERMDC 9
Title
8050 MOTHER B/D
Size
C
4
2
0:for external flash
GND
5
B
+3VS
PWRBTN#
+3VS
1
1
+3V
1 10K/NA 2
5%
1 10K/NA 2
5%
+5V
SW2
R1002
VCC
TP720
2 1% 0402
2 1% 0402
VDD5
R0A
+2.5VS_DDR
2
SDA
SCL
32
32
32
32
R448 1 2.7K
R449 1 2.7K
GND
POWER BUTTON
10K*4
U706
16
1
BAT_V
BAT_T
BAT_C
BAT_D
RP46
+3VS
H8_THRM_DATA
H8_THRM_CLK
C
BAT_CLK
BAT_DATA
H8_PROCHOT#
A
1
2
3
4
GND
THERMAL SENSOR / FAN CONTROLLER
13,17,23,25
22*4
RPSOA_8C
KI5
8MHZ
TXC8X4.5
GND
5
6
7
8
SUSB#
R430
BAT_CLK
1
D
Q40
1
S
BAT_VOLT
BAT_TEMP
BAT_CLK
BAT_DATA
R446
150
0402
1%
2
2
D18
BAV70LT1
SOT23N
288100070006
R447
GND
2
0
0402
2
VDD3
BAT_DATA
D
S
R486 1
Q49
DTC144TKA
SOT23AN_1
288202240001
GND
For External
flash
KBC_XH8_THRM_CLK
GND
VDD3_AVREF
29
VDD3
GP30/PWM0/FCTRL0
GP31/PWM10/FCTRL1
GP32/FCTRL2
GP33/FCTRL3#
GP34/BANK0
GP35/BANK1
GP36/CE#
GP37/OE#
KBC IC :284583950002
F/W
ASSY:481677700002
D
Q33
1
12,23
+KBC_CPUCORE
28
2 ICH_PWRBTN
DTC144TKA
SOT23AN_1
288202240001
R1
2
R473 1
G
H8_THRM_DATA
13
2
G
B
A20GATE
H8_SUSB
H8_I_LIMIT
H8_PROCHOT#
C Version 284583950002
2N7002
A A20GATE
D20
H8_PWRON_SUSB# 25
25
Q31
R1
K
RLS4148/NA
PQFP80_0.5MM
+5VS
13 ICH_PWRBTN#
0/NA 2
5%
1
12
26,27
VDD3_AVREF
GP54/CNTR0
GP55/CNTR1
10K
0402
5%
H8_HRCIN#
2
9
8
7
6
5
4
W83L950D
+5VS
1 H8_WAKE_UP#
2
1
R453
3
Q26
DTC144TKA
SOT23AN_1
288202240001
WAKE_UP#
3
H8_HRCIN#
1
Q706
R1
3
2
DTC144TKA
SOT23AN_1
288202240001
VDD3S
1
LAD3
LAD2
LAD1
LAD0
R393 1
0
2
0402
A RLS4148
K
D
GND
3
3V LEVEL
HRCIN#
+3VS
1
13 KBC_PCIRST#
13,19,23 LFRAME#
FAN#
2
R87
0
0402
5%
Q42
FDV301N
SOT23_FET
DTC144TKA
SOT23AN_1
288202240001
3
13,19,23 LAD[0..3]
0/NA 2
0402
U16
70
69
68
67
66
65
64
63
LAD[0..3]
1
1
C104
0.1U
0402
+80-20%
50V
2
Q14
SI2301DS
D
1
2
3
12
S
1
2
2
1
G
13
R267
0402
11 PCICLK_KBC
13,14,17,19 SERIRQ
R88
10K
0402
5%
D
S
GND
J707
FAN
C94
0.1U
0402
+80-20%
50V
R394 1
2
FPC/FFC/1MM/26P
ACES
85202-26-00
291000152603
G
C93
10U
16V
1206
R925
10K
0402
DTC144TKA
SOT23AN_1
288202240001
GND
GND
+3V
1
BATT_DEAD
13,24
GND
+5V
+3V
D
S
H8_RSMRST G
2 H8_SCI
GND
Q39
1
33
R1
1
KBD_US/JP#
Q27
BATT_DEAD#
2
13,25
Q32
R1
H8_THRM#
1
2
1
SB_THRM#
DTC144TKA
SOT23AN_1
288202240001
3
2
1
13
2
RSMRST#
SCI#
2
1
R424 1
22
0402
5%
C453
0.1U
0402
+80-20%
50V
GND
13,24
1
1
1
R395
10K
0402
+VCC_CORE
+KBC_CPUCORE
PULL HIGH at SB END
2
1
1
+3V
1
1
1
+3V
2
1
1
WINBOND KBC
2
1
1
2
120Z/100M/NA
0805C
R1
1
L61
1
1
1
1
Pull HIGH at Other End
2
1
1
VDD3_AVREF
1
1
1
20MIL
VDD3
2
1
KO0
KO1
KO2
KO3
KO4
KO5
KO6
KO7
KO8
KO9
KO10
KO11
KO12
KO13
KO14
KO15
KI7
KI6
KI5
KI4
KI3
KI2
KI1
KI0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
1
3
1
C542
100P
C540
100P
C538
100P
C536
100P
C534
100P
C532
100P
C530
100P
C528
100P
C526
100P
C524
100P
C522
100P
C520
100P
1
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
2 0402
50V
1
1
D
C543
100P
C541
100P
C539
100P
C537
100P
C535
100P
C533
100P
C531
100P
C529
100P
C527
100P
C525
100P
C523
100P
C521
100P
2
KO0
KO1
KO2
KO3
KO4
KO5
KO6
KO7
KO8
KO9
KO10
KO11
KO12
KO13
KO14
KO15
KI7
KI6
KI5
KI4
KI3
KI2
KI1
KI0
Date:
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
22
of
34
5
4
3
2
1
FWH
TOUCH_PAD
+3V
D
D
1
GND
0402
+80-20%
TP_CLK
HDR/MA-6
ACES
87151-0607
1
C897
0.1U
0402
10%
10V
C902
0.1U
0402
10%
10V
MODE
GNDA
VCCA
GND
VDD
OE#/INIT#
WE#/LFRAME#
NC
DQ7/RSV
A7/RSV
A6/RSV
A5/RSV
A4/RSV
A3/RSV
A2/RSV
A1/RSV
A0/RSV
LAD0/DQ0
29
28
27
26
25
24
23
22
21
R364
GND
1 4.7K
GND
2 0402
5%
GND
INIT#
LFRAME#
13,19,22
GND
+3V
R1089
SST49LF004A
R1084
1.5K
0402
5%
2
2
LAD0
LAD1
LAD2
LAD3
LAD0
LAD1
LAD2
LAD3
SYS BIOS Vendor List:
R1073
GND
2,13
SST49LF004A : 283467490001
D23
HINIT#
2
GND
1
2
330
0402
5% INIT#
C
Q718
MMBT3904L
288203904022
B
Q708
MMBT3904L
288203904022
B
330
0402
5%
C 1
JO21
2
2
JO19
13,19,22
13,19,22
13,19,22
13,19,22
C 2
JO20
E
JO18
GND
1
GND
2
DQ1/LAD1
DQ2/LAD2
GND
DQ3/LAD3
DQ4/RSV
DQ5/RSV
DQ6/RSV
1
2
R403 1 8.2K 5% 2 0402
R412 1 8.2K 5% 2 0402
R418 1 8.2K 5% 2 0402
R423 1 8.2K 5% 2 0402
TP_RIGHT
TC010-PSS11CET
297004010001
1
5
6
7
8
9
10
11
12
13
1
1
2
R427 1 8.2K 5% 2 0402
R422 1 8.2K 5% 2 0402
R417 1 4.7K 5% 2 0402
R408 1 4.7K 5% 2 0402
GND
14
15
16
17
18
19
20
SW_RIGHT
2
4
5
+3V
C908
4.7U
0603
6.3V
+80-20%
U15
1
1
2
C143
C144
C154
C172
47P
47P
47P
47P
0402
0402
0402
0402
+/-10% +/-10% +/-10% +/-10%
50V
50V
50V
50V
ESD0805A/NA
SW5
1
3
1
2
4
5
TC010-PSS11CET
297004010001
D29
1
2
TP_LEFT
R132 1
0/NA 2 5%
0402G_DFS
R151 1
0/NA 2 5%
0402G_DFS
J4
6
5
4
3
2
1
TP_DATA
2
120Z/100M
1608
2
1
3
SW_LEFT
1
GND
TP_VDD
1
L37
SW4
GND
2
120Z/100M
1608
22 T_CLK
C
1
1
L36
22 T_DATA
miniSMDC050
0.1U
2
50V
4
3
2
1
32
31
30
0.5A/POLYSW
C771
1
A8/RSV
A9/RSV
RESET#
VPP
VDD
R-C#/CLK
A10/GPI4
120Z/100M
2012
GND
1
R387 1 8.2K 5% 2 0402
2
E
1
2
F701
2
2
L716
R402 1 8.2K 5% 2 0402
R411 1 8.2K 5% 2 0402
2
+5V
1
11 PCICLK_FWH
13 FWH_PCIRST#
ESD0805A/NA
GND
J8
TP_RIGHT
TP56
TP57
1
1
TP_LEFT
TP_CLK
TP_DATA
TP_VDD
1
2
3
4
5
6
7
8
9
10
11
12
LED
D721
R415
AC_BATT_LED#
15
HDD_LED#
2 0402
K
15
0
R458 1
CD_LED#
12,22
2 0402
K
A
0
R465 1
BATT_G#
2 0402
15
R553 1 0402
2 5%
470
R434 1 0402
2
220/NA
5%
R554 1 0402
2 5%
470
A
D32
CL-190G
15
When 8050N ADD J722 and DEL J4
B
VDD3S
0/NA
HDR/MA-12/NA
ACES
87151-1207
291000141204
GND
R433 1 0402
2
220/NA
5%
2 0402
1
R416 1
CD_LED#
HDD_LED#
+5V
2
3
IDE_LED#
1
BAW56/NA
VDD3S
+5V
D33
CL-190G
0/NA
B
When 8050 ADD J4 and DEL J722
D31
VG
4
12,22
R466 1
BATT_R#
2 0402
3
2
R467 1 0402
220/NA
1
0/NA
2 5%
VDD3S
SR
19-22SRVGC/TR8/NA
R441
1 0402
2 5%
470/NA
R420
22
NUM#
NUM#
2 0402
1
K
R555
1 0402
220
A
0
IDE_LED#
+5V
2 5%
+3V
D34
CL-190G
R421
22
CAP#
22
NUM#
22
SCROLL#
22
CAP#
CAP#
2 0402
1
A R556 1 0402
220
K
0
R426 1
2 0402
SCROLL#
2 0402
1
K
A
0
R432 1
2 0402
R557 1 0402
220
2 5%
D37
CL-190G
0/NA
R457
AC_BATT_LED#
A
2 5%
D35
CL-190G
0/NA
R429
+3VS
+3VS
+3VS
2 0402
1
A
0/NA
3
2
R1
74AHC14_V
TSSOP14
3
4
U703C
74AHC14_V
TSSOP14
5
6
14
U703B
U703D
74AHC14_V
TSSOP14
9
1
R1152 1M
8
Q719
DTC114TKA
2 0402
5%
2 0402
0/NA
GND
2
1
GND
GND
1
R1303
12,22 AC_POWER#
7
288202215001
7
BATT_LED#
1
22
BATT_LED#
7
1
13,17,22,25 SUSB#
Q720
DTC114TKA
288202215001
R1
2
14
0
3
12 BATT_POWER#
2 0402
1
14
R468
BATT_POWER#
C947
4.7U
0805
+80-20%
Title
8050 MOTHER B/D
Size
C
1
R1140 180K
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
0402
5%
Date:
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
23
of
34
5
4
3
2
1
PULL -HIGH
PCI PULL HIGH
AGP PULL HIGH
+3V
8.2K
8.2K
8.2K
8.2K
D
1
1
1
1
R187
R847
R1119
R808
2
2
2
2
0402
0402
0402
0402
PCI_INTA#
PCI_INTB#
PCI_INTC#
PCI_INTD#
7,13
13,17
13,17
13,19
PCI_INTE#
PCI_INTF#
PCI_INTG#
PCI_LOCK#
13,16
13,17,19
13,18
13
GPIO PULL HIGH
+3V
+3V
8.2K
8.2K
8.2K
8.2K
1 R191
1 R194
1 R841
1 R868
2 0402
2 0402
2 0402
2 0402
12,13
1
1
1
1
1
13
ICH_GPI5
4,7,13 AGPBUSY#
R180
R1005
R179
R814
R803
2
2
2
2
2
0402
0402
0402
0402
0402
R186
R207
R802
R201
R200
2
2
2
2
2
0402
0402
0402
0402
0402
PCI_REQ0#
PCI_REQ1#
PCI_REQ2#
PCI_REQ3#
PCI_REQ4#
13,17
13,18
13,19
13,16
13
PCI_GNT0#
PCI_GNT1#
PCI_GNT3#
PCI_GNT4#
PCI_GNT2#
13,17
13,18
13,16
13
13,19
CRT_IN#
13 SB_CARD_PME#
+3V
8.2K
8.2K
8.2K
8.2K
8.2K
CRT_IN#
13,22 KBD_US/JP#
7,13
STP_AGP#
3,13
0402 1 R804
2 8.2K
0402 1 R916
2 10K
5%
2 8.2K
ICH_GPI5
0402 1 R815
AGPBUSY#
0402 2 R788
KBD_US/JP#
0402 1 R165
STP_AGP#
0402 2 R780
B/CB#
+1.5V
1 20K
1%
2 10K
5%
1 20K/NA
1%
2 8.2K/NA
0402 1 R410
D
WHEN USE INTEGRATE VGA
DEL ALL RESISTOR
VDD3S
100K/NA 1 R837
2 0402
5%
100K/NA 1 R866
2 0402
5%
AGP_AD30
4,7
AGP_AD13
4,7
+3V
8.2K
8.2K
8.2K
8.2K
8.2K
1
1
1
1
1
13,22
13
SMBALERT#
2 10K
5%
1 10K
5%
2 10K
5%
2 10K
5%
0402 2 R309
SCI#
0402 1 R464
13,22 WAKE_UP#
0402 1 R382
13,22
+3V
0402 1 R396
EXTSMI#
SMBALERT#
GND
+2.5VS_DDR
+2.5VS_DDR_P
JS708
1
8.2K
8.2K
8.2K
8.2K
8.2K
8.2K
8.2K
1
1
1
1
1
1
1
R211
R231
R230
R241
R244
R212
R218
2
2
2
2
2
2
2
0402
0402
0402
0402
0402
0402
0402
PCI_FRAME#
PCI_SERR#
PCI_IRDY#
PCI_PERR#
PCI_DEVSEL#
PCI_TRDY#
PCI_STOP#
13,16,17,18,19
13,16,17,19
13,16,17,18,19
13,16,17,18,19
13,16,17,18,19
13,16,17,18,19
13,16,17,18,19
2
SHORT-SMT4
JS709
2
+VCCP
1
13
0402 1 R280
CPUPERF#
2 200
5%
2 8.2K
5%
0402 1 R1004
13,16,17,19 PCLKRUN#
SHORT-SMT4
JS710
2
1
+3V
SHORT-SMT4
+3VS
C
GPIO27 0402 1 R282
GPIO28 0402 1 R281
13 GPIO27
13 GPIO28
SPK_OFF
13,21 SPK_OFF
R284 1
0/NA 2 5%
0402G_DFS
R283 1
0/NA 2 0402
2 8.2K
2 8.2K
0402 1 R905
2 8.2K R897 1
R906 1
0/NA 2 0402
0
2 0402
+3VS_P
C
VDD3S
+1.25V_DDR
+1.25V_DDR_P
JS711
+3V
1
JS11
2
1
SHORT-SMT4
JS713
2
+3VS
VDD3S
2
SHORT-SMT4
JS12
1
2
1
SHORT-SMT4
JS715
2
SHORT-SMT4
1
+3V
SHORT-SMT4
R1098 1 10K
0402
5%
14,19 WIRELESS_PD#
+1.8V
+3V
+5VS
1
+5VS_P
R843
R851
R840
R842
IDERST#
MINIPCI_ACT#
GPIO43
GPIO42
2
2
2
2
10K
10K
10K
10K
1
1
1
1
0402
0402
0402
0402
5%
5%
5%
5%
1
7,12,14
7,12,14
7,12,14
7,12,14
PANEL_ID0
PANEL_ID1
PANEL_ID2
PANEL_ID3
1
2
SHORT-SMT4
SHORT-SMT4
JS719
2
+1.35V
1
SHORT-SMT4
JS721
1
2
+3V
PANEL_ID0 10K 1
PANEL_ID1 10K 1
PANEL_ID2 10K 1
PANEL_ID3 10K 1
R11
R12
R13
R14
2
2
2
2
0402
0402
0402
0402
2
SHORT-SMT4
JS717
2
JS718
14,15
14,19
14
14
+1.8V_P
JS716
2
+1.35V_P
JS720
1
2
SHORT-SMT4
JS722
2
SHORT-SMT4
1
SHORT-SMT4
+3V
B
+1.2V/1.0V_M10
R845 1
R232 1
R215 1
2 10K/NA 0402
0402
2 10K
2 10K/NA 0402
MB_ID0 R846 1
MB_ID1 R239 1
MB_ID2 R221 1
VGA_1.2/1.0
0402
2 10K
2 10K/NA 0402
0402
2 10K
MB_ID0
MB_ID1
MB_ID2
B
+1.5V_P
JS723
JS724
1
14
14
14
+1.5V
1
2
SHORT-SMT4
JS725
2
SHORT-SMT4
JS726
2
GND
2
1
1
SHORT-SMT4
SHORT-SMT4
JS727
2
+VCCP
1
+1.05V_P
SHORT-SMT4
1.05V
JS728
1
2
SHORT-SMT4
JS729
1
2
SHORT-SMT4
JS730
2
1
SHORT-SMT4
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
24
of
34
5
4
3
2
1
POWER ON PERPHERIAL CIRCUIT
VDD3_AVREF
Q48
U14
6
1
5
4
SI2301DS
VDD3
+3VS
D
GND
U13
GND
SW_VDD3
SW_VDD3
R523 1
0
AMS3107
SOT223
286303107001
13,15
R522 1
0/NA
PCIRST#0
2
1
1
2
AME1117
SOT223
R259 1
1K
2
DTC144WK
288202237002
GND
GND GND
C295
2.2U
0603
+/-10%
D
GND
2 0402
1%
GND
GND
R253
200
0402
1%
2 0402
5%
1
2
C355
10U
1206
10V
2 0402
5%
2
GND/ADJ
1
22
C342
10U
0805
6.3V
10%
UDZ5.6B
SOD323
VOUT
1
2
3
OUTPUT
1
2
3
Q47
INPUT
C310
0.1U
0402
10%
10V
1
2
GND
GND
D13
LP2951-02
SO8
R321
10K
0402
5%
GND
VIN
2
GND
5VTAP
OUT
ERRGND
2
GND
IN
SENSE
F/B
SHUTDN
A
GND
3
6
1
5
4
1
2
A
2
R525
100K
0402
5%
C517
4.7U
0805
+80-20%
G
D26
UDZS3.6B/NA
SOD323
U6
VDD5
U11
8
2
7
3
K
1
1
G G
D25
RLZ3.6B/NA
MLL34B
K
K
PWR_VDDIN
C381
0.1U
0402
+80-20%
50V
A
2
S
G
C383
10U
0805
6.3V
10%
S
D
1
VDD1.5
VDD3S
D
LP2951-3.3/NA
SO8
R374
10K/NA
0402
5%
Q43
SI2301DS
1
5VTAP
OUT
ERRGND
1
FUSE_1206
3216FF-1
1A-1206
IN
SENSE
F/B
SHUTDN
D
S
8
2
7
3
1
2
D
S
F3
1
2
PWR_VDDIN
GND
GND
GND
+3V
R551 1
0/NA 2 5%
0402G_DFS
OD3
1
2
1
U7
SI4800DY
SO8
2
GND
1 0
GND
S
D
3
2
1
4
2
GND
1
Q18
DTA144WK/NA
SOT23AN_SC70_1
2
2
Q17
D
R260
1 22K/NA 2
0402 1%
D Q19
S
2N7002
G
2N7002/NA
D
S
G PWRON_SUSB#
S
+3VS
0603
3
R251
220K
0402
5%
GND
1
GND
C708
0.1U
0402
+80-20%
50V
R2501 1M
0402 5%
PWRON_SUSB#
R18
1
GND
C283
2.2U
0603
+/-10%
G
C313
1
DVMAIN
5%
PWRON_SUSB#
10U
6.3V
0805
10%
DVMAIN
SI2301DS/NA
1
OD3
C284
2
120Z/100M
2012
8
7
6
5
0.047U
G
1
L47
1
GND
B
120Z/100M
2012
S
2 0402
DRAIN3
DRAIN1
DRAIN2
GND
SI4788CY/NA
SO8
GND
2N7002
2
1 0
SOURCE3
SOURCE2
SOURCE1
VIN
2
2
C329
1U
0402
+80-20%
10V
D
S
GND
R17
2
1
C717
2.2U
0603
+/-10%
VCC_ON
+2.5V_M10
1
S
Q701
D
S
C16
0.1U
0402
+80-20%
50V
GND
1
2
1
2
VCC_ON
2 0402
5%
L46
5
6
7
8
Q722
D
S
GG
GND
1
2
S
10U
6.3V
0805
10%
4
3
2
1
D 2
D
S
SI2301DS/NA
OD5
G
2
2
2
Q721
2N7002
D
S
C715
R1249
0/NA
0805
R355 1
0/NA
3
For ATI VRAM
U8
GND
R707
1K
0402
5%
2
D
S
GG
Q10
+2.5VS_DDR
2
100K
0402
5%
D
GND
2
2
R366
10K/NA
0402
5%
DTC144TKA/NA
D
2
1
GND
C712
0.1U
0402
+80-20%
50V
4
R705
1
1
C710
1U
0402
+80-20%
10V
120Z/100M
2
2012
L706 120Z/100M
1
2
2012
PWRON_SUSB# 26,28,29,30,31
1
1
1
2
1
C705
10U
0805C
10V
2
1
2
4
2
R1248
0/NA
0805
GND
R21
1K
0402
5%
2
100K
0402
5%
1
1
1
2
GND
C13
0.1U
0402
+80-20%
50V
+5VS
Q25
PWRON_SUSB#
L707
8
7
6
5
G
2
D
G
R15
1
+3VS
PWRON_SUSB# 1
R480 1
0/NA 2 5%
0402G_DFS
R548 1 0/NA
2 0402
5%
+3V
AO4403
SO8
3
2
1
S
D
S
C706
1U
0402
+80-20%
10V
GND
GND
U707
+3VS
For Lan
120Z/100M
2
2012
L704 120Z/100M
1
2
2012
C707
2.2U
0603
+/-10%
1
1
+5V
L703
8
7
6
5
GND
R1
+5V_H
AO4403
SO8
13,22
C486
10U/NA
0805
6.3V
10%
R368
10K/NA
0402
5%
13,17,22,23 SUSB#
U704
22
R508
100K
0402
5%
R362
10K
0402
5%
22 H8_PWRON_SUSB#
3
2
1
H8_RESET#
R474
294K/NA
0402
1%
VDD3
1
GND
GND
+5VS
RSMRST#
DTC144TKA/NA
2
VDD3S
GND
B
C
2
DTC144TKA
288202240001
GND
1
IMP811
SOT143
C506
0.01U
0402
+80-20%
50V
KBC_PWRON_VDD3S 22
1
H8_RESET#
1
2
2
1
GND
R312
100K
0402
5%
809S
2.93V
R358
4.7K
0402
5%
2
1
3
1
DTC144TKA
288202240001
1
Q50
R1
0/NA 2 5%
1
0402G_DFS
RESET
VCC
1
R25
2
MN
R456
4.7K/NA
0402
5%
Q34
3
4,12,13,17,31
1
4
2
3
+3VS
Q12
R1
1
2
3
PWROK
GND
VDD3S
2
ADEN#
BAS32L
BAS32L
2
RESET#
GND
U21
2
K
VDD3
0
0402
5%
2
2
22,32
THERM_ERR# 14,22
+3VS
1
G
Q44
1
ADEN#
2 THERM_ERR#
1
VDD3
2
120Z/100M/NA
2012
VCC
C326
0.1U
0402
10%
10V
R501
1
1
1
A
ADEN#
K
1
+3VS
R531
10K
0402
5%
D24
2
2
D7
3
4,12,13,17,31
R1
R375
10K
0402
5%
A
C508
2.2U
0603
+/-10%
DTC144TKA
2882022400013
VDD3S
2
2
R561
100K
0402
5%
1
G
1
VDD5
C24
2.2U
0603
+/-10%
2
120Z/100M
2012
L72
G
G
1
1
2
D
S
D
S
C
D
D
R1
L71
S
R28
100K
0402
5%
PWROK
SI2301DS
VDD5S
SI2301DS
S
1
VDD5
VDD3
2
Q51
Q13
1
H8 RESET# / RSMRST#
PWROK
U10
MAX809
SOT23N
286300690001
2
GND
2 0402
GND
OD5
5%
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
25
of
34
5
4
3
2
1
+2.5VS_DDR_P/+1.25V_DDR_P
DVMAIN
PL716
JS703
1
2
2
1
SHORT-SMT4
D
2
D
1
2
2012
120Z/100M
PC791
0.01U
0402
10%
50V
1
GND
1
1
5
6
4
S
1
1
2
3
4
5
6
7
8
1
PC76 PR116
100P 11.8K
0402 0402
+/-10% 1%
50V
PR113
20.5K
0402
1%
K
1
2
2
PC69
1000P
0402
10%
50V
JS6
2
2
SENSE1.251000P
0402
50V
10%
1
2
PR122
15K
0402
1%
PR121
1K
0402
1%
BZV55C2V4/NA
SENSE1.25+
2
2
2
2
1
PC75
220P
0402
10%
50V
1
1
1
2
PC74
47P
0402
10%
50V
2
2
1
1
1
PR124
2K
0402
1%
PR117
20K
0402
1%
PC73
220P
0402
10%
50V
PD724
PC798
+ 150U
7243
6.3V
2
PC72
2
PR118
43.2K
0402
1%
AO4900
SO8
PC800
0.1U
0402
+80-20%
50V
A
S
1
PC797
10U
1210
10V
2
G
SENSE2.5-
GND
+1.25V_DDR_P
.012
2010
1%
2
1
1
PU709B
C
2
D
2
1
PC70
PC71
1000P
0402 1
2
10%
50V
1000P GND
0402
50V
SENSE2.5+
10%
PR744
2 1.25V_2 1
3.0UH
SPC-05703
30%
1
1
S
PC790
0.1U
0402
+80-20%
50V
PL717
1
1
2
NC1
SW2
TG2
RUN/SS2
SENSE2+
SENSE2NC0
VOSENSE2
SW1
TG1
PGOOD
RUN/SS1
NC2
SENSE1+
SENSE1NC3
SGND1
SGND2
SGND3
SGND4
SGND5
1
AO4900
SO8
3
G
16
15
14
13
12
11
10
9
7
8
AO4900
SO8
D
25
26
27
28
29
30
31
32
33
34
35
36
37
2
2
PU709A
D
G
VOSENSE1
PLLFLTR
PLLIN
FCB
ITH1
SGND
3.3VOUT
ITH2
PU708B
1
2
2
1
A
3.9UH
SPC-08045
30%
2
PC787
+ 330U
7343
4V
PC66
0.1U
0805
10%
BOOST1
VIN
BG1
EXTVCC
INTVCC
PGND
BG2
BOOST2
3
1
0.008
2512
1%
2
2
1
K
PD723
1
PC789
+ 330U/NA
7343
4V
PC788
+ 330U
7343
4V
BZV55C3V3/NA
PL715
2
PU15
LTC3728L
HVQFN32_1
24
23
22
21
20
19
18
17
GND
S
8
7
PR742
1
2
3
1
2
PC68
0.1U
0402
+80-20%
50V
GND
+2.5VS_DDR_P
GND
10U
16V
1206
1
6
5
4
PC795
1000P
0402
10%
50V
2
4.7
0603
1%
2
2
1
1
2
PC65
0.1U
0805
10%
G
1
BAW56
SOT23N
PC67
INTVCC12
1
2
0
0402
5%
AO4900
SO8
D
1
PD7
PR111
1
+5VS_P
PU708A
PR110
288100056017
2
2
1
PJL2
PC793
1000P
0402
10%
50V
2
GND
GND
PR109
4.7
0603
1%
JP_NET20
JP_NET20
1
1
1
2
PC796
10U
1210
25V
20%/X5R
GND
C
PC801
0.01U
0402
10%
50V
2
1
PC794
10U
1210
25V
20%/X5R
2
1
2
PC792
0.01U
0402
10%
50V
PJL1
PC799
10U
1210
25V
20%/X5R
1
2
1
SHORT-SMT1
B
GND
PR120
0
0402
5%
B
2
VDD5
SGND1
VDD5
D
2
D
S
1
PR112
100K
0402
1%
PQ22
2N7002
R371
0402
1
0/NA 2
5%
PR123
1M
0402
1%
25,28,29,30,31 PWRON_SUSB#
PQ20
2N7002
R356
0402
1
0
5%
2
SGND1
D
S
G
PQ21
2N7002
C367
0.1U/NA
0402
+80-20%
50V
PR115
1M
0402
1%
2
2
SGND1
1
1
S
2
2
C382
0.1U/NA
0402
+80-20%
50V
D
S
G
PQ23
2N7002
D
S
G
1
2
D
0
5%
S
1
1
22,27 H8_PWRON
13,22,27 SUSC#
R369
0402
S
D
S
2
G
INTVCC1
2
PR119
10K
0402
1%
D
1
1
PR114
100K
0402
1%
SGND1
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
26
of
34
5
4
3
2
1
+3VS_P/+5VS_P
DVMAIN
PL701
JS704
1
2
1
2
2012
120Z/100M
2
1
SHORT-SMT4
D
2
D
PC710
0.01U
0402
10%
50V
1
GND
PC705
10U
1210
25V
20%/X5R
2
1
1
1
1
PU701A
AO4914
SO8
S
3
2
1
1
2
3
4
5
6
7
8
2
S
1
1
2
PR36
19.6K
0402
1%
2
1
2
1
2
2
SENSE5V-
1000P
0402
50V
10%
107K
PC26 0402
47P 1%
0402
10%
50V
2
2
2
PC25
180P
0402
10%
50V
PR55
200K
0402
1%
2
12
1
PC23
47P
0402
10%
50V
2
1
PR46
2K
0402
1%
PR41
20K
0402
1%
PC24
180P
0402
10%
50V
PR54
200K
0402
1%
PD707
BZV55B5V6/NA
PC712
+ 150U
7343
6.3V
SENSE5V+
2
2
1
1
1
2
PR42
63.4K
0402
5%
PC717
0.1U
0402
+80-20%
50V
PC19
1
PR35
PC713
+ 150U/NA
7343
6.3V
PC721
10U
1210
10V
K
AO4914
SO8
G
SENSE3-
GND
1
.012
2010
1%
PU701B
2
1
1
+5VS_P
2
D
C
2
2
1
PC17
PC20
1000P
0402 1
2
10%
50V
1000P GND
0402
50V
SENSE3+
10%
PL702
10UH
D124C
20%
A
S
PC737
0.1U
0402
+80-20%
50V
PR707
2 5V_21
1
1
1
1
2
NC1
SW2
TG2
RUN/SS2
SENSE2+
SENSE2NC0
VOSENSE2
1
AO4900
SO8
D
SW1
TG1
PGOOD
RUN/SS1
NC2
SENSE1+
SENSE1NC3
SGND1
SGND2
SGND3
SGND4
SGND5
2
PU702B
8
7
PL703
10UH
D124C
20%
16
15
14
13
12
11
10
9
1
25
26
27
28
29
30
31
32
33
34
35
36
37
G
2
5
6
2
2
1
2
1
D
G
4
7
8
1
.012
2010
1%
K
PC7
0.1U
0805
10%
VOSENSE1
PLLFLTR
PLLIN
FCB
ITH1
SGND
3.3VOUT
ITH2
2
+3VS_P
A
PU2
LTC3728L
HVQFN32_1
BOOST1
VIN
BG1
EXTVCC
INTVCC
PGND
BG2
BOOST2
3
2
GND
S
GND
PC725
+ 150U/NA
7343
6.3V
2
3
1
1
1
4
10U
16V
1206
PC10
0.1U
0402
+80-20%
50V
PR711
BZV55C4V3/NA
GND
2
6
5
PC4
0.1U
0805
10%
G
PC707
1000P
0402
10%
50V
2
4.7
0603
1%
24
23
22
21
20
19
18
17
2
1
2
5%
AO4900
SO8
D
2
BAW56
SOT23N
PC8
INTVCC02
1
PC706
1000P
0402
10%
50V
0
0402
PU702A
JP_NET20
PD708
2
PD1
PR11
1
+5VS_P
1
1
4.7
0603
1%
PJL4
PC719
+ 150U
7343
6.3V
JP_NET20
PR2
288100056017
2
2
1
1
PJL3
PC704
10U
1210
25V
20%/X5R
GND
GND
PR3
GND
C
PC708
0.01U
0402
10%
50V
2
1
PC709
0.01U
0402
10%
50V
2
2
1
1
PC703
10U
1210
25V
20%/X5R
PC14
1000P
0402
10%
50V
JS1
1
2
1
1
SHORT-SMT1
D
S
G
B
SGND0
D
PQ3
2N7002
GND
PR48
0/NA
0402
5%
2
D
PR47
10K
0402
1%
2
B
INTVCC0
D
S
PQ4
2N7002
S
S
G
VDD5
PR9
100K
0402
1%
SGND0
1
1
VDD5
SGND0
2
2
PR10
100K
0402
1%
2
G
PR27
1M
0402
1%
2
PR26
1M
0402
1%
2
C23
0.1U/NA
0402
+80-20%
50V
1
1
1
2
2N7002
G
1
0
5%
2
1
D
S
PR25
0402
1
0
5%
R23
0402
1
0/NA 2
5%
2
H8_PWRON
22,26
SUSC#
13,22,26
S
R24
0402
PQ1
2N7002
S
22,26 H8_PWRON
D
D
PQ2
D
S
C22
0.1U/NA
0402
+80-20%
50V
SGND0
A
A
SGND0
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
27
of
34
5
4
3
2
1
+1.5V_P/+1.05V_P
DVMAIN
PL3
JS10
2
1
SHORT-SMT4
1
1
2
D
2
2012
120Z/100M
PC31
0.01U
0402
10%
50V
D
1
2
GND
SENSE1.5+
1
2
1
1
2
PC727
1000P
0402
50V
10%
+1.05V_P
1
K
PC749
+ 220U
7343
4V
PD716
2
S
AO4900
SO8
PC746
0.1U
0402
+80-20%
50V
BZV55C2V4/NA
PC742
+ 220U/NA
7343
4V
2
PR721
6.49K
0402
1%
2
SENSE1.05+
1
SENSE1.05-
2
1
1
PC734
220P
0402
10%
50V
PC724
1000P
0402
10%
50V
2
2
1
1
PC735
100P
0402
+/-10%
50V PR722
20K
PR727
0402
15K
0402
1%
1%
2
2
1
12
PC736
100P
0402
+/-10%
50V
2
2
PR726
20K
0402
1%
1
1
PR725
2K
0402
1%
PC738
180P
0402
10%
25V
PR728
15K
0402
1%
JS701
2
2
1
1
2
PR718
18K
0402
1%
+3VS_P
GND
1
PR717
B
2
SHORT-SMT1
1
2
D
S
G
GND
PR723
0/NA
0402
5%
D
0
0402
5%
PQ705
2N7002
SGND3
2
2
PU6B
2
.012
2010
1%
2
1000P GND
0402
50V
10%
1
31 VCCP_PWRGD
3.9UH
SPC-08045
30%
1
D
1
1
PR732
2
G
SENSE1.5-
B
PL707
1
1
2
3
4
5
6
7
8
1
1000P
0402
50V
10%
16
15
14
13
12
11
10
9
A
PC731
PC726
NC1
SW2
TG2
RUN/SS2
SENSE2+
SENSE2NC0
VOSENSE2
SW1
TG1
PGOOD
RUN/SS1
NC2
SENSE1+
SENSE1NC3
SGND1
SGND2
SGND3
SGND4
SGND5
1
2
S
1
1
2
1
24
23
22
21
20
19
18
17
3
D
PC730
0.1U
0402
+80-20%
50V
PR715
100K
0402
1%
AO4900
SO8
7
8
AO4900
SO8
1
2
1
K
A
2
PC728
PC729
+ 220U/NA + 220U
7343
7343
4V
4V
2
3
2
25
26
27
28
29
30
31
32
33
34
35
36
37
PU4B
1
2
3.9UH
SPC-08045
30%
2
PD710
C
S
1
1
G
BZV55C2V4/NA
4
2
2
.012
2010
1%
PU6A
D
G
VOSENSE1
PLLFLTR
PLLIN
FCB
ITH1
SGND
3.3VOUT
ITH2
1
PL706
8
7
+1.5V_P
PC714
0.1U
0805
10%
BOOST1
VIN
BG1
EXTVCC
INTVCC
PGND
BG2
BOOST2
3
GND
PR719
PU703
LTC3728L
HVQFN32_1
1
2
PC718
0.1U
0402
+80-20%
50V
GND
S
C
10U
16V
1206
1
1
1
1
2
PC715
0.1U
0805
10%
4
GND
2
6
5
AO4900
SO8
G
PC30
1000P
0402
10%
50V
4.7
0603
1%
5
6
2
2
0
0402
5%
PU4A
D
1
BAW56
SOT23N
PC716
INTVCC32
1
PC40
1000P
0402
10%
50V
2
2
1
1
PD705
PR713
+5VS_P
PR708
288100056017
2
4.7
0603
1%
GND
JP_NET20
JP_NET20
GND
GND
PR709
1
PJL6
PJL5
PC739
10U
1210
25V
20%/X5R
1
PC744
10U
1210
25V
20%/X5R
2
2
2
PC743
10U
1210
25V
20%/X5R
2
1
1
1
2
PC32
0.01U
0402
10%
50V
PC38
0.01U
0402
10%
50V
1
S
VDD5
SGND3
2
INTVCC3
PR724
10K
0402
1%
2
D
PR733
100K
0402
1%
1
D
S
D
0
5%
2
D
S
G
PQ706
2N7002
SGND3
PR730
1M
0402
1%
2
2
C714
0.1U/NA
0402
+80-20%
50V
S
1
1
R714
0402
1
25,26,29,30,31 PWRON_SUSB#
PQ703
2N7002
S
G
SGND3
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
28
of
34
5
4
3
2
1
+1.8V_P/+1.35V_P
DVMAIN
PL712
JS706
2
1
2
2012
120Z/100M
PC765
0.01U
0402
10%
50V
2
SHORT-SMT4
1
1
D
D
2
GND
1
1
1
S
1
1
2
3
4
5
6
7
8
AO4900
SO8
PC780
0.1U
0402
+80-20%
50V
K
2
1
1
1
1
1
SENSE1.21000P
0402
50V
10%
PR96
13.7K
0402
PC62 1%
100P
0402
PR107 +/-10%
50V
15K
0402
PR97
1%
19.6K
0402
1%
PC63
180P
0402
10%
50V
BZV55C2V4/NA
SENSE1.2+
2
2
2
2
2
2
2
2
2
1
1
2
PR99
19.6K
0402
1%
PC61
180P
0402
10%
50V
PR105
15K
0402
1%
PD722
PC782
+ 150U
7343
6.3V
PC55
1000P
0402
10%
50V
JS3
1
2
B
1
SHORT-SMT1
GND
PR103
0
0402
5%
2
1
2
SGND2
2
MCH_PG
12
1
1
2
1
PR101
2K
0402
1%
PC60
100P
0402
+/-10%
50V
PR94
31
PC783
+ 150U/NA
7343
6.3V
PC57
PR93
100K
0402
1%
B
+1.35V_P
D
1
2
PR98
24.9K
0402
1%
+3VS_P
PU707B
2
.012
2010
1%
2
SENSE1.8-
GND
3.0UH
SPC-06703
30%
G
1
1
PR741
2 1.2V_2
1
1
2
2
BZV55C2V4/NA
PC56
PC59
3300P
0402 1
2
10%
50V
1000P GND
0402
50V
SENSE1.8+
10%
PL714
A
S
PC767
0.1U
0402
+80-20%
50V
A
2
1
PC770
+ 150U
7343
6.3V
1
1
K
2
C
AO4900
SO8
1
AO4900
SO8
16
15
14
13
12
11
10
9
2
PU705B
D
G
PD719
S
NC1
SW2
TG2
RUN/SS2
SENSE2+
SENSE2NC0
VOSENSE2
SW1
TG1
PGOOD
RUN/SS1
NC2
SENSE1+
SENSE1NC3
SGND1
SGND2
SGND3
SGND4
SGND5
1
3.0UH
SPC-06703
30%
25
26
27
28
29
30
31
32
33
34
35
36
37
1
.012
2010
1%
2
7
8
1
VOSENSE1
PLLFLTR
PLLIN
FCB
ITH1
SGND
3.3VOUT
ITH2
2
PU707A
D
G
4
3
PL713
1
8
7
PR739
+1.8V_P
PC52
0.1U
0805
10%
BOOST1
VIN
BG1
EXTVCC
INTVCC
PGND
BG2
BOOST2
3
GND
C
PU14
LTC3728L
HVQFN32_1
24
23
22
21
20
19
18
17
GND
S
5
6
2
PC54
0.1U
0402
+80-20%
50V
2
2
4
GND
10U
16V
1206
1
6
5
1
1
1
2
PC51
0.1U
0805
10%
G
PC776
1000P
0402
10%
50V
2
4.7
0603
1%
2
2
AO4900
SO8
D
2
0
0402
5%
PU705A
1
BAW56
SOT23N
PC53
INTVCC22
1
PC777
1000P
0402
10%
50V
3
1
+5VS_P
JP_NET20
1
PD6
PR92
PJL8
PR90
288100056017
2
4.7
0603
1%
GND
1
GND
PR91
1
JP_NET20
2
2
PC779
10U
1210
25V
20%/X5R
2
2
PC774
10U
1210
25V
20%/X5R
2
2
PC50
0.01U
0402
10%
50V
1
1
1
1
PJL7
PC766
0.01U
0402
10%
50V
0
0402
5%
1
2
INTVCC2
PR102
10K
0402
1%
D
VDD5
D
S
PQ17
2N7002
D
S
1
G
PR95
100K
0402
1%
2
SGND2
D
S
G
PQ16
2N7002
A
D
S
A
2
D
S
G
PR106
1M
0402
1%
SGND2
2
2
C142
0.1U/NA
0402
+80-20%
50V
PQ18
2N7002
S
0
5%
1
1
1
25,26,28,30,31 PWRON_SUSB#
R103
0402
Title
8050 MOTHER B/D
SGND2
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
29
of
34
5
4
3
2
1
+1.2V/1.0V_M10
DVMAIN
PL718
2
PJL10
1
PC805
10U/NA
1210
25V
20%/X5R
1
JP_NET20
1
PC804
10U/NA
1210
25V
20%/X5R
2
1
PC803
10U/NA
1210
25V
20%/X5R
2
2
GND
PC806
0.01U/NA
0402
10%
50V
2
1
GND
PR72
1M/NA
0402
5%
GND
A
2
K
PC64
10U/NA
16V
1206
PR108
GND
1
PR125
0402
0/NA 2
5%
4.7/NA
0603
1%
GND
1
2
PC81
0.1U/NA
0805
10%
4
14
13
12
11
10
9
8
+1.2V/1.0V_M10
S
1
2
3
PL719
4
2
2.2UH/NA
IHLP5050CE-01
20%
PC814
+ 330U/NA
7343
4V
PC811
+ 330U/NA
7343
4V
PC815
+ 330U/NA
7343
4V
2
PD727
EC31QS04-TE12L/NA
DC2010
PD726
PC816 BZV55C2V4/NA
0.1U/NA
0402
+80-20%
50V
A
K
1
2
3
2
S
K
AO4410/NA
SO8
288204410010
G
PC79
0.1U/NA
0402
+80-20%
50V
PU712
A
D
1
1
2
1
2
1
2
PC78
0.01U/NA
0402
10%
50V
2
PR126
8.2K/NA
0402
5%
1
1
SC1470/NA
TSSOP14
2
BST
DH
LX
ILIM
VDDP
DL
PGND
EN/PSV
VIN
VOUT
VCCA
FB
PGOOD
AGND
1
SGND7
SI4800DY/NA
SO8
G
PU16
1
2
3
4
5
6
7
PU710
D
5
6
7
8
2
PC77
0.1U/NA
0402
+80-20%
50V
5
6
7
8
C
1
1
1
EC10QS04/NA
2
2
1
PD725
PC37
0.1U/NA
0402
+80-20%
50V
2
2
10/NA
0402
5%
25,26,28,29,31 PWRON_SUSB#
GND
+5VS_P
PR100
1
C
PC807
1000P/NA
0402
10%
50V
1
2
D
2
2012
120Z/100M/NA
PC802
0.01U/NA
0402
10%
50V
1
1
2
2
SHORT-SMT4
1
JS707
1
1
D
JS9
1
2
SHORT-SMT1
B
B
GND
SGND7
2
D
S
G
2
PR130
100K/NA
0402
1%
PQ19
2N7002/NA
S
1
1
7 SW_1.5V/1.25V
PR129
10K/NA
0402
1%
2
PR127
10K/NA
0402
1%
2
D 2
PR128
24.9K/NA
0402
1%
1
1
1
PC80
0.1U/NA
0402
10%
10V
SGND7
SGND7
A
A
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
30
of
34
5
4
3
+5VS_P
2
1
1
1
CPU_CORE
MCH_PG
29
VRMPWRGD
13
2
PR5
10
0402
1%
2
PR4
10K
0402
1%
PR6
1
PC751
0.01U
0402
10%
50V
1
PJL9
JP_NET20
1
2
PC752
10U
1210
25V
20%
2
1
1
PC757
10U
1210
25V
20%
2
1
PC753
10U
1210
25V
20%
2
PC754
10U
1210
25V
20%
2
2
1
1
1
2
1
2
2
25
BOOST
5
6
7
8
5
6
7
8
S
PR740
.001
2512C
1%
1
2
3
1
2
3
20
PL711
19
1
2
1
+VCC_CORE
C
2
PU13
FDS7788
SO8
4
S1-
1
PC778
+ 220U
7243
2V
1
S1+
PC785
+ 220U
7243
2V
PU11
FDS7788
SO8
D
G
PC773
0.1U
0402
+80-20%
50V
4
PC784
+ 220U
7243
2V
K
4
D
G
1
PR31
0
0402
5%
LTC3734
HVQFN32
S
S
S
PD718
2
2
2
K
1
1
1
VDD3
1
S
C
2
1
1
2
2
GND_A
1
2
PWROK
4,12,13,17,25
PR73
0/NA
0402
5%
PQ10
MMBT3904L
288203904022
B
E
GND_A
43.2K
0402
1%
PC35
1U
0402
+80-20%
10V
GND_A
A
1
2
S
PQ7
2N7002
SOT23_FET
2
S
1
PC27
100P
0402
+/-10%
50V
PR62
1M
0402
1%
GND_A
PC28
3300P
0402
10%
50V
2
C26
0.1U/NA
0402
+80-20%
50V
PR66
80.6K
0402
1%
PR50
1M
0402
1%
2
1
2
0
0402
5%
D
S
G
PQ5
2N7002
SOT23_FET
CORE_CLKEN# 11
PR68
1.91K/NA
0402
1%
PR60
1
1
D
D
S
2
2
1
1
PR58
4.12K
0402
1%
E
1
2
D
PR61
25,26,28,29,30 PWRON_SUSB#
PQ8
2N7002
SOT23_FET
PQ9
MMBT3904L
288203904022
B
RUN/SS
PR49
100K
0402
1%
G
A
D
S
G
VDD5
VID0
VID1
VID2
VID3
VID4
VID5
2
PR56
0
0402
5%
VDD3
2
2
2
1
PR51
2K/NA
0402
1%
PR59
1M
0402
1%
2
PR64
249K/NA
0402
1%
GND_A
VID[0..5]
VCCP_PWRGD 28
PR57
0
0402
5%
2
C
1
1
1
2
PR729
249K
0402
1%
1 PR731
2K
0402
1%
1
1
2
2
1
VDD3
VID0
PC29
1000P
0402
10%
50V
2
+3V
+3VS
VID1
D
1
VID2
1
2
VID[0..5]
B
VID3
PR53
1K
0402
1%
3
VOS-
2
PR104
0
0402
5%
GND
VID4
2
1
2
SHORT-SMT1
GND_A
PC22
100P/NA
0402
+/-10%
50V
BZV55C2V4/NA
A
2
JS2
1
VID5
PD720
PC781
+ 220U
7243
2V
PC775
+ 220U
7243
2V
2
1
2
3
1
2
1
1
1
2
PR34
0
0402
5%
PR40
0
0402
5%
RUN/SS
PC13
10U
1206
10V
PC12
0.1U
0402
+80-20%
50V
2
PC786
+ 220U/NA
7243
2V
1
PR43
499K
0402
1%
13.3K
0402
1%
PR33
0
0402
5%
PR52
0
0402
5%
2
1
2
2
PR19
PR16
1.3M
04021
1%
PR17
12.7K
0402
1%
1
2
PR44
0
0402
5%
1
PC5 100K
1000P0402
0402 1%
+80-20%
50V
B
1
2
EC31QS04-TE12L
DC2010
A
2
56.2K
0402
1 1%
1
1
2
2
GND_A
+5VS_P
1
1
2
3
PR15
PR12
1
1
2
3
2
2
GND_A
PU12
FDS7788
SO8
2
1
D
G
2
0.68UH
IHLP-5050CE
15%
GND
17
1
18
NC
16
VID2
VID0
VID1
15
14
9
2
S
2
VID3
S
21
5
6
7
8
RDPRSLP
4
GND
PU10
FDS6694
SO8
D
G
22
5
6
7
8
VID4
PR39
2.32K
0402
1%
PC58
1000P
0402
+/-20%
50V
23
5
6
7
8
VID5
SENSERDPSLP
SENSE+
RBOOT
8
13
7
PGND
24
PU8
FDS6694/NA
SO8
4
1
2
3
PGOOD
MCH_PG
VFB
SVCC
5
6
7
8
26
27
28
29
30
31
DPRSLPVR
BG
SGND
6
1
FREQSET
STP_CPUB
5
PU9
D
FDS6694
G
SO8
4
D
PVCC
ITH
2
PR38
10
0402
1%
4
RUN/SS
1
2
1
PC750
10U
1210
25V
20%
GND
G
TG
12
13.3K
0402
1%
GND_A
PC21
1000P
0402
10%
50V
2
PR37
10
0402
1%
PC755
10U
1210
25V
20%
GND
SW
OAOUT
GND_A
1
2
PL4
120Z/100M
2012
PC41
1000P
0402
+/-20%
50V
PU3
VOA-
3
11
2
C
1
1
1
A
1
2
PR29
1
32
33
2
2
GND_A
PC11
220P
0402
10%
50V
1
VOA+
10
1
PR28
576K
0402
1%
PR18
1
0402
1%
2
2
PC18
1000P
0402
50V
2
+80-20%
1
2
PC9
0.1U
0805
X7R
PR8
4.7
0603
1%
2
PSIB
PR30
100K
0402
VOS-1%
1
EC10QS04
SGND1
2
2
7A/24VDC
1
DD_CPU
1
PF2
PD706
1
1
1
2
PR710
1.96K
0402
1%
+3V
2
PR13
0
0402
5%
K
1
1
PR32
0
0402
5%
S1-
+5VS_P
PL5
120Z/100M
2012
1
3,11,13 STOP_CPU#
S1+
DVMAIN
2
2
0
0402
5%
2
PM_PS
PC15
100P
0402
+/-10%
50V
PR712
0
0402
5%
2
1
13,14 DPRSLPVR
2
1U
0402
10V
+80-20%
2
PR14
D
PR7
0
0402
5%
2
GND_A
2
2.2K
0402
1%
2
1
1
1
PC6
D
PD4
GND_A
Title
8050 MOTHER B/D
2
3
Size
C
1
BAT54C
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
Date:
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
31
of
34
5
4
3
2
VMAIN/DISCHARGE
1
PWR_VDDIN
PD704
2
PD702
1
3
3
2
1
D
PL1
120Z/100M
2012
PQ701
AO4407
SO8
DVMAIN
33
PD703
1
3
PR720
1
PR71
226K
0402
1%
2
22,25
G
PC1
0.01U
0402
10%
50V
1
3
2
DTC144WK
288202237002
PC733
0.01U
0402
+80-20%
50V
1
2
1
2
1
2
1
2
PC732
1000P
0402
+/-20%
50V
PL705
120Z/100M
2012
GND
1
PC3
1U
0805
10V
B2
2
1
2
1
2
1
PC722
0.01U
0402
10%
50V
BAT_V
22
PC723
0.1U
0402
+80-20%
50V
3
+
2
4
2
2
PR714
100K
0402
1%
PR21
20K
0402
1%
2
GND
1
1
B
PU5A
LMV393M
SSOP8
GND
PC16
0.1U
0402
+80-20%
50V
2
B1
R/A-7P-2.5MM
SUYIN
250233-MR007G123ZU
1
1
BAT_T
VDD5
22
8
GND
PR20
4.99K
0402
1%
GNDB
GND
PR716
499K
0402
1%
2
7
6
5
4
3
2
1
PC720
0.01U
0402
10%
50V
33
1
J703
BATT
PL704
120Z/100M
2012
1
1
2
VDD3S
B3
1
7A/24VDC
2
1
PF702
1
2
2
1
22
2
PQ24
2
GND
B
33
GND
GND
7
6
5
4
3
2
1
1
BATT
GND
I_LIMIT
1
5
6
7
8
C
D PQ6
S 2N7002
SOT23_FET
1
ADEN#
1
2
PR1
10
0402
5%
OPEN-SMT4
2
2
1
GND
S
GND1
GND0
MAX4173FEUT-T
SOT26
PR45
33K
0402
5%
PJO701
1
OUT
3
PQ704
AO4407
SO8
2
1
6
VCC
PQ702
2N7002
S
1
PR705
1M
0402
5%
PU1
RS+
RS-
D
S
G
GND
4
5
PC86
0.01U
0402
+80-20%
50V
D 2
LEARNING
1
2
3
1
D
1
1
C
PC740
0.01U
0402
10%
50V
4
GND
2
2
GND
22 LEARNING
PC711
1000P
0402
+/-20%
50V
2
100K
0402
5%
1
2
SPARKGAP_6
PC85
1000P
0402
+/-20%
50V
G
2
PR703
100K
0402
5%
JO2
SPARKGAP_6
PC84
1000P
0402
+/-20%
50V
D
JO1
PC83
0.01U
0402
+80-20%
50V
2
1
PC82
0.01U
0402
+80-20%
50V
2
2
PR706
4.7K
0805
PR704
4.7K
0805
2
PC821
1000P
0402
+/-20%
50V
2
1
SBM1040
1
1
PC820
1000P
0402
+/-20%
50V
2
1
PC819
0.01U
0402
+80-20%
50V
2
PC818
0.01U
0402
+80-20%
50V
2
1
1
1
2
2
PR702
470K
0402
5%
A
PD701
RLZ24D
MLL34B
1
K
PR701
.01
2512
1%
1
1
2
3
4
PC702
0.01U
0402
10%
50V
ADINP
8
7
6
5
G
PC701
1U
0805
25V
A4
2
D
PL2
120Z/100M
PC2 2012
0.01U
0402
10%
50V
1
3
2
1
S
2
A3
1
2
2
1
1
2
A1
7A/24VDC
A2
2
2
1
OPEN-SMT4
PF1
1
JACK-2P
331910002006
2
4
PJ701
2DC-S107B200
JO701
1
S
2
D
BAV70LT1
288100070006
BAV70LT1
288100070006
GND
PR23
2
0
0402
5% PR24
1
2
BAT_C
22
BAT_D
22
PD2
0
0402
5%
2
VDD3
3
1
PD3
BAV99
2 288100099012
3
VDD3
2
2
1
JO11
SPARKGAP_6
A
BAV99
288100099012
JP1
SPARKGAP_6
A
1
1
GND
GND
GND
GND
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
32
of
34
5
4
3
2
1
CHARGING
PQ707
AO4407
SO8
PL709
32
K
BZV55C15V
PD711
RLZ20C/NA
MLL34B
1
1
1
PC39
PR75
20K
1000P
0402
0402
0.1%
50V
10% 2IN+
A
2
A
PC741
10U
1210
25V
BATT
EC31QS04
DC2010
PD709
EC31QS04
DC2010
E
GND
GND
2
3
D
PR83
100K
0402
5%
2
1
1
PR79
124K
0402
1%
PR22
1
2
PR81
1
2
0.1U
0402
16V
10%
0.1U
0402
50V
+80-20%
PR77
2.49K
0402
1%
6.19K
0402
1%
PR80
1
GND
GNDB
2
63.4K/NA
0402
5%
PJS1
2
PR78
1
22 I_CTRL
B
2
.02
2512
1%
2
1
2
1
PR84
7.5K
0402
5%
1
PC44
PC45
REF
PC47
1000P
0402
10%
50V
2
PR82
10K
0402
1%
C
2
0.01U
0402
50V
+80-20%
OPEN-SMT4
1
1
1
2
2
PC42
1
G
1
2
0.01U
0402
50V
+80-20%
PC46
1U
0805
10V
2
1
22 CHARGING
PR85
0
0402
5%
PC43
TL594C
SO16
2
PQ12
D 2N7002
S SOT23_FET
S
1
1
2IN+
GND
E1
C1
E2
GND
C2
RT
VCC
CT
OUTPUTCTRL
DTC
REF
FEEDBACK
2IN1IN2IN+
1IN+
8
7
6
5
4
3
2
1
2
2
C
PJ1
PU7
9
10
11
12
13
14
15
16
PC48
0.01U
0402
10%
50V
PR76
249K
0402
1%
2
1
PR74
13.7K
0402
0.1%
PC49
0.01U/NA
0402
50V
+80-20%
1
2
1
D
GND
A
BAS32L
MLL34B
PQ14
D 2N7002
S SOT23_FET
S
G
K
PQ13
DTA144WK
SOT23AN_1
2
22 CHARGING
2
PR86
0
1206
5%
2
PD5
1
1
1
GND
3.0UH
PC758 SPC-06703
0.01U 30%
0402
10%
50V
12.65V
PD713
K
A
2
PD714
2
PQ15
MMBT2222A
288202222019
B
2
K
1
PR89
100K
0402
5%
PC756
10U
1210
25V
2
2
1
33UH
CDRH124
1
K
L5
2
1
1
A
PL710
L4
4
1
PR88
4.7K
0603
2
PR87
4.7K
0603
C
PC745
10U
1210
25V
2
2
PC748
0.01U
0402
10%
50V
1
1
1
1
2
D
8
7
6
5
G
PC747
0.01U
0402
10%
50V
D
TR/3216FF-3A
3
2
1
L3
S
32 ADINP
PL708
1
2
BEAD_120Z/100M
0805D
L2
2
2
PF703
1
2
D
1
2
B
SHORT-SMT3
0
0402
5%
DVMAIN
PR65
590K
0402
1%
2
8
PC33
0.1U
0402
+80-20%
50V
7
PU5B
LMV393M
SSOP8
PR63
80.6K
0402
5%
BATT_DEAD
22
=8.56V
1
-
PC36
0.01U
0402
10%
50V
2
2
3
SOT23N
+
6
2
1
5
4
SCK431LCSK-.5
1
1
2
1.25V
PQ11
PR69
100K
0402
5%
2
GND
1
1
PC34
0.01U
0402
10%
50V
2
2
PR70
3.3K
0402
5%
1
1
VDD5
A
A
GND
GND
Title
8050 MOTHER B/D
Size
C
Date:
5
4
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
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Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
33
of
34
5
4
3
2
1
VGA_THRMDA/VGA_THRMDC
8050 BLOCK DIAGRAM
CPU_THRMDA/CPU_THRMDC
LCD PANEL
(XGA)
CLK_ITP_CPU+/- 100MHZ
HCLK_CPU+/- 100MHZ
SIO_48M
(DEBUG CARD ONLY)
CPU
INTEL
BANIAS/DOTHAN
14.318MHZ
LVDS
D
D
CLOCK GENERATOR
HOST
400MHZ
14M_CODEC
ICS950810
BATT-Adapter
RGB
+2.5V/+1.25V
D/D Charger
TL-594C
66M_MCH
I-LIMIT OP
D/D CPU Core
LTC3734
DREFCLK_48MHZ
MAX4173F
LVDS/NA
RGB/NA
HCLK_NB+/- 100MHZ
North Bridge
DIMM1
DIMM0 CLK_DDR2+/-
855GME
CLK_DDR1+/CLK_DDR0+/-
AGP
VGA_M10
D/D Power
LTC3728L
CH7011
TV
C
+1.5V/+1.05V
C
66M_AGP
66M_ICH
66MHZ
66MHZ
USBCLK_ICH 48MHZ
PCICLK_ICH 33MHZ
USB 0~2
D/D Power
LTC3728L
+1.2V/1.0V
+1.8V /+1.35V
AC-Adapter
VRAM
16MBx4
SECONDARY IDE
ICH4-M
D/D
HDD
PRIMARY IDE
PCICLK_MINIPCI
14M_CODEC (CLK GEN)
AC97
B
PCI
33MHZ
33MHZ
PCI_1394_CLK
PCI_CRAD_CLK
LPC BUS
CDROM
D/D Power
SC1470
32.768KHZ
Sourth Bridge
33MHZ
14M_ICH
x3
ADT7460
I -LIMIT
D/D Power
LTC3728L
PCICLK_FWH
DDR 266
24.576MHZ / NA
25MHZ
PCICLK_LAN
AUDIO
CODEC
ALC655
MDC
MODULE
RTL8100CL
SMBUS
Fan
+3V/+5V
27MHZ
CLK_DDR3+/CLK_DDR4+/CLK_DDR5+/-
B
D/D Power
LTC3728L
CRT
PH163112
Keyboard BIOS
IEEE1394
SYSTEM
BIOS
WINBOND
VIA
VT6307L
W83L950D
8MHZ
PCMCIA
CARD READER
AMPLIFIER
MINIPCI
CP2211
TPA0212
EXT
MIC.
CB710
LINE
IN
INT
MIC
512K
KEY MATRIX
PS/2
LM4871
A
HP JACK
NA
PAD
Internal
Keyboard
PCMCIA/
CARDBUS
SLOT
CardReader
Transition
Board
Title
8050 MOTHER B/D
Size
C
Date:
5
4
A
SUB WOOFER
CARD
REARDER
SOCKET
CABLE
TOUCH
SPEAKER
RJ45/ RJ11
24.576MHZ
I -LIMIT
SPEAKER
3
PDF created with FinePrint pdfFactory trial version http://www.fineprint.com
2
Document
Number
Rev
R01
PCB 316680900001/ASSY 411680900011
Monday, December 29, 2003
1
Sheet
34
of
34
REFERENCE MATERIAL
Intel Mobile Pentium-M Processor/BANIAS Processor
Intel, INC.
…
Intel 855GME North Bridge’
Intel, INC.
…
Intel ICH-4 South Bridge’
Intel, INC.
WINBOND KBC
WINBOND, LTD.
Clock Syntherizer
ICS,INC
VT6307L IEEE1394 Host Controller
AMPRO Computers, INC
System Explode View
Technology Corp / MiTAC
8050 Hardware Specification
Technology Corp / MiTAC
SERVICE MANUAL FOR 8050
Sponsoring Editor : Jesse Jan
Author : Grass Ren
Assistant Editor : Ping.Xie
Publisher : MiTAC International Corp.
Address : 1, R&D Road 2, Hsinchu Science-Based Industrial, Hsinchu, Taiwan, R.O.C.
Tel : 886-3-5779250
Fax : 886-3-5781245
First Edition : Feb.2004
E-mail : Willy .Chen @ mic.com.tw
Web : http: //www.mitac.com
http: //www.mitacservice.com