Download Fluke 740 Series
Transcript
W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW W WW .100Y.C M.TW T . O W M WW 00Y.CO .TW .CO .TW WW .100Y.C M.TW Y W 0 O W M .10 OM W.1 WW .100Y.C M.TW WW 00Y.CO .TW WW .100Y.C M.TW WW 00Y.CO .TW W.1 Y.COM W Fluke .COSeries WW 740 W Y W W 0 W T . W M .1 .T M .10 Calibrators: 100 Process OM WW 00Y.CO .TW W.Documenting .CO .TW WW 00Y C . W W W Y W W M .1 .T 00 Ready Anything OM W.1For WW 00Y.CO .TW W.1 Y.COM W C . W W Y W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C W . Y W C Y W W .TW WW .100Y. M.T .100 .TW 100 M . O W M O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C W Y W W WW .100Y. WW .100Y.C M.TW M.T .100 M.T O W O W C . O W W W Y W WW .100Y.C M.TW WW .100Y.C M.TW M.T .100 O W O W C O W W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C Y W W WW .100Y. WW .100Y.C M.TW .100 M.T W O W O W W W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C W WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM W Fluke 740 Series Calibrators: Y.C W 0 Y.C Documenting WW Process 0 0 T . 1 0 M.T . M .1 O W O W C . Work Work Faster. W Y WWSmarter. WW .100Y.C M.TW M.T .100 O W O W C WW .100Y. .TW WW .100Y.C M.TW M .TW O W Bright white display lets you read Whether you’re calibrating instruments, M • O .C WW troubleshooting .CO .TW Y.C WW .100Y TinWany kind of light. . your results aW problem or running 0 Y W T . 0 0 M M O M .10 W.1routine Fluke 740 Series WW •00Soft CO Y.Ckeys provide W Y.maintenance, W WW 00Y.CO .TW .TW one-touch 0 WW process T . calibrators can help you get 1 0 M . access to 1 M . O 1 W M . enhanced functions such O W C . O W jobY done does so many .C faster..TItW Y lists, automated WW .TW procedures, as0task WW the 00 tasks, M WW .100Y.C M.TW M different so quickly and so well, W.10 1 . O O W the only stepping and O W you need W 0Y.Cmin/max, Y.Cprocess.Tcalibrator WW .scaling, TW . 0 0 WW it’s 1 0 ramping, and review memory. WW .100Y.C M.TW M 1 . to OM Wcarry. O WW 00Y.CO .TW W C . W C W . Y W W W W • Multifunctional. Measure, .T • Three W .1 operating .T 00Y .100 OM modesMeasure/ OMCalibrate W or.C simultaneous WWSource, W.1 Y.COM W C W . Y W temperature, pressure, voltage, W 0 Y W T W . W .T 00 W Source, .10 — enable OMtechnicians to current, W M.T .100 OMand frequency. W.1 resistance, C . O W W C troubleshoot, calibrate, or maintain W . Y W C W . 0 Y 0 measures W Since .it10both .Tand sources, W instrumentation WW .100Y M.Tjust one tool. .10 .TW with M O W M O you can troubleshoot and calibrate W C O W W Y. Wwith one Y.C WWIntegrated Wall .TW WW .100Y.C M.TW M.T .100 HARTOcommunication • 100 ruggedOtool. M . W W O W W .C to use. Y.Cyou program W Wcapability .TWand Powerful, The 0Yeasy •W .TW 100letsinstrumentation 0yet WW .100Y.C M.TW M . 1 M . control HART O W W easy-to-follow, menu-driven display O W only). 00Y.C W .CO .TW W (744 .TW WW you.1through guides task. Pro00Y any M WW .100Y.C M.TW .1 OM W O W C . O W W grammable calibration routines C W Y displays • Multi-lingual W W 00interface 0Y. and M WWyou to WW .100Y.C M.TW M.T .1in enable run.T auto10create . instructions English, French, O W O W C . O W W Y mated as-found/as-left Y.C procedures WW Spanish, German, WW .TW to WW .100Y.C M.TW M.T .100 and Italian. 100 M . ensure fast, consistent, calibrations. O W O W C O W W Y. Y.C WW allows .toTset WW .TW • AutoStep 100atechnicians WW .100Y.C M.TW • Records M .for 100 andW documents results. M . O W the calibrator delayed start O O W W W Y.C support .Tso and aW specific sequence 0Y.C or regulaWWyour ISO-9000 .TW 100 ofOsteps, 0Fluke WW .100Y.C M.TW To M . 1 M . tory standards, the 741B, 743B, W O it can runW unattendedY as.Ca continu-W O W WW your00calibration Y.C W test.1source. capture 00 .TW ously varying WW .100Y.C M.TW and 744W M.T 1 M . O W O results, eliminating the need to juggle W C . O W .C Y users.TW W WW values pad in the 00Y The M.TW• User entered WW .100Y.C M.TW a pen andW M .100enable O 1field. . W O W to capture readings measured O RS-232 interface W W .C743B .TW Y.C or .TW W in the0Fluke C . 0 Y W W W 0 0 Y W sourced by other devices. W M .1 .T and 744 lets you transfer 00 .1 the results OM WW 00Y.CO .TW W.1 Y.COM to C . a PC, thus W saving of WWthe time W Y W W W to beM .T• Custom units allowWreadings 00 W .1 .T 00 to manually transcribe OM scaled and displayed W.1 Ythem .CO .TW in anyY userW W.1 Y.COM having C . W W 0 when you return to the shop. W W W 0 W .Tdefined units. 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C Supports popular instrumentation • . W W Limit switch calibration.100 WW .100Y M.T .TW 100743B OM• .T . management software. The O W M W C O and 744 work with the procedures perform W W .C Y. WWfast,oneWW new.1Fluke .TW 00Y WW .100Y.C M M.T .100 .TW automated calibration ofW M O DPC/TRACK™ software, and with O W C . O W W .C and limit W Wswitches .TW 00Y WW Honeywell .Ttwo-point 1for 00Y WW .100Y.C popular M . .TWprograms from 1 M . voltage, current, temperature, O W M WCove, Y.CO OLoveland, Cornerstone, Sand W W WW .100Y.C M.TW and.T pressure. WW 00 WW .100Y.C Beamex, Blue Mountain, and others. .TW 1 M . M WW 00Y.CO .TW W ItOallows you to create procedures, WW 00Y.C•ODifferential pressure flow W W W W T . WW .100Y.Cinstructions, T and action lists toW deliver .1 instrument calibration routines W.1 Y.COM W M. OM O W W C . W C W . fast, easy documentation. 0 Y use a square W root function .T W WW .100Y .TW M.T calibrate DP flowWW.10 .100 toOdirectly OM M W C . O W C . Y W Truly hand-held. Small enough to C W .TW W .TW 100 00Y instruments. WW .100• Yfit. easilyMinto M . .TW 1 M . a tool bag and to use in O W O O W .C WW WW .100Y.C M.TW shift on a 00• YBuilt-in algebraic W an entireW Y.C spaces..TRuns .TW calculator WW .100tight 1 M . O W M NiCd or NiMH batteryW O functions — plus square with O W rechargeable W and performs Y.C—four WW .100Y.C M.TW WW .100root T . stores, recalls, 0Y.C M.TW WW .10pack. M O Oand reliable. Overmolded W W • Rugged for setting upW W .CO required Y.C WW 0calculations C W . 0 Y W W W 0 0 Y W T . W T M.T .stands or evaluating data in W.1 1 instruments 00 M . O 1 M . O urethane case up to rough W C W W .C Use it.TtoW field. set the source .CO .TW environments. WW .100Y. WW .1the 00Y WW handling M.T 00Y in industrial function toOaM calculated value. O 1 W M . W offer one- or two-year W WCalibrators .CO Y.C WW .100Y.C M.TW There’s no need.to carry a pencil TW 00paper WW calibration TWthree-year W .and 1 00Y cycles M . O 1 W M . and or a separate calculator. O W W warranty. O WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW Programmable measurement O WW W .CO W• W C W . Y W W delay inside automated W 0 Y W T . 0 0 W .T 0 M W.1 Y.permits W.1 Y.COM W CO calibrating Wprocedures W W 0 W instruments that respond W M.T slowly. .10 M.T .100 O W O W C . W Y W WW .100Y.C M.TW .100 W O W Two features W Y.C available WW WWbonus M.T .100registration: with product O W 0Y.C M.TW WW .10mode • Transmitter .CO 741B) code (except WWentry • Bar Y 0 W 0 2 W.1 WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW W WW .100Y.C M.TW T . O W M WW 00Y.CO .TW .CO .TW WW .100Y.C M.TW Y W 0 O W M .10 OM W.1 WW .100Y.C M.TW WW 00Y.CO .TW WW .100Y.C M.TW WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C W . Y W C Y W W .TW WW .100Y. M.T .100 .TW 100 M . O W M O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C W Y W W WW .100Y. WW .100Y.C M.TW M.T .100 M.T O W O W C . O W W W Y W WW .100Y.C M.TW WW .100Y.C M.TW M.T .100 O W O W C O W W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C Y W W WW .100Y. WW .100Y.C M.TW .100 M.T W O W O W W W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C 3 W WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM Fluke 740 Series Calibrators: W Y.C W 0 Y.C Documenting WW Process 0 0 T . 1 0 M.T . M .1 O W O W C Calibrators as versatile as you are. . WW .100Y .TW WW .100Y.C M.TW M O W WW 00Y.CO .TW WW let .100Y.C M.TW W TheW Fluke 740 Calibrators, offered in three models, T . 1 M . 741B 743B 744 O M WW 0Capability you choose .COof capabilities WWthe right W for yourWneeds. .CO .TW 0Y.C / Measure Yset TW . 0 Y W T Source . • • • 1 0 0 M . M .1 offers O W M 741B simultaneous source .10 • The FlukeW .CO procedures W C W . Y W Automated • • • W 0 Y W T WW 00Y.CO .TW andW measure capabilities for all .Tcommon process W.10 M. 100 and execute M . O 1 M . O Results capture W C parameters. Create automated proce• • • . O W .C W Wresults. WW .100Y .TW modules .Tthe duresW and automatically 00Y capture WW .100Y.C M.TW M 1 Uses all Fluke pressure M • • • . W O WW 00Y.CO .TW W CO . W C W . Y W W W Transmitter mode 0 Y W T The Fluke 743B offers all the capability of the 741B, • • • • . 0 W .1 M .1interface OM W M.T .100 O W C plus adds a serial for two-way communica. O W W C W . Bar code entry W • • W 0Y Y instrumentation W WW .100Y.C M.TW tion withWpopular PC-based M.T .10interface M.T .100 O W Serial O • • W C . O W W C managementW . Y W Data .logging .TW W applications. .TW 100 00Y WW .100Y.C M.TW M 1 • • M . O W W all ofYthe O offers capabilities of the W W • The Fluke 744W W .CO Y.C C W . 0 W T W . HART communications W 0 • 0 Y W T . 1 W plus the ability .to 10maintainOand M calibrate OM to 1 ms W.RTD simulation M.T 743B, .100 W C . O W W C Pulsed W . • • • Y selected HART transmitters without a second tool. W C Y W T W .TW WW .100Y. M.Gauge” .100 with “Gas .TW 100 M . O W M NiMH battery • O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W .T 00 W.1 Y.COM W W.1 Y.COM Process OM HART Documenting W W.1 Y744 W C Fluke Calibrator: W . W W W .T W M.T .100 .TW 100 00 M . O 1 W M . O W C . O W W WW .100Y WW .100Y.C M.TWGet HART-ability. WW .100Y.C M.TW M.T O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O O more process plants begin W .C Y.C instruments WW to take .Cand more WW .1for .TW 00HART TWfirst field calibrator 00aYnew M.The WW .As M .TWtransmitters,Wthe need 1 00Y . O 1 W advantage of smart for that’s both powerful and easy to use. M O W .C O W complete W Wmost .TW 744 offers the implementaW has emerged 00Y HART M 0Y.Cthat MThe Y.C of calibrators WW— calibrators TW . 1 0 0 WW generation T . . 1 0 . O 1 W M via industry standard . communicate O W can digital tion of any process calibrator. The 744: C . O W W W .C Y.C W .TW W 00Y toolM .TW no external combines HARTW communication WW protocols. .1second .T 100 00Y The 744 box or for every. •MRequires O 1 W M . O W C O popular 740 Series W W capability with W Y. and maintenance. W calibration Y.C day.THART WW W an integrated Y.C the to W Documenting WW Process M.T .100 .Tdeliver communi100 00Calibrators M . O 1 W M . O W C fast HART communication. W calibrator. Wis ideal0for reliableW tool .COThis .rugged, Y.C • Offers WW .100Y. .TW .TW popular models WWcating TW M 1 0 00Ymaintaining, M . Supports of HART transmitters, with calibrating, and troubleshootingW HART • O 1 W M . O W W device-specific command support any 0Y.CthanM W TW WW 00Y.CO The 744 offers: . W 0 WW .100Y.C more T . 1 Winstrumentation. T . . M O 1 W M . other HART field calibrator. HARTOcommunication functions, permit• Integrated W .C W W .CO .TW WData .TW W and calibrate 00Y of theM Y.C control, WW ting you 0 to0monitor, HART 100Y• Fully complies 1 WW T . with the Link Layer HART . M . O 1 W M . O W C instrumentation. . O protocol, including multiple masters,0burst Y mode, .TW W Y.C WW WW 00Y.C .TW configurations. M .1 0 .TWtransmittersW 100 andOmulti-drop M . fast pulsed RTD and PLCs, •WHandling.1of W M W .CO .TW Oas 1 mS. W W as Y .IsCeasy to .update Y W C W . 0 Y W with pulses short W W 0 0 W T as additional instruments are M 0• W .1 .T 00 M new HART Wreleased. Oand W.1 added versionsW are .CO .TW OMmA hour life and gas W battery 3500 gauge. W.1 with C • NiMH . Y C W . 0 Y W W W 0 0 Y W T . 1 0 0 W T M . . 0 W reliable OM based on the 743B, the most W rugged, W.1 • Is Y .CO .TW W.1 Y.COM W C . Y W W 0 W W 0 W T calibrator available. .10 .field 0multifunction W M M.T .100 W.1 Y.COM W O WW 00Y.CO .TW W W C . W W W Is backed by the service and support of the Fluke 0 Y W T • . W .T 00 M .10 W.1 Y.COM W of the HART WCommunicaW.1 Y.COM W .CO a member WW organization, W Y W W .T 00 0 W T tions W M. .10 Foundation. W.1 Y.COM W M.T .100 O W O W W C . Y designed.T W all the .day-to.T WW The .744 toW take on nearly 100 WW .100Y.C M.TW 100isyou Mperform OM W O W C day tasks now with a separate communi. O W W C Y W 0Y. it offers WWcator. .In .TW WW .100Y.C M.TW communication capabilities .100 10fact, Mthe W O W O W W except W for the DD Wthe 27500HART Y.C communicator Wof .TWcommand WW .100Y.C M.TW 1 which O interpreter, can read set libraries M . W O W C W any HART from This Wis not necessary for daily Y.supplier. W WW .100Y.C M.TW 100 M.T . HART maintenance. O W O W C . W Y W WW .100Y.C M.TW .100 W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW WW 00Y.CO W 4 W.1 WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW O W WW 00Y.CO .TW W Y.C instrumentation Wone Wcalibrate and 0 WW T . 0 It’s easy to maintain HART with powerful T M . 1 W.1 Ytool. OM W. .CO .TW OM W C . W C W . 0 Y W W Y W .T 00 M .10 M.T .100 W.1 Y.COM W HART Communications WW 00Y.CO .TW W W WW 00Y.CO .TW W .T 00 W.1 Y.COM W M .1 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM – + + W O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W W Y W .TW WW .100Y.C M .TW WW .100Y.C M.TW M .100 + – Source TC O W O W C O W W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W TC .1 M .1 .T 00 M WW 00Y.CO .TW W.1 Y.COM W Miniplug WW 00Y.CO .TW W W W W M .1 100 mAOM.T .Measure Red W.1 Y.COM W WW 00Y.CO .TW W W C . W W and Loop Power W W .T 00 0Y in M.T W W.1 Y.COM W .10built W.1 Y.COM W O W Wwith W C . W W 250 Ω W .T W M.T .100 .TW 100 00Y M . O 1 resistor W M . Black O W C . O W W WW .100Y WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W M 00 With the 744W DPC, you on supportedW.1 .1 sensor configuration • Change M.T .1can: OM W .CO .TW O W W C . Y W C W . electrical, temperature, or temperature transmitters. 0 Y W W • Generate precision W 0 0 Y W T . W .T .10 W.1 Y.COM W pressure signals for W analog .100 stimulus OM transmitters by reading and OMor sensor • Re-label Wwriting .C WW smart C W . Y W .T W simulation. WW 00 0 Y W T . 0 messageMfields. HART tag.1and .T 00 1electrical, W.1 Y.COM W M . O W O W W C Simultaneously measure temperature, or . • W additional Wby readingWand W Clone • W .T W 0Y transmitters Y.C .100 pressure signalsW from transmitter M.T .10HART OM W M.T .100 output. storing W basic configurations. O C . O W W C W 0Y Y. W Y.C tag ID.Tby WW automated • Determine type, manufacturer, .TW trim andW WW .100model, M.T sensor output W.10 • Perform 100 HART M . O M O W C interrogating HART devices. . O W W Y trimW for with W AsW Wselected00devices W .C Y.C in conjunction WW and .smart M.T .100 .TW 1tests. OM.T 00Ytransmitter . Found/As Left • Read HART PV function O 1 W M W C .CO Y.Csimultaneous digital output whileW measuring mA output. WW .100Y. WW analog .TW WW loop test .TW analog and 00with M .TW • Perform 1 00Y M . O 1 W M . O W O digital mA functions to W • Read and write HART configuration Wreadout. WW .100Y.C M.TW 0Y.C M.TW Y.C damping, Wnew, 0pulsed-excitation WtoWPV range make field adjustments .TW • Address 1 00points, . fast, smart transmitO 1 W M . W settings. O and other top-level configuration WW 00Y.CO .TW WW .100Y.C M.TW PLCs. WW .100Y.C M.TW ters andW M .1 O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W 0 W .T 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO W.1 Y.COM W W W W W .T 00 W .1 .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 M.T .100 OM W O W C . W C W Y W W WW .100Y. M.T .100 M.T O W O W C . W Y W WW .100Y.C M.TW .100 W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C 5 W WW 744 DOCUMENTING PROCESS CALIBRATOR TEST DC PWR MEAS SOURCE 7 9 5 1 CLEAR ( ZERO) 6 2 3 ENTER . 0 mA SETUP TC RTD 8 4 V RTD mA V Hz V mA V RTD CAT 30V MAX SOURCE 30V MAX MEAS 30V MAX 300V MAX TC W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W 0Y.C M.TW WW Applications 0 T . HART 1 . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW O W WW 00Y.CO .TW W Y.CHART .calibrator W W 0 WW T Fluke 744: The first that is easy to.1use. 0 T M . 1 W OM W. .CO .TW OM W C . Y W C W . 0 Y W W Y W .T 00 M .10 M.T .100 W.1 Y.COM W WW 00Y.CO .TW W W WW 00Y.CO .TW W 744 supports device-specific instructions for a .T 00 .1 OM instruments. WToday’s M .1 W.1 Y.COM W C . O variety of popular Additional support may W W W Y W C . W .T with a simple W 00 periodically 0 W T . 1 0 WW .100Y T M . be added software update . 1 M . 4 .CO OM WW W W available on diskette or via download for a modest Y WW 00Y.C74O C W . 0 W T W . W 0 Y W T . W M .T 00 W.1 fee. W.1 Y.COM W .CO .TW Wupgrade W.1 Y.COM W Y W 0 W W 0 W .T 00 W M .T 00 Omodes HART supported W.1operating W.1 Y.COM W .CPoint W W.1 Y.COM W W Y W 0 W T W For Point to operation, the most commonly . • 0 0 W T . 1 0 0 W T M the 744 to . mode, connects . 1 0 M . O 1 W M . used a single HART O W C . O W W W device.1in00aY4-20 mA .TW WW .100Y.C M.TW loop. WW .100Y.C M.TW M O several HART instruments can W O W mode, O WMulti-Drop • In W W Y.C W 00together. WW .100Y.C M.TW 1 WW .100Y.C M.TW be bussed The M.T744 searches for each, . O W O W O W W identifies addresses and allows you to select Y.C in use, W .TW WW .100Y.C M.TW 100 for calibration WW .100Y.C M.TW M . the instrument and related operations. O W O W .C O W Mode, W instrument transmits WBurst • In .TW 00Ythe HART WW .100Y.C M.TW 1 WW .100Y.C M.TW M . Owaiting to be interrogated by bursts ofW data without O W C . O W W C 0Y744 can W unit. .TWtransmitters out of a master WW .100Y. .TW WW .100Y.C M.TW Mtake .10The M O W O 7 W C burst mode during test or calibration, . O W 8 0Y mode.M.TW then later WW 0burst W9 W .100Y.C M.TW restore them to 1 WW .100Y.C M.TW 4 . O W O 5 W O W 6 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW 1 O W W WW 00Y.CO .TW CO WW .100Y.C M.TW W protocolWsupport HART WW .100Y.Versatile T . M .1 M WW 00Y.CO .TW W The 744 supports the commands contained inO HART W .C WW .CO Y W W 0 W T . 0 WW .100Y T . protocolM version 5.7. With 2 MB of memory, the O 744 M .1 W.1 Y.COM W W O W W C . W C supports a substantial set of HART instructions: W . Y W .T W 00 W WW .100Y M.T .100 thatOare W.1 Y.COM W M.T W commands — provide functions • Universal O W W C . W C Y read .TW W .T Wall field devices, 00 Y. W for .example, WW .100implemented 100 M W.1 Y.COM W M.Tin O W O W W C manufacturer and device type, read primary variable . W Y W .T WW 00span 0Y.Cor read WW .10(PV), .100 .TW output and percent.1of M.T OM W Mcurrent O W C . O W W C W Y W .C practice W WcommandsW —W provide1functions 0Y. WW • .1Common M.T .100 00Y common M.T . 0devices, O W M.T to many but not all O W that areC field C . O W W Y.C W TW W variables, 00Y WWset damping .TW read.T multiple 0Y. WW for M.2.1 .1in 100 0example What’s new Version M . O 1 W M . O W C Wtime, orYperform test W .CO loop 0Y. WW .10calibration WW .100Y.C M.TW • Device-specific WW • Device-specific M.T .TW 00 O 1 commands — provide functions W M . O W C support W for the latest W C Y.revisions.TW W .CO to a.Tparticular unique field for00Y. W Wdevice, .TW of theW 100 0Y following: WW that.1are M . 1 0 M . W M O W example sensor these .CSORev 5.TW Otrim. The 744 supports W W C EndressW &W Hauser Cerabar . Y C W . 0 Y W W 0 Y W .T 00 W devices: M & Hauser W.1Deltabar M.T .100 W.1 Y.COM W Endress CSORev 5 TW . O W W Y W C Rosemount 644 Rev 5 . 0 W W Manufacturer W Pressure 0Instruments Temperature . W 0 Y WInstruments .T 00 W.12 Y.COM W .10600T OM.T 1 W.1 Y.COM WYokogawa YTAWRev W ABB/Kent-Taylor 658T W C . W calibration .T W 00 support Y W .T Device-specific WW Contrans .100 OM W.1 Y.C ABB/ .100 P,1 OM.T OM • for new instruments: W W W C . W C . W .TW Hartmann & Braun WWAS 800 Series W .TW 100M Rev O 00Y . .TW Endress & Hauser Cerabar 1M 1 00Y M . 1 W M . O W W Endress & Hauser CERABAR M.CO Y.C W measure/source WW .units: .TW WW .100Y.C M•.TNew 100 WWCERABAR M .TW 00Y S O 1 W M . O W Temperature: Kelvin .C W W DELTABAR SY.CO WW Rankine W 00Y WW .100Y.C M.Temperature: TW degrees 1 0 WW T M.T . . 0 O 1 1 W M . O W C Foxboro Eckardt TI/RTT20 . O W @ 20C Water Column WW 00Y.C WW .100Y.C MPressure: .TWfeatures: W W.100Y OM.TW WIAP/IDP/IGP .TW Foxboro 1 New M . • O W .C WW root.1test WW 00Y.CO .TW Selectable 00Yerror M.TW WW .100Y.C M TW unit in square Honeywell . WST3000 O W Osummary W OM 3441 W.1 Moore Products W 0Y.C M.TW WW adjustment 0 WW .100Y.C User-enterable T . calibration 1 WW .100Y.C M.TW . M O W Rosemount 1151 W WW 00Y.COpoints.TW .CO .3044C WW .100Y.C W W Y W 2088 644 0 W T 0 M .1 WW W.1 Y.COM 3144 3001C WW 00Y.CO .TW W W W W 0 W .T 3051 0 M .1 W.1 Y.COM W WW 00Y.CO .TW W Siemens SITRANS P DS W 0 W .T SITRANS P ES W.10 W.1 Y.COM OM W C . W W Y W 1 W SMAR LD301 TT301 .100 M.T .100 W O W .C110 and.T310 W Yokogawa EJA WW YTA Y WW M .100 Sensor Trim not supported O W WW .100Y.C M.TW WW 00Y.CO W 6 W.1 WW DOCU MENTI NG PROC ESS CA LI BRAT OR MEAS SOUR CE V V Hz mA SETU TC RTD CLEA R (Z ERO) 1 P W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW W WW .100Y.C M.TW T . O W M WW 00Y.CO .TW .CO .TW WW .100Y.CNew .TWFluke 707 Y W 0 M 1 0 M . O 1 W M . O W Loop Calibrator .COuse “smart” WW .100Y.C WW 00Y .TW W instrumentation? WW .100Y.C M.TW Why T M . O 1 W O most probably OMprocess plants, your organization W. Like WW 00Yis.C WW .100Y.C M.TW .TW 0Y.C theM WW .10facing dual challenges ofW maximizing productivity .TW New 1 M . O WW 00Y.CO .TW W while minimizing maintenance costs. digital .CO .TW WW“Smart” C . Y W W W 0 Y W W M .1 .T superior performance 10 reliability, 00 transmitters offer M .and OM WW 00Y.CO .TW W.1whileYsaving .CO .TW WW 00and C time W and effort in W maintenance . Y W W W 100 Manufacturers of field instruments W.1 Y.COM W M.T OM W.1 have O W W.calibration. C . W C W . Y W W helped WchangeoverWby offering 0 .T W M.T .100 .Tthe 10smart 00Yaccelerate M . O 1 W M . O transmitters at prices nearly as low as analog units. As W C . O W W W Y W Y.C W Y.C .TW protocol quickly WW digital TW the HARTW M.T .100 .using 100 00instruments M . O 1 W M . O W C O become the.C standard, communicators and calibrators W W WW .100Y. WW .100Y.C M.TW WWare becoming M.T .TW everyday tools. 00Y essential O 1 W M . O W O W WW .100Y.C M.TW WW .100Y.C M.TW What is0HART? 0Y.C M.TW WW 1 . O Addressable Remote Transducer WW 00Y.CO .TW HART, Highway WW 00Y.CO .TW .aC1200 W WW theuses W Y W 0 Wprotocol, T . Frequency Shift Keying baud .1 W.1 Y.COM W .10 OM W OM W W C . W (FSK) signal toYsuperimpose digital information on the C W . Y W W .T W M.T .100 .TWsignal. W W.100 004-20 mAM M conventional analog O 1 W . O C . O W W WW .100Y WW .100Y.C M.TW 0Y.C protocol? WWuse the M.T .TW Why 0HART O 1 W M . O W C O W WW .100Y. .TW HART is an industry to define W WW the .100Y.C M.TW 0Y.Cstandard WW Tdeveloped M . 0 O 1 W M . O communications intelligent field W protocol WW 00Y.C .CObetween WW .100Y.C M.TW Wwidely devices .TW WWand a.1control TW is the most .HART 1 00Y system, M . M used digital communication in the processWW WW 00Y.CO .TW W .CO .TW CO protocol . Y W W W 0 Y W 0 0 W T industry. More than field instruments .1 10 five million W.1 Y.COM W M.HART .more OM The fast, one-handed W O W W C . are installed in than 100,000 plants worldwide. W C tool0for loop checks W . Y W T W .TThis feature-rich WW .100Y M.best .10combines .TW 100 M . Othe solution features of a W M O The HART protocol: W C . O W W C W offers: . Y W C W . major suppliers 0 calibrator Y Wknob-base Tand push-button and loop . W of process 0 0 Y W T of the . • Is supported 1 0 0 WW by all T M . . 1 0 . O W M OM • Large display andW field instruments Communi- WW W.1supported W .COby the.THART 0Y.C interface Y.C W simple,.1quick-click .TW for easy W 0 0 Y W T . 0 0 WW .1an M cation Foundation, industry-wide non-profit one-handed operation. 1 0 M . O W M O W .C OHYPERLINK W % readout Wthe Web W organization.W See site Wand mA easy, W on the WW .100Y.C •MSimultaneous 00Y for quick, Y.C TW . 1 0 W T M.T . . 0 http://www.hartcomm.org for information O 1 W M . O W interpretation of readings. C . O W W Y W HART standard. W .TW WW .100Y.C • M .Taccuracy WW .100Y.C M.TW M .100 to other mA of 0.015%, superior loop O W O W C control strategies. • Preserves present W W .CO .TW WWrange..100Y. WW .100Y.C calibrators .TW in this price WW 4-20.1mA M.T 00Y M signals and digital O • Allows traditional W M O W C for mA source, . and measure. • 1 µA resolution O W WW .simulate communication .TW 00YlinearityMchecks. Y.C two-wire WW .100Y.C• Push TW 25% steps .button 1easy WtoWshare.the .TWloops. 00same M for fast, O 1 W M O W O W information for and W • Provides importantW W Y.C of zero.Tand W check” W .Cinstallation WW .100Y.•C0-100% for fast confirmation .T“span 100 WIDs, measured M . .TW and maintenance: Tag 00Y values,Mrange M O 1 W . O W span. O W span data, product information and diagnostics. W WW .100Y.C M.TW WW .100Y.C Tslow . WW .100Y.C M.TW M Selectable ramp, fast ramp, step .ramp • by making it easier CO to TW • Reduces operation costs W O WWand .CO smooth Yand WW 00Yprovide C W . 0 W W outputs for valve slewing loop . W 0 Y W T to manage and fully utilize “smart” instrument . W .1 functional W.1 Y.COM W M.T .100 OM tests. W O networks. W W C . W C W Y W you can .T W 00 W WW .100Y. and M.T loop supply, so W .10• 024 voltOinternal OM W.1 power M.T W C . O W C . Y a .TW Wtime without 0Y a transmitter WW .10read .TWat the same 100 carrying WW .100Y.C M.TW M . M DMM. O W W O W .CO dc .to WW .100Y.C M.TW WW •.1Measures TW 28 V. 00Y V M WW .100Y.C M.TW O WW 00Y.CO .TW W .CVObattery WW• Single C 9 that is easily W changed. W . Y W W 0 Y W T . W .T 00 M mA default start upWmodes. .10 W.1 Y.COM W orO 4-20 • 0-20 mA.C W.1 Y.COM W WW W Y W W .T 00 0 W T W Innovative output µA.1and 100COM M.adjustment dial withW1W .10 •W M.T .100 O . O W C . Y W .TW WW µA .resolution. .TW 100 00Y WW .100Y.C M.TW M . 1 M O W O W mode 250 Ω resistor in O • HART™ Wseries with W .Cconnects Y.C WW24 V.loop .TW with HARTWcommunicators. 100 00Yfor compatibility WW .100Y.C M.TW . 1 M W O W O W WW WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C 7 W WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W 0Y.C M.TW Your Work WW Document 0 T . Automatically Record and 1 . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 Select and schedule Load selected procedures Exit to Windows. O OM W.1 Tag WW IDs for W to the calibrator, and Y.Ca selection of.TW W 0 W Examine and.T analyze Login to one of Print 0 W calibration..100Y.C calibration results .1 pre-formatted M calibration unload four user levels. OM the detailed reports. O W to your PC. WW C . C W . Y W of your Tag WIDs 0 Yhistories W T . W 0 0 W T . 1 0 T M . . and instruments. 1 M . O W M WW 00Y.CO .TW .CO .TW WW .100Y.C M.TW Y W 0 O W M .10 OM W.1 WW .100Y.C M.TW WW 00Y.CO .TW WW .100Y.C M.TW WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C W . Y W C Y W W .TW WW .100Y. M.T .100 .TW 100 M . O W M O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W 00 W .T WW .100Y .100 W.1 Y.COM W M.T OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C Import test parameters W Examine Wand document WComplete user’s 0Y on-line.M.TW Y. Wyour Y.C W .Tcalibration 00inventory WW Manage .10manual existing system. Manage histories Mthe .1your O W M.Tfrom .100your database O W with system utilities. of Tag IDs and instruments. O Export calibration results of your test equipment. W W W .C Y.C W C W . 0 Y W W W 0 0 Y W T as delimited ASCII data. . 1 0 W M.T . .T 1 00 M . O 1 W M . O W C W W W .CO .TW Y.C WW .100Y. .TW WW Fluke.1700SW M.T 100 ofOresults 00Y DPC/TRACK software WDocumentation M . O W M W C W .Ccalibrations, Wscheduling anYinstrumentation The .CO .TW data- W WW .100Y. .TW 0Yof DocuMint .TW 0procedures WWincludes M 1 00makes M . O 1 base that it easy to manage creation of and W M . W O W CO calibration Y.your WW .100Y.C M.TW your instrumentation, documentation WW .100of .TW 0Y.C Mcreate WW TW and . 0 M 1 . O a number schedule tests, load W facilitated Oand unload the resultsWare WW 00Y.CO .TW .Cby W Y W WW W 0 Y.Ca variety W T 743 or 744,00 print of . of instrumentation management 0 W T . W.1 Y.COM W M .1reports, and W.1 Y.COM W O standard manage software packages: W W W C . W .T 00 W .T WW .1data. TW calibration 00Y .100 W.1 Y.COM W M.in OM W O W W C . DPC/TRACK is available W C W Y W .T 00 Y. W WW French, .TW M.T .100 English, Spanish, W.1 Y.COM W M .100German, O W O W W C . andW Italian. W W .T W Y.C WW and.1Base Cal Station 00YStationM.TW .100 OM W M.T .100reports O Print standard automatiO W C . W W C W Y W Y. W Wsoftware DPC/TRACK cally.W The Y.C .TW M.T .100 .TW FlukeW 100 00assembles M . O 1 W M . O W C pre-formatted reports from your . O W W W Time Support .C WW .100Y WW .100Y.C M.TOn database files, saving WW M.T 00Ytime andM.TW O 1 W Process/Track . O W C WReportsYinclude reducing errors. .C .CO .TW WW .100Y. .TW WW AMS from1Emerson 00Y ProcessM.TW WW M calibration certificates, 00 instruments . O 1 W M . O W All trademarks are the property Management, (formerly .C Wof their W inventory .C W due for calibration, .CO .TW respective WFisher-Rosemount). .TW holders. W W.100Y OM.TW 00Y WW calibration 1 00Yhistories, M . characteristics, 1 M . O W O WW .100Y.C WW 0and calibration W procedures, W Y.C WW .100Y.C M.TW 0 T . 1 traceability to instruments touched. OM WW W. WW 00Y.CO .TW C . W W W Y W 0 W .T 0 M .1 W.1 Y.COM W WW 00Y.CO .TW W W W .T 00 W.1 Y.COM W.1 Y.COM W W W 0 1 800 44 FLUKE (U.S.), W To see the Fluke calibrators in action, W 740.1Series .T 00 .10call M W O W W 31 40 2 675 200W (Europe), countries), or your local Fluke W 5500W(other Y.C1 425.T446 representativeW for aW demo. M our Web site: www.fluke.com/Processtools .100 Visit O WW .100Y.C M.TW WW 00Y.CO W 8 W.1 WW ™ ™ ™ W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W 0Y.C M.TW WWSpecifications 0 T . Measurement Function 1 . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 M O DC current DC voltage measurement W.1 WW measurement .CO .TW Y.C W 0 Y W .TW 0 0 W (% of reading + % of full scale) M .1 Accuracy Accuracy (% of reading Mscale) .10 + % ofOfull O W W C Wscale) 00Y. 1 year .TW Range 2 years W Range (full scale) 1 year Y.C2 years .TW W(full W 1 0.01% +O0.015% 000.05% M . .TW 1 M . 30.000 mA 0.02% + 0.015% 110.000 mV 0.025% + 0.015% + 0.015% W M O O W WW 00.05% .C 0Y.C+ 0.015% Y.C+ 0.005%.TW TW0.02% + 0.015% 110.00 W mA 0.01% 1.10000 V TW 0.025% + 0.005% . 0 0 Y W 1 0 M . . 1 W (0.001% M .10 11.0000 OM Temperature W coefficient: reading + 0.002% f.s.)/°C + 0.005%W. 0.05% +C 0.005% .CO .CO VV .TW 0.025% WW 00Y110.000 00°CYto 50 °C M.TW 0Y+. 0.005%M.TW from -10 °CWto 18 °C and.128 WW .100.1% 0.05% + 0.005% 1 W 0.01% f.s./(Common modeW error: Volt) .CO Mode OV M 300.00 0.05% + 0.005% + 0.005% W. .CO .TW Common Y WW 0.1% C . 0 Y W W .TW W 0 0 Y W Maximum input voltage: 30 V dc 1 0 0 W T M . . 1 0 Temperature coefficient: (0.001% reading + 0.0015% f.s.)/°C M . M O W WW 00Y.CO .TW W.1 fromY-10 .C°COto 18 °C.Tand W28 °C to 50 °CWW .100Y.C M.TWResistanceWmeasurement WW .1Input .1 00 impedance: 5 MΩ OM W Volt) Y.CO .C (% of readingW ohms) OMerror: 0.008% f.s./(CommonWMode WW Accuracy W Common Y mode C W . 0 W W .T 2+ years W .T Range (full scale) 110year W M . .T 300 V rms W W.100 00Y inputM Maximum voltage: M O 1 W . O .C O W mΩ 0.075% W Ω WW0.05%.1+0500Y TW + 50 mΩ W Y.C measurement WW .100Y.C M.T11.000 voltage 0 WW AC T M.0.075% . 0 110.00 Ω 0.05% + 50 mΩ + 50 mΩ O 1 W M . O W C . O W W W+ 0.5 Ω .C W + counts) C W . Accuracy (% ofW reading 0 Y W T W 1.1000 kΩ 0.05% + 0.5 ΩY 0.075% . W 0 0 Y T . 1 W M .10 W+. 10 Ω Y.COM 0.1%W .100 rangeOM.T 1 year kΩ 0.1% + 10 Ω Frequency 2 years W W .CO 11.000 W2%W C W . 0 Y W T °C to 18 °C W . W 0 0 Y W T 20 to 40 Hz 2% + 10 + 10 . Temperature coefficient: (0.01% f.s. + 2 mΩ)/°C from -10 1 0 0 W T M . . 1 0 . W OM 28 °C to 50 °C 40 0.5%W +5 .CO .TW Wto.1500 HzY.COM 0.5%W+ 5 Wmode error: 0.005% 0YMode Y.C and WW f.s./(Common 0 WW T . Common Volt) 1 WW500 Hz.1to010kHz T 2% + 10 2% + 10 .100 M . . M OMaximum input voltage: 30 V dcW .CO .TW OM10% + 20 W C 1 toW 5 kHz 10% +W 20 . Y W C W . 0 Y W W W 0 >400 Ω M W .T Continuous tone <25 Ω,W Continuity: No.1 tone 00 WRanges: 1.1000, 00Y11.000, 110.00, O M.T300.0 V W.1 Y.COM W O W W.1 apply W Y.C W C Specifications for 10% to 100% of range . 0 W W Frequency measurement W 0 0 Y W T . 1 0 0 W T M.T . . pF 1 0 5 MΩ andM<100 M . Input impedance: O 1 W . O W C . W AC Y Input only .CO .TW WW Accuracy 00Y 2 yearsM.TW WW .100Y.CRangeM.TW WWcoupling: 00 1 year W.1 Temperature coefficient: 1 M . O W COHz TW W W from -10 C to 109.99 CO 10% ofW spec/°C to 18 °C andW 28 °C to 50 °C WW W .°C Hz 0.05 0Y.0.05 Y.1.00 WHz 0 0 Y T . 1 0 0 W T M. . . 1 0 . Maximum input rms W 110.0O toM 1099.9 Hz 0.5 Hz 0.5 HzO .1voltage: 300OV M W C . W W C . Y W Minimum 0.5 .CV above .1TkHz WkHz .TW W 0.005 WW .100Y1.100 to 10.999 .TkHz 100 0.005 kHz WWinput voltage: M . 00Y M O 1 W M . W 11.00 0.05 kHz W kHz O W W .CtoO50.00 .kHz Y.C 00.05 W applies.for 0signals WW .100ForYfrequencies TW Hz, specification 1 WW .100Y.C M.TW <109.99 with M.T M O W O W C . O W rates .C >5 V/ms.TW WW .100Y1 Hz to M.TW WW .1slew 00Y amplitude WW .100Y.C M.TW Minimum for Hz measurement: (Squarewaves) M O O W O WW W kHz,Y 300 V p-p; >30 kHz, 0 .CmV p-p; .1TkHz YV.Cp-p Wto 30 kHz, 1.4W .TW 0V 2.8 WW .1Maximum 1 00 input:M WW .100Y.C M.TW 1 Hz to 1 kHz, 300 V rms; >1 kHz, 30 rms M . 1 O W O W O W impedance: .C 5 MΩ WW .100Y.C M.TW WW Input .TW 00Y WW .100Y.C M.TW 1 M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW Sourcing Function O WW 00Y.CO .TW W(Simulation) .CO .TW WW Specifications C . Y W W W 0 Y W 0 W .1 W.1 Y.COM W M.T .100 OM W O W W C . W C Ysourcing.TW W DC voltage output .T W 00 W Resistance WW .100Y. M Accuracy (% of output +Wohms) .100 W.1 Y.COM W M%.Tof full scale) O W O Accuracy (% of output + W C . W W W W 1 year00Y.C .T W 00 0Y W Range (full Range (full scale) W 2 years M.1Tyear .10scale) W.1 Y.COM W M2.Tyears .1 O W O W W C . W Ω 00Y 0.01% +.T20WmΩ 110.000 mV 0.01% + 0.005% 0.02% W + 20 mΩ.100 W + 0.005% .T W Y.C 0.015% W11.000 W0.01% M+ 40 mΩ 1.10000 V + 0.005% 0.015% 110.00 W Ω .1 0.01% 0.02% + 40W mΩ OM M.+T0.005% .100 O C . O W W C W W kΩ 00Y. 0.02% + .0.5 W W+ 0.5 Ω .100Y 15.0000 V 0.01% 1.1000 Ω 0.03% W Y.C0.015% +.0.005% W WW+ 0.005% M.T M+ 5TΩ .1 O W MT .100+ 0.001%Of.s.)/°C O 11.000 kΩ 0.03% 0.04% + 5 Ω W Temperature coefficient: (0.001%W output C . W .C Y.C f.s./°C WW .100Y WW coefficient: from -10 °C to 18 °C and 28W °C W to 50 °C .TW Temperature from -10 °C to 18 °C and M.T .TW 100 0.01% 00Y M . O W M O W Maximum output current: 10 mA W.1 C 28 °C to W 50 °C O .C WW .100Y. .TW W and minimum Loading: (0.001% f.s. +1 µV)/mA .TWsource resistance: Maximum through 00Ycurrent M WW .100Y.C M.TW M 1 . O W O W Common mode error: 0.008% f.s./(Common Maximum Minimum W ModeYVolt) W .CO .TW WW .100Y.C M.TW WW .100Y3.C Maximum input voltage: 30 VW dc W 11 Ω range: mA dc M.T 0.1 mA dc 00 O 1 W M . O 110 Ω range:WW 3 mA W .CdcO .T0.1WmA dc YmA WW .100Y.C M.TW DC current output 0 W 0 3 dc 0.01 mA dc WW .100Y.C M.TW 1.1 kΩ range: .1 1 mA dc OM 0.01 mA dc O 11 kΩ range: WW WW 00Y.CO .TW Accuracy (% of output scale) W + % ofYfull .C C W . Y W W W 0 W T . 0 f.s./(Common Common mode error: 0.008% W M .1 Range (full scale) 1 year M Mode Volt) .1002 years OM.T W.1 30 V dc Maximum inputW voltage: WW 00Y.CO .TW .CO .TW C 22.000 mA 0.01% + 0.015%WW 0.02% +Y 0.015% . Y W W 0 W 0 W M .1 Current sink (sim0.02% + 0.03% .100+ 0.03%OM.T Frequency sourcing W.1 Y.COM W WW 00Y.CO .TW W0.02% W C . ulate transmitter) W W W 0 Y W .T 0 W W.1 Y.COM .100 accuracyOisM.T OM 2 years Specification applies from 2 to 22 mA; below 2 mA typical W.1 1 yearY.CAccuracy W W W C Range W . W W W 0.15% of full scale Y W W .100 100Hz M.T 0.01 Hz W M.T 0.00 to 10.99 Hz WW.0.01 .100 O Maximum burden voltage: 24 V O W W .C WHz W W f.s.)/°C00Y.C 0.1 Hz W to 109.99 HzW Temperature coefficient: (0.003% output + .T0.1 00Y W0.003% .T11.00 1Hz M . 1 M . O from -10 °C to 18 °C and 28 °C to 50 °C 110.0 to 1099.9 Hz 0.1 0.1 Hz W W W .CO .1.100 WVolt) 0Y.C M.0.002 Common mode error: 0.008% f.s./(Common W Mode TWkHz TWto 21.999 kHz W 0.002 10kHz 00Y . 1 M . O Maximum input voltage: 30 V dc W O 22.000 to 50.000 kHz 0.005 kHz 0.005 kHz W C . W 0Y Ww/50% duty 0cycle, WW .100Y.C M .TW Squarewave 1 . Waveforms: sinewave W O W 0.1 to 10 V p-p WW WW .100Y.C Amplitude: .TWaccuracy: Amplitude 3% of output + 0.5% of f.s., 1 to 1099 Hz; 10% M O W +W 0.5% of f.s., 1.1 to 10.9 kHz; 30% of output + 0.5% f.s., WW .100Y.C of11 output .TkHz to 50 M O W WW .100Y.CMaximum input voltage: 30 V dc 9 W WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W and 0Y.C MSpecifications WW .TW 0 T . 1 Temperature Measurement Simulation . M O W O C . W W .C W 0Y W 00Y M.TThermocouples .10Temperature, M.T .1RTDs O W Temperature, O W C . W W WW .100Y WW .100Y.C M.T Accuracy Accuracy M.T O W O W C . W .C Y Measure Source Measure Source WW W W 0 Y T . W 0 0 W T . 1Type and range 01 year 2 years M . .T 1 M . O W M 1 year 2 years 1 year 2 years Type and range 1 year 2 years O WW 00Y.C W .CO .TW 10 Ω Cu (427) WW E.100Y.C M.TW Y W T . 0 M .1 O M .10 °C 0.6 °C 0.9 °C to 0 °C 2 °C 1 °C 1 °C WW-250 to00-200 Y.C°C WW 20°C0Y.CO W W WW 00Y.CO .TW -100 .T1.3W°C 2.0 W T . 1 -200 to -100 °C OM 0.5 °C 0.8 °C 0.3 °C 0.4 °C . 0 to 260 °C 2 °C 2 °CM 1 °C 1 °C 1 . 1 W OM WW W. W 0.4 °C 0.3 °C 0.4 °C .CO .TW -100 to 600 0.3 °C 100 Ω Pt (3916) W Y°C.C C . 0 Y W T W . W 0 0 Y W W .T 00 to -190 °C 0.3.1 °C0 0.4 °COM 0.3 °C 0.4 °C Wto.11000 °CY.COM0.4 °CW 0.6 °C 0.2 °C 0.3 °C W600 W.1 Y.COM -200 .C°C WW W N -190 to 0 °C 0.3 °C 0Y 0.4 0.1 °C 0.2 °C W W .T W 00 W T W .10 0.8 °C OM0.2. °C 0.4 °C Wto.1-100 °CY.COM M.T0 to 630 °C .100 -200 1.0 °C 1.5 °C 0.6 °C 0.9 °C 0.5 °C W O W W C . W 0 W -100 to 900 TW0.8 °C 0.5 °C 0.8 °C . WΩ Pt (3926) WW .100Y 0 °C 0.5 °C T 100 . 1 WW .100Y.C M.T M . M O 1300 °C Y.C 0.6 °C 0.9 °C 0.3 °C 0.4 °C 0.3W °C 0.4 °C.CO0.1 °C O -200 to 0 °C WtoW W W0.2 °C 0 W900 .TW 0 0Y WW 1 WW .100Y.C M0.T J to W 630 °C 0.5 °C .10 0.8 °C 0.2M °C.T 0.4 °C M . O W O W O 100 Ω Pt (385) W -210 to -100 °C 0Y.C0.6 °C W°C 0.3 °C 0.4 °C WW .T0.9 W0.3W°C .10.500°CY.C 0.1 °CM.TW WW .100Y.C M .10 .TtoW0 °C -100 to 800 °C 0.3O °CM 0.4 °C 0.2 °C 0.3 °C -200 0.2 °C W O W C . O 0 to 400 °C W W C 800 to 1200 °C 00Y 0.5 °C 0.8W °C 0.2 °C 0.3 °C W . 0.5 W °C 0.8 °C0Y.C 0.2 °C 0.4 °C W T W . W Y W T W 00 M. °C .10°C 0.4 O W.1 Y.COM W L 0.8 °C W1.0 Mto.T800 °C W W.1 Y.CO400 .C °C .0.5 W W Y W W .T°C 0.3 °C 0.4 °C W -200 to -100 °C .100 0.6 °C M0.9 200 Ω Pt (385) 0 W T W .10 0.1 °COM0.2 O 0.4 °C 0.2 °C 0.3 °C W Mto.T .100 W C -100 to 800 °C 0.3 °C -200 0 °C 0.3 °C 0.5 °C °C . O W W C . Y W 0.8 °C 00Y W TW 0.2 °C 0.3 °C .T°CW 0.5 W °C 0.4 800 to 900 °C 0.8.°C WW .100Y.C0 to 400 .1000.5 °C OM .°CTW .1 0.2 °C OM W M630 W C . O W W 400 to °C 0.8 °C 1.0 °C 0.4 °C 0.5 °C C K W W 00Y WW .100Y. .TW -200 to -100 WW .100Y.C M°C.T 0.4 °C 0.6 °C .TW 500 Ω Pt (385) °C W.1 0.7 °C 1.0 M O M O W C . W 0.5 °C °C.C 0.2 °C W -100 to 400 °C .TW 0.3 °C 0.4 °C .COto 0 °C .TW 0.3 °C WW W°CW .10.3 00°CY 0.4 M .T 00.10Y WW .100Y-200 0 to 400 °C 0.5 °C 0.8 °CW.1 0.2 °C 0.4M °C O 400 to 1200 °C 0.5 °C 0.8 °C 0.3 °C °C W M O C O W 0.70°C0Y. 1.0 °C .T0.3 W W°C 0.4 °C 0.4 °C 0°CY.C 0.5 °CM.TW 1200 to 1372W Y.Cto 630 °C .TW 0.8 °C W1.0W°C .0.4 1 0 WW .100400 M . 1 O W M O Ω Pt W O(385) W 1000 Y.C0.2 °C .TWT-250 to -200 °CWW 1.7.1°C00Y.C TW 0 WW °C 0.1 °C 2.5 °C M.0.9 °C 1.4 °C 0 0Y.toC0 °C M.TW 0.3 °C 0.5 WW .10-200 1 M . O W O .C°C 0.4 °CO 0.5 °C 0.8 °CWW 0.2 °C 0.4 °C W W 0 to 400 -200 to 0 °C 0.6 °C 0.9 °C 0.6 °C C W . Y C W . 0 Y W T W . °C 0.4 °C W W .10 0.4 °C OM0.3 to 630 °C 1.0W °C 0.4.°C 0.3 100 0.5 °COM.T 0 to 400 °C 00Y W°C M.T 0.8 °C .1400 W C . O W W C . Y 120 Ω Ni (672) W C U W . W .TW W 0.1 °C.100Y .T 1000.9 °C OM WW -80 0to0Y260 °C M.TW 0.3 °C 0.4 °C 0.2 °C OM -200 to 0 °C 0.6W °C. 0.4 °C 0.6 °C 1 . W C W 2-wireYand .CO 0Y°C. 0.3M°C.TW0.4 °C WW 600 °C 0.3 °C 100.4 3-wire measurements add 0.4 W W°CW .100Y.C M0.TtoW 0 WW For T . . 0 M included .1 inaccuracies Sensor not WW 00Y.CO .TW W WW 00Y.CO B600.TtoW .C°C,Oexcept.T W1.3 W Y W 0.1 1 °C for 10 Ω Cu 800 °C °C °C 1.0 M 1.5 °C 0 WW Resolution: .1 O°C W.12.0 M 0.02 °C/°C from -10 °C toW .10 coefficient: OM Temperature 18 °C Wand O 800 to 1000 °C 1.0W °C 1.5 °C Y.C0.8 °C 1.2 W C W°C . C W . 0 Y W T W 28 °C to 50 0 °CY W 0°C 0.8 °CM. 1.2 0 W Tto 1820 °C . 1 0 W Maximum T . . 1000 0.9 °C W1.3 °C 1 0 M . O 1 input voltage: 30 V dc OM W W. inputYcurrent W Y.C WW 00Y.COR .TW C Maximum for RTDW Source function: . 0 W T W . 0 W 1 W M . 00 10 Ω RTD .1 -20M to 0 °C 2.3 °C 2.8 °C 1.2 M.T 8 mA dc .C°CO 1.8.T°CW O WW W.1 100,Y120 Ω RTDs 8 mA dc* Y WW 00Y.CO C W . 0 W W W 0 to 100 °C 1.5 °C 2.2 °C 1.1 °C 1.7 °C 0 W T W 200,.1500, .T1 mA dc 00 1000 Ω RTDs M. .1 OM1.4 °C W°C.1 0.9 Mpulsed O W C 100 to 1767 °C 1.0 °C W1.5 °C . O W 741B*, 743B*, 744: Addresses transmitters and PLCs with C . Y W .C W .TW W pulses ms 100 00Y S M.TW WWas short.1as001Y M . .TW 1 . O W M W W number Y to 0 °C °C WW 2.8 °C .CO * For 741B 7935XXXX .CO and greater. 0Y°C.C 1.8M°C.TW Wserial 01.2 WW .100Y-20 TW 2.3 W743B For serial number greater. .TW 00 7940XXXX and 0 to 200 M °C . 1.5 °C 2.1 °CW.1 1.1 °C O1.7 °C 1 M . O W Otherwise, 3W mA and 100 ms. O Y.Cto 1400 °C.TW 0.9 °C W1.4W°C .10.900°CY.C 1.4 °CM.TW WW .100200 WW .100Y.C M.TW M°C O°C 1400 to 1767 1.1 °C 1.7 °C W 1.0 °C 1.5 How to compare calibrators specifications. O W W basedYon W Y.C WW 0C0Y.CO .TW C . 0 W W W 0 W M.T .1 °C 0.9O .T Fluke process Analyzing specifications W can be 1 0 to 800 °COM 00• Temperature. . 1 W M . W 0.6 °C 0.9 °C 0.6 °C C complex. To get a true pictureW of W calibrator reflect perfor- W .C W .CO specs WW 0.7.1°C00Y.1.0 °C M.TW W 800 to 1200 °CM.T 0.8 °C 1.2 °C 00Y Wshould .100Y TW .18 calibrator performance, you mance from ° to 28 °C. 1 . O W M O 1800 1.1 °C 1.6 °C W 0.9 °C be aware of the key components ofW a Compensation factors are providedWW 1200 to .C °C .TW .CO .T 0Y1.4.C°C M.TW Y W Wuse of the W 0 0 1 0 WW .100toYpermit . specification and how to interpret specified 1.3 °C 2.0 °C 1 to 2316 °COM 2.0 °C 3.0 °C .1800 M WW 00Y.CO .TW W calibrators them. Specifications must be -10 ° to .C not.included WWSensor00inaccuracies W .CO over .aTwide Y W W W Y W T 1 0 W carefully considered when compar050 °C range. M M junction; for internal W .1 with external W. add 0.2Y°C.COM W Accuracy junction Ofor traceability. Fluke W•.1Allowance ing calibrators from different .C°CO cold WW C W . 0 Y W W Resolution: 0.1 .T W 0 Y W T . vendors. The most important W M or IPTS-68, selectable WW.10 .10 scale:OITS-90 OM 100 are notOrelative Temperature M.T specs, but .specs W C . C . components of a process calibrator WW total specs, Y W C . Y per.NIST Wallowance W Compensation: TWMonograph 175Wfor E, N, J, .K,1T,00B, R, OM.TW W .Tan specification are: 100 ITS-90 00Y including M . 1 for uncertainty of standards that M . S thermocouples; IPTS-68 per IEC 584-1 for E, J, K, T, B, W R, S O W .C per DIN W W .CO to.Tnational YIPTS-68 WW .100Y.C M.TW WWprovide traceability thermocouples; 43710 for L, U thermocouples W • Reference uncertainty. 0 Y W T . 0 0 W M O W Performance of a calibrator standards. M .10 Temperature from -10 °C to 18 °C and W.1 coefficient: W .CO 0.05 .°C/°C W .COFluke.T WW .100Y.C W at 23 °C + 3°C at the time it 28W °C to 50 °C00Y W Y W T Confidence level. uses a 0 W • 0 M .1 error: 0.01 is verified by the manufacturer. M Common Mode Volt) conservative level Oconfidence WW W.1 Y95% .CO30°C/(Common WWmode C W . Y W W This specification does not Maximum input voltage: V dc W 0 W T . when setting specifications, 0 0 W .T 0 include the effects of time and W.1 Y.COM W increasing OM that W.1 yourY.confidence W C W temperature, two of the largest Note: When simulating temperature.in Left procedures, W W will remain.T in spec Wyour calibrator M TAs Found/As .100linear byO M .100calibration components of calibrator error. steps may be either temperature or linear by mV potential. W O for itsW stated interval. C . W Y W WW .100Y.C M.TW • Time. Fluke 740 Series calibrators .100 W are delivered with both one-year O W For more refer Y.Cto the .TW WW and two-year specs, to limit your WWinformation, application note .“Understanding 100 M O calibration support costs. You W Specifications Calibrators.” .C W choose your cal interval based WW For Process 00Y 1 M.T . O upon the performance you need. W C . WW .100Y 10 W WW W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W 0Y.C M.TW WWSpecifications 0 T . Pressure 1 . O W OM W Y.C WW .100Y.C M.TW 0 T . 0 W.1 Y.COM WW 00Y.CO .TW The Fluke family modules: W W 0 WWof 29.1pressure T . 0 application M .1 M including Covers virtually any pressure WW 00Y.CO .TW .CO WW W Y W W gage, differential, dual (compound), absolute, and 0 W T . 0 .T W.1 Y.COM W W.1 Y.COM W OMvacuum. W W C . W .T 0 of 10 different Y .100 .TW pressureWreadings • Display M.T .1in0any OM W M .100 O W C . O W W C W . Y W .C W pressure setup. W .TW 00Ycalibrator M.T .100 .TW units youWspecifyWin.1the 00Y M O 1 W M . O C . O W W Rugged protect WW .100Y Wurethane molded 0Y.C theMmodules WW cases .TW WW .100Y.C • from M.T .Trough 10conditions. . O W handling and harsh M O W C O W .C WW .100Y. .TW WW .compensation .TW 00Y WW .100Y.C• Features M .TWinternal temperature 1 from M O W M O W O W .C WW .100Y.C M.TW Wfor full-accuracy WW performance. .TW 00Y WW .100Y.C O° toM50 .T°C 1 M . O WW 00Y.CO .TW W .CO .TW WW 0certificate. NIST-traceable calibration Y W W 0 W WW .100Y•.CIncludes T W.1 Y.COM W M. can be calibrated locally, OM W.1helping O W W C . W Modules to C • W . Y W .T W .T WW .100YcontrolM .100 .TW 100 M . OM W costs. O W C . O W W C W . Y W C Y W W .TW WW .100Y. M.T .100 .TW 100 M . O W M O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW WW 00Y.CO .TW WW .100Y.C M.TW WPressure O of 95%.) W M (all specifications in % C ofO full span. Specifications reflect a confidence interval W W.1 moduleOspecifications W Y. WW .2100Y.2C M.TW 0 WWReference T . 0 WW .100Y.C M.TW M .1 High Max overW LowY.CO O W W .CO Temperature WW 00Stability Range/ Range (approx)/ uncertainty Total1WWside side Fitting .Tpressure C W . 0 Y W W 0 Y W T . W M (x nominal) .1media material 1 (1 year) OM 00 ResolutionM.T Resolution Model (23 ± 3 ºC) (0 to 50 ºC) uncertainty media . O 1 W . W C O W WW .100Y. Differential .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O 0.300 30x FLUKE-700P00 .C SS O 0.25 kPa/0.0002 W Dry00Y316 W 1 in. HYO/0.001 W .C 0.025.TW 0.350 WDry WW 0.025 W0.200 O/0.01 kPa/0.002 0.050 0.050 0.300 Dry Dry 316 SS M.T3x FLUKE-700P01 1 00Y 0 H.C WW .1100in. TW . .2.5 1 M . O W M O0.080 .CSS FLUKE-700P02 6900 Pa/0.7 0.150 0.300 DryW Dry 316 3x W W 1 psi/0.0001 WW 0.070 .CO 6900 W T .3x W 00Y 0Y.C 0.030 W TW 0.150 316 . 1 0 WW .11psi/0.0001 T FLUKE-700P22 Pa/0.7 0.100 0.020 SS Dry 316 SS M . . 1 00Y M . O W M O W C . O W 5 psi/0.0001 FLUKE-700P03 0.050W 0.020 Y.C 0.030 Dry 316 3x W YSS .C 34 kPa/0.001 WW Dry W TW0.100 WW 5 .psi/0.0001 .100316 SS OM3x.T .TW FLUKE-700P23 34 kPa/0.001 0.025 0.010 0.015M. 0.050 316 SS Dry 100 00Y . 1 W M O W C W15 psi/0.001 .C0.015 FLUKE-700P04 0.025 W 0.010 0.050 DryWWDry 316 SS. 3x .TW .CO 103 kPa/0.01 00Y W 0.010 00Y 0.015 M.TW WW 15 psi/0.001 M .TW 1 00Y FLUKE-700P24 103 kPa/0.01 0.025 0.050 316 SS DryW.1316 SS 3x . O 1 M . O W O W WW .100Y.C M.TW Gage WW .100Y.C M.TW WW .100Y.C M.TW W FLUKE-700P05 30W psi/0.001 207 0.025 0.010 0.015 316 SS N/A O kPa/0.01 WW 316 0SS0Y.CO3x .TW .CO .0.050 W W .C690 Y W W 0 Y W T 0 FLUKE-700P06 100 psi/0.01 kPa/0.07 0.025 0.010 0.015 0.050 316 SS N/A 316 3x M 0 WW T .1 SS O M. .10 OM 0.050 316 SS N/AWW316 W.1 0.015 O W FLUKE-700P27 300 psi / 0.01 2070 kPa / 0.1 0.025 0.010 SS Y.C3x C . W C W . 0 Y W W .TW W 0 0 Y W T . 1 0 FLUKE-700P07 W500 psi/0.01 0.025 0.010 316.SS 3x OM .T 1 0.015 OM0.050 316 SS N/A W 00 3400 kPa/0.1 . 1 M . W C W FLUKE-700P08 1000 6900 kPa/0.7 0.025 0.010 0.015 316 SS N/A .C 0.050 W .CO WW316 SS.100Y.3x M.TW Wpsi/0.1 Y W .TW 316 00Y .TW 0.025 10.015 FLUKE-700P09 W 1500 psi/0.1.100 10 MPa/0.001 0.010 0.050 SS N/A 316 SS 2x M . M O W O WW 00Y.CO .TW W .C W C W . Y W W Absolute (not compatible with Fluke Y 701 or 702) W 0 W T W M .1 10 00 kPa/0.001M.T 0.050 M. 316 SS N/A 316 W O W.0.010 FLUKE-700PA3 5 psi/0.0001 0.010 0.070 SS 3x .CO .TW O W W.1 34 Y C . Y W C W . 0 Y W W W FLUKE-700PA4 15 W psi/0.001 0.050 0.010 0.010 0.070 .T 316 SS N/A 316 SS 10 3x 0 kPa/0.01 M.TW .100 10103 OM 316 SS N/A 316WSSW. 3x Y.COM W FLUKE-700PA5 30 psi/0.001W. 207 kPa/0.01 0.050 0.010 WW 0.010 0.070 O C . C W . Y W W W Y .T316 SS N/A 316 SS W.103x0 W FLUKE-700PA6 100 psi/0.01 690 0.010W 0.010 M.T .T0.050 100 0.070 00kPa/0.07 M . O 1 M . O W C . O W 701 orY702) W Vacuum (not compatible with WW .100Y WW .100Y.C M.TW 0 .C M0.040 WWFluke-34 M.T .TW O W .10kPa/0.001 FLUKE-700PV3 -5 psi/0.0001 W 0.015 0.015 0.070 316 SS Dry 316 SS 3x O W C W 3x 00Y. W .C W .CO 0.040 FLUKE-700PV4 -15 psi/0.001 0.070 316.T SSW Dry 316W SS WW -103.1kPa/0.01 M.T .1 .TW 0.015 W 0.015W.100Y 00Y M O W M O Dual W W .CO .TW Y.C WW .100Y.C M.TW W0.025 .TWDry 316 SS 000.200 WW ± 6900.1Pa/0.7 1 00Y FLUKE-700PD2 ± 1 psi/0.0001 0.150 0.025 316 SS 3x M . O W M WkPa/0.001Y.CO0.040 W 0.015 W .CO316 SS.TW Y.C WW 00.070 FLUKE-700PD3 ± 5 psi/0.0001 W ± 34 0.015 Dry 316 SSWW 3x 0 Y 0 0 W 1 0 W T M.T . 0 M FLUKE-700PD4 ± 15 psi/0.001 ± 103 kPa/0.01 0.025 0.010 0.015 W.1 0.050 316 SS Dry 316 SS 3xW. O 1 M . O C . O W W .C SS .TN/A W 316 SS WW3x .100Y .C 0.025 FLUKE-700PD5 -15/30 psi/0.001 -100/207 0.010 0.015 WW .10.050 00Y 316 WW kPa/0.01 M.T 00Y 0.025M.TW0.010 M O 1 W FLUKE-700PD6 -15/100 psi/0.01 -100/690 kPa/0.07 0.015 0.050 316 SS N/A 316 SS 3x . O W C O W W W .C Y. FLUKE-700PD7 -15/200 psi/0.01 -100/1380 0.015 W WW 0.070 TW 316 SS W 3x 00Y 316 SS M.N/A 0Y.C0.040 M.T0.015 WW kPa/0.1 M.T .100 1 0 . O 1 W . O W High W .C .CO WW .100Y.C M.TW W WW 0.080 .TW C276 00YC276 MN/A WMWPa/0.001 FLUKE-700P29 3000 psi/0.1 20.7 0.010 0.020 2x 1 00Y0.050 M.T . 1 . O N/A C276 W O 0.010 WW 00Y.CO W C . W FLUKE-700P30 5000 psi/0.1 34 M Pa/0.001 0.050 0.020 0.080 C276 2x C W . Y W W W 0 Y W T . 0 0 W T . FLUKE-700P31 10000 psi/1 69 M Pa/0.007 .10 0.050 0.020 0.080.1 C276 OM N/A C276 1.5x W.1 W OM0.010 W W C . W C W . Y W W Total uncertainty, one year for temperature range 0 °C to +50 °C. Total uncertainty, 1.0%T ofW full span for temperature module Y W range -10.1°C0to00 °C. For P00M .T only, compensated W temperature range is 15 ° to 35 °C. M. .100 O W O W C . W C . Y “Dry” indicates dry air or non-corrosive gas as compatible SS” mediaT compatible 316 Stainless Steel. compatible with W with TypeW Yindicates .TW WWmedia..“316 Mmedia .100“C276” indicates 100 Hastelloy C276. M. O W O W C . W W Maximum00overpressure W includes common Use of pressure zero is required prior to measurement W or source. 0Y are rated. Metric adapter(s): Y.C specification Wmode pressure. .TP30, .10allModules 1/4˝ NPT female to male BSP/ISO 1/4-19, tapered thread, included with and P31. Effective OctoberW 1996, modules include a NIST traceable certificate MP29, .1all modules except O W and test data. WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C 11 W WW 2 2 1 2 Y NQA T OM ED B IFI RT T EE CE W M.T O C W Y. M.T .100 O W WW .100Y.C M.TW O W W WW .100Y.C M.TW T . M WW 00Y.CO .TW .CO .TW Y W 0 0 General W Specifications .1 W.1 Y.COM W OM W C . W W .T 00 W .TW 00Y W.1 Y.COM W W.1 Y.COM W W Data log function (except 741B) W W .T W 00 W Measure current, M.T .100 resistance, W.1 Y.COM W M.T functions: Voltage, O W O W C . W temperature,W pressure W .T W 0Yreadings Y.Cfrequency, .TW .100 1060 Mper .or OM W M.Trate: 1, 2, 5, 10, 20,W30, .100 Reading O W C . O W W C W Y .C Y. W W W W .TW M.T .100 .Trecord 100 00Yminute M . O 1 W M . Maximum length: 8000 readings O W C . O W W Y Wminute)00Y.C Information .C for 30 WW Ordering W60 readingsWper (7980 .TW WW .100Y M.T .100 .Tor 1 M . O W M O W C O W WW .100Y. .TW WW .100Y.C M.TW 0Y.C function WW .10Ramp M .TW Voltage, current, O W M O Source functions: resistance, FLUKE-741B Documenting Process Calibrator W WW 00Y.C W .CO temperature 0Y.CDocumenting WWFLUKE-743B TW Process Calibrator . W 0 Y W T . 1 0 WW .1frequency, T M . . 0 M .1 W .CO .TWProcess Calibrator-HART OM FLUKE-744 W W Rate:Y4.Csteps/second YDocumenting WW 00Y.CO .TW 0 W W 0 W 1 0 WW .Trip T M 740 Series: . with theOFluke or voltage Included M .1 10 detect:OContinuity* M. WWTL240Industrial W *Continuity W (two sets), AC20 Test Y.C Test.TLeads Type WW 00Y.CO .TW C detection not available when sourcingW current . 0 W W W Y 1 W M Probes (1 set), Battery Pack, .T 1 00 M . Clips W (2 .sets), TP20 Test O 1 M . O W C W Charger, WLoop power W Y.serial port.Tcable .COfunction Battery 741B), HART W WV or 28 V WW .100Y.C M.TW WW Voltage: M only),(except .100 cable .T24 00YSelectable, O 1 W M . communications (744 DPC/TRACK Sample O W C . O W W C W . Y W W .C Y W free PC.1communication .Tutility software (except 00 Y5% with W WWAccuracy: .TW M.T .100 OMNIST-traceable calibration Maximum mA, short-circuit protected W M22 .100 current: O W C 741B), Instruction Manual, . O W W C . Y W .C voltage: W and data, .TW Maximum0Y input report WW .100three-year .TW30 V dc W W.100Y OM.TW OMwarranty. 10 W M C Note:W 250.Ω series resistance is automatically supplied whenever loop power is . O W C 0Y W TW W on 744.00Y.C WW .100Y. FLUKE-700SW (for use with .TW Wenabled M.Software .10DPC/TRACK .TW M O 1 W M . O W C . Model 743B or 744 calibrators) O W W C W . Y W C . HART interface only) Y W with DPC/TRACK W modem 00 W .TW Included W TW software: M.T .(744 00Yvoltage: .100 O W.1Instruction M30 .1input Maximum V dc OM W C . O W W C . Software media, Manual, Serial Port Cable, Y W C W .TW W .TW DB9 to DB25 10to0 25 pin)OAdapter. 00Y WW .100Y. M . .TW 1 (9 pin M . W M O W O Environmental Y.C WW WW 00specifications .TW Y.C WtoW .100Y.C M.TW FLUKE-700 100 Modules M . .TWfrom +18 °C PxxW Pressure AllW calibrator.1specifications apply O M O W .C O W stated W with each Fluke Pressure Module: +28 °CW otherwise. WW W 00Y 0Y.C M.TWIncluded Y.C WW 1 0 0 W unless T M-.TP31), Instruction . . 1 0 . BP-ISO Adapter(s) (except with P29 Operating temperature: -10 °C to 50 °C, (-20°C typical O 1 W M . O W C . O W calibration W W data, Y report.Tand .C ac voltage Sheet, NIST W traceable Wfrequency exceptWfor measurement) WW .100Y.C M.TW M .100 .T60W°C 00Yand O 1 W M . one-year warranty. Storage temperature: -20 °C to O W C O W W WW .100Y. .TW Y.Cm above WW .100Y.C M.TAccessories Operating altitude:00 2800 mean sea level WW M .TW O 1 W M . O (9186 ft) .C psi/7 W WW 00Y.C .CO WW Pressure1Pump; bar .TW 00Y 100 M TW .Fluke-700PMP WW .100YThe 90-day specifications: standard specificationW . .TW 1 M . O W M Fluke-700LTP Low Pressure Test Pump O W C . O W W C intervals for the 740 Series.C are 1 and 2W years. Typical W . 0Y Pump;M WPneumatic .TW 360 psi/25 bar .TW 0Ysource M WW .10and .10Test .T can be W W.100Y OMFluke-700PTP 90-day measurement accuracy O W C Fluke-700HTP Hydraulic Test Pump; 10,000 psi/ . O W W C . Y W C estimated by dividing the one year “% of reading” or W . 0 Y W T W . W W 0 0 Y W T . 1 0 0 W T 700 bar M . . 1 0 M . O W Hose “% of output” specifications 2.O Floor M specifications, WW O W.1 by Hydraulic Y.C WW Test TW expressed as W “%W of f.s.” or “counts” W remain W 00Valve 0Y.C Fluke-700HTH Y.C or “ohms” TW . 1 0 0 T M.HTP . . 1 0 Fluke-700PRV Pressure Relief Kit for M . O 1 W M . O W constant. C . O W Current mA/mA WWShunt.1(for .TW W 00Y Y.C WW .100Y.C Fluke-700-IV .TW WW pack M .T 00NiCd, M O 1 applications) W M . Power: Internal battery 7.2 V, 1700 mAh; O W O W W Y.C WWCalibration Pressure NiMH (744 only)W 7.2W V, 35000mAh WW .100Y.CFluke-700PCK .TW 100 Kit OM.T 0Y.C M.TW . M 1 W . Fluke-700BCW Bar Code W Wand W Battery Life: Typical usage, >8 hours CO .COx 9.3 x.T2.4 0Y.C M.TW W Kit,.190types WW Win.) Y(5.1 WW .100Y.Fluke-700TC1 TW TC Mini-Plug . 0 Dimensions: 130 W x 236 x 611mm 0 M O W JKTERS OM Fluke-700TC2 WKit, W. Weight: 1.4 kg (3 lbs. W 1 oz.) W .CO .TW TC Mini-Plug Y.C WW 00Y C . 0 W W 0 Y W W M.T .T Infrared Probe W.1 1 80T-IR 00 Side Port Connections: M . O 1 M . O W C Probe Y.C WW .100Y. WW 00Y.CO .TW • Pressure module connector .TW WW .10080PK-IR .TW Infrared M M BE9005 Battery Eliminator O (743B and.1744) to interface to W M • RS-232 connector W O W O W WW .100Y.C M.TW your PC 0Y.C M.TWBattery Charger WW .10BC7217 WW .100Y.C M.TW BP7217 NiCd Battery Pack • Connection for optional battery O WW 00Y.CO .TW W eliminator .CO .TW WW BP7235 .C1010.1-92, Y W W 0 Y NiMH Battery Pack W Safety: Complies with CAN/CSA No 0 0 WW C22.2 T W.1 Y.COM W M. .10EN610-1:1993. W.1C700 Y.COM Hard Carrying Case O ANSI/ISA S82.01-1994, UL3111,W and W W C W . W W .T W Y W .TSoft Carrying Case 100 C781 Data Storage Capacity: W .100 OM M.T .100 OM Soft Carrying Case WW. W C . O W C C789 W . Fluke 741B—1 day of calibration results Y W C . Y W W .TWLead Case W W.100 Wof M.T 100 00Yresults M.TW C75 Test M . Fluke 743B and 744—1 week calibration O 1 . O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W W O W .CO your W world WW .100Y.C Y 0 WWFluke. T . Keeping 0 WW .100Y.C M.TW M .1 O WW W CO running. .and WW 0up C W . Y W W W 0 Y W T . 0 W .T 0 W.1 Y.COM W OM W.1Corporation W C . W For more information Fluke W Y W .T 00 call: W PO Box.9090, .T 98206 .1443-5853 100 Everett,OWA MUSA U.S.A. (800) orO FaxM (425) 446-5116 W W C . W Europe/M-East/Africa 675 200 or Fax (31 40) 2 675 222 Y.C W Fluke Europe B.V. 00Y(31or40)Fax2 (905) WW .TW .136-FLUKE Canada (800) 890-6866 .1005602 W PO Box 1186, BD OM W W Other countries +1 (425) 446-5500 or Fax +1 (425) 446-5116 .C W W Y W The0Netherlands WEindhoven, T . 0 Web access: www.fluke.com OM W.1 WW .100Y.C M.TW ©2001 Fluke Corporation. All rights reserved. Printed in U.S.A. 10/2001 1263323 A-ENG-N Rev F O W C . W Y 0 W 0 W.1 WW IS 90 97 ® O 01 .6 • CERT. NO 4 O W WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T . W.1 Y.COM W W.1 Y.COM W OM W W C . W .T W 00 Y W .T .100 W.1 Y.COM W M.T .100 OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W .C W .T WW .100Y WWStates.1[Change] .100 .TW 00Y | M United Fluke [Change] M.T OM W O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W W WW .100Y WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W C O W W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W 0 W .1 W.1 Y.COM W M.T .10 OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W W Y W .T 00 W WW .100Y.C M.TW M.T .100 W.1 Y.COM W O W O W W C . W W .T WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C W Y .C W W WW .100Y. .TW M.T .100 .TW 00Y Pack M O 1 W M . O W C BP7235 Ni-MHWBattery . O W W WW .100Y WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W W M .1 .T 00 W.1 Y.COM W .CO .TW WW 00YManuals W.1 Y.COM W W W W 0 W .T 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W .T 00 W.1 Y.COM W W.1 Y.COM W OM Ni-MH battery pack. W Description: 7.2V 3500 mA-hour W.1 rechargeable W C . W W W .T W M.T .100 .TW 100 00Y M . O 1 W M . O W C . W W W or 74000Calibrator. Application: Provides typical battery 700 .CO life.Twhen Y.C WW .100Y W used inW .TW WW16-hour M.T 1 00Y M . O 1 W M . O W C O W WW .100Y. .TW Included: One battery pack. WW .100Y.C M.TW WW .100Y.C M.TW M O W O WW 00Y.C .CO .TABS/PC-blend WW .100Y.C M.TW WW W Wcase. .TW Material: Six 1.2V dc Ni-MHW cells in custom-molded 1 00Y M . O 1 W M . WW 00Y.CO .TW WW .100Y.C M.TW WW 00Y.CO .TW W W M .1 Application: 7.1" x 2.2" x .9" (150 mm.1x 56 mm xM O 22 mm) WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 M .1 Dimensions: 7.1" x 2.2" x .9" (150 mm xM 22 mm) O WW 00Y.CO .TW W.1x 56 mm WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W Weight: 11 oz/310g WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W Warranty: One year W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C . Y W C W Y W W W 00 Y. W M.T .100 This item replaces BP7217W Ni-Cd Battery W.1 .100 Pack.OM.T O W W W C . W W Y W W WW .100Y.C M.TW M.T .100 O W O W C W WW .100Y. WW .100Y.C M.TW M.T