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B680H 7KH DXWRPDWHG V\VWHP FRQVLVWV RI D ZKLWH DOXPLQLXP EHDP ZLWK 3. BARRIER DIMENSIONS UHIOHFWRUVRSWLRQDOVLJQDOOLQJOLJKWVDFRYHULQJFRPSDUWPHQWDQGVWHHO All the dimensions contained in this manual are XSULJKWSURILOH,QVLGHWKHFRPSDUWPHQWWKHUHLVDQRSHUDWRUFRQVLVWLQJ expressed in mm RIWKHXSULJKWSURILOHZLWKDK\GUDXOLFXQLWDQGWZRSOXQJLQJSLVWRQV IL[HGWRLWZKLFKE\PHDQVRIDURFNHUDUPURWDWHWKHEHDP7KH ODWWHUUHPDLQVEDODQFHGWKDQNVWRDEDODQFHVSULQJILWWHGRQRQHRIWKH )RUEDUULHUGLPHQVLRQVUHIHUWR)LJ7KHFRYHULQJFRPSDUWPHQWLV WZRSOXQJLQJSLVWRQV7KHHOHFWURQLFFRQWUROHTXLSPHQWLVDOVRKRXVHG WKHVDPHIRUERWKPRGHOVZKLOHWKHEDUGLPHQVLRQVGLIIHUDVVKRZQ RQWKHXSULJKWLQVLGHDFRPSDUWPHQWDQGWKHZKROHLVSURWHFWHGE\ in detail at EDU6DQGEDU/)LJ WKHH[WHUQDOFRYHULQJFRPSDUWPHQW 7KH V\VWHP IHDWXUHV DQ DGMXVWDEOH HOHFWURQLF DQWLFUXVKLQJ VDIHW\ D GHYLFH WKDW JXDUDQWHHV VWRSSLQJ DQG ORFNLQJ RI WKH EHDP LQ 4. INSTALLING THE AUTOMATED SYSTEM DQ\ SRVLWLRQ DQG D FRQYHQLHQW PDQXDO UHOHDVH IRU XVH LQ FDVH RI 4.1 Preliminary checks EODFNRXWRULQHIILFLHQF\ )RUWKHVDIHW\DQGFRUUHFWRSHUDWLRQRIWKHDXWRPDWHGV\VWHPHQVXUH WKDWWKHIROORZLQJFRQGLWLRQVDUHPHW 1. TECHNICAL SPECIFICATIONS 1.1 Summary table Power supply (V ~ / Hz) 90-240 V ~ / 50-60Hz Electric Motor 9GF%UXVKOHVV Absorbed power (W) 240 Absorbed current (A) $DW9a Motor rotation speed (RPM) 1000-6000 Pump capacity OPLQPD[ Yielded torque (Nm) 0-370 Oil type FAAC HP OIL Oil quantity (L) a Anti-crushing System (OHFWURQLFZLWKDEVROXWHHQFRGHU Deceleration type (OHFWURQLFZLWKDEVROXWHHQFRGHU Operating ambient temperature (°C) -20 / +55 Rated Operating Time (ROT) &RQWLQXRXV'XW\DW& Compartment protection treatment EP SL LF PRIMER Beam type 5RXQGHGZLWKOLJKWVDQGUXEEHUEXPSHU Protection Class IP44 Compartment Dimensions (LxHxP) (mm) 6HHLOOXVWUDWLRQ)LJ Weight (body + compartment) (kg) WRWDO Opening and closing time (s), including deceleration 1.5 - 2 m beam RSHQLQJFORVLQJPEHDP Wall in the foundation plate so as to allow easy access to the barrier door. The foundation plinth must be installed keeping in mind the characteristics of the ground to ensure perfect stability of the automated system. 4.2 Walling in the foundation plate 8VH D OHYHO WR HQVXUH WKDW WKH SODWH LV SHUIHFWO\ KRUL]RQWDO :DLWIRUWKHFHPHQWWRVHW 4.3 Electrical preparations )ROORZLQJ WKH LQVWUXFWLRQV VKRZQ LQ )LJ SUHSDUH WKH GXFWV WR make all the control board electrical connections with the chosen accessories. $OZD\VVHSDUDWHWKHSRZHUFDEOHVIURPWKHFRQWURODQGVDIHW\FDEOHV EXWWRQUHFHLYHUSKRWRFHOOVHWF 8VH WKH FDEOH GLDPHWHUV VKRZQ LQ )LJ DQG UHIHUUHG WR LQ WKH IROORZLQJNH\ /HIWIHHGWXEH Release lock /HIWSOXQJLQJSLVWRQ Left piston bleeder screw &RYHULQJFRPSDUWPHQW Encoder %R[FRQQHFWLQJWKHPDLQSRZHUVXSSO\ 6ZLWFKLQJSRZHUVXSSO\ Barrier mod. B680H Photocells .H\EXWWRQ )ODVKLQJODPS Radio receiver 0DJQHWLF/RRSV 4.4 Mechanical installation 1.3 Key Fig. 6 %HDULQJVWUXFWXUH Mechanical stops Rocker arm Drive shaft $VVHPEOHWKHIRXQGDWLRQSODWHDVVKRZQLQ)LJUHI 6HWWKHIRXQGDWLRQSOLQWKDVVKRZQLQ)LJUHI :DOOLQWKHIRXQGDWLRQSODWHDVVKRZQLQ)LJUHISURYLGLQJ IRURQHRUPRUHVKHDWKVIRUWKHSDVVDJHRIWKHHOHFWULFDOFDEOHV For dimensional reasons, the cable passage sheaths must be placed on one side of the space provided at the base of the barrier (see Fig. 9). 1.2 Key Fig. 5 %XLOWLQÀDVKLQJODPS (OHFWURQLFFRQWUROHTXLSPHQW 2LO¿OOLQJFDS 5LJKWSLVWRQEOHHGHUVFUHZ +\GUDXOLFXQLW 5LJKWSOXQJLQJSLVWRQ 8QLWFRROLQJIDQ 5LJKWIHHGWXEH :KHQLQPRWLRQWKHEHDPPXVWQRWHQFRXQWHUREVWDFOHVRUÀ\LQJ power cables. 7KHFKDUDFWHULVWLFVRIWKHJURXQGPXVWJXDUDQWHHVXI¿FLHQWVROLGLW\ RIWKHIRXQGDWLRQSOLQWK 1R WXEHV RU HOHFWULFDO FDEOHV VKRXOG EH SUHVHQW LQ WKH SOLQWK GLJJLQJDUHD ,I WKH EDUULHU ERG\ LV H[SRVHG WR YHKLFOH WUDQVLW SURYLGH IRU DGHTXDWHSURWHFWLRQDJDLQVWDFFLGHQWDOLPSDFWZKHQSRVVLEOH (QVXUHWKDWWKHUHLVDQHI¿FLHQWHDUWKSODWHIRUFRQQHFWLQJWKH XSULJKWSUR¿OH 6HFXULQJSODWH 6SULQJJXLGH %DODQFHVSULQJ 3UHORDGDGMXVWPHQWULQJQXW 2. ELECTRICAL PREPARATIONS (standard system) 6HHGHWDLOVLQWKHLOOXVWUDWLRQ)LJ 3 )L[WKHXSULJKWSURILOHRQWRWKHIRXQGDWLRQSODWHXVLQJWKHIRXU SURYLGHGQXWV)LJ5HPHPEHUWKDWWKHK\GUDXOLFXQLWPXVW XVXDOO\IDFHWKHLQVLGHRIWKHSURSHUW\ 3UHSDUH WKH RSHUDWRU IRU PDQXDO RSHUDWLRQ DV VKRZQ LQ SDUDJUDSK)LJ0DQXDO2SHUDWLRQ 5HPRYHDQGVHWDVLGHWKHYHQWLQJVFUHZDVVKRZQLQ)LJ ref. . 6HWWKHURFNHUDUPKRUL]RQWDOO\WKHQUHPRYHDVVKRZQLQ)LJ 13 ref. WKHXSSHUIL[LQJSLQRIWKHSLVWRQRQWKHEDUVLGHDQG LQVHUWRQLWWKHVSULQJJXLGHDQGEDODQFHVSULQJDVVKRZQLQ)LJ IROORZHGE\WKHSUHORDGDGMXVWPHQWULQJQXWSD\LQJDWWHQWLRQ WRWKHGLUHFWLRQLWPXVWEHLQVHUWHGLQVHH)LJUHI). ENGLISH B680H AUTOMATED SYSTEM 6HFXUHWKHSLVWRQZLWKRXWVSULQJLQWKHVDPHKROHVKRZQDERYH Give the Customer the “User ’s Manual”, the documentation required by current law and show how to correctly operate the barrier, pointing out the areas of potential danger. With the barrier open, the spring must NOT be compressed. 6. MANUAL OPERATION ,QVWDOOWKHEHDPDQGLWVIL[LQJSRFNHWXVLQJWKHSURYLGHGVFUHZV DVVKRZQLQ)LJUHIIURP to WKHUXEEHUSURILOHRIWKH EHDPPXVWIDFHWKHFORVLQJGLUHFWLRQ 6KRXOGPDQXDORSHUDWLRQRIWKHEDUULHUEHUHTXLUHGGXHWRHOHFWULFDO SRZHU FXWRIIV RU DXWRPDWHG V\VWHP LQHIILFLHQF\ XVH WKH UHOHDVH GHYLFHZLWKWKHSURYLGHGNH\ 7KHSURYLGHGXQORFNLQJNH\LVHLWKHUWULDQJXODU)LJUHI ) or FXVWRPLVHG)LJUHI optional). ,QVHUW WKH XQORFNLQJ NH\ LQ WKH ORFN DQG WXUQ WKH NH\ anticlockwiseXQWLOLWFOLFNVLQWRSODFHDVVKRZQLQ)LJ 2SHQRUFORVHWKHEHDPPDQXDOO\ 'RQRWJUHDVHWKH¿[LQJVFUHZRIWKHEDU ENGLISH ,I WKH DSSOLFDWLRQ UHTXLUHV D VHJPHQWHG EDU RQFH WKH ILUVW VHJPHQW DQG IL[LQJ SRFNHW KDYH EHHQ DVVHPEOHG FORVH WKH DXWRPDWLF V\VWHP ORFN LW DQG IROORZ WKH LQVWUXFWLRQV IRU DGGLWLRQDO VHJPHQW DVVHPEO\ DV VKRZQ LQ )LJ UHI IURP to $GMXVWWKHRSHQLQJDQGFORVLQJPHFKDQLFDOVWRSVDVVKRZQLQ )LJDQGWLJKWHQWKHORFNQXW (QVXUH WKDW WKH EHDP LV EDODQFHG IROORZLQJ WKH LQVWUXFWLRQV FRQWDLQHGLQSDUDJUDSKVDQG With the bar released, the motor may start for approximately 3 seconds. This is normal and determined by the parameter Hold Close / Hold Open 7. RESTORING NORMAL OPERATION 7RDYRLGDQDFFLGHQWDOSXOVHRSHQLQJWKHEDUULHUGXULQJWKLVRSHUDWLRQ EHIRUHDFWLYDWLQJWKHORFNLQJV\VWHPFXWRIIDOOSRZHUWRWKHV\VWHP The compartment should be fixed, as shown in the sequence in Fig. 21, when all mechanical installations, wiring and start-up have been completed. triangular unlocking key (standard): WXUQWKHNH\clockwiseXQWLOLWVWRSVDQGWKHQUHPRYHLW)LJ ref. ). customised unlocking key (optional): WXUQWKHNH\clockwiseXQWLOLWVWRSVDQGWKHQUHPRYHLW)LJUHI ). 4.5 Fixing the plunging pistons %DUULHUEDODQFLQJLVREWDLQHGE\FRUUHFWO\DGMXVWLQJWKHVSULQJSUHORDG ULQJQXWVHHQH[WSDUDJUDSKEXWDOVRE\VHWWLQJWKHWZRSOXQJLQJ SLVWRQVLQWKHPRVWVXLWDEOHSRVLWLRQ7KLVSRVLWLRQLVGHWHUPLQHGE\ WKHOHQJWKRIWKHEHDPDQGWKHSUHVHQFHRIDQ\DFFHVVRULHVWKDW PD\EHDSSOLHGWRLWVHHSDUDJUDSK 8. MAINTENANCE :KHQSHUIRUPLQJVL[PRQWKPDLQWHQDQFHDOZD\VFKHFNWKHFRUUHFW EDODQFLQJ RI WKH V\VWHP DQG WKH FRUUHFW RSHUDWLRQ RI WKH VDIHW\ devices. 4.6 Balancing the barrier WARNING: This procedure must be carried out as the barrier is not internally balanced. The beam is balanced when, operating manually (ref. paragraph 6) the beam remains stationary in the 45° position. 8.1 Topping up the oil &KHFNWKHDPRXQWRIRLOLQWKHWDQNHYHU\PRQWKV 7KHOHYHOPXVWEHLQFOXGHGEHWZHHQWKHWZRQRWFKHVRQWKHLQVSHFWLRQ rod. 7RWRSXSXQVFUHZWKHILOOHUFDS)LJUHIDQGSRXURLOXSWR the indicated level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ir bleeding )$$&SURGXFWVDUHGHOLYHUHGDOUHDG\EOHGRIDQ\DLULQWKHK\GUDXOLF FLUFXLW 0DLQWHQDQFH RSHUDWLRQV UHSODFLQJ VSDUH SDUWV HJ FRQQHFWLRQSLSHVRUFDUHOHVVWUDQVSRUWFDQFDXVHHQWU\RIDLULQWKH K\GUDXOLFFLUFXLWZKLFKLQWXUQFDQFDXVHRSHUDWRULUUHJXODUPRYHPHQW RUUHGXFHLWVWRUTXH6KRXOGEHDPPRYHPHQWEHLUUHJXODUUHOHDVH WKHDLUIURPWKHK\GUDXOLFV\VWHPIROORZLQJWKHLQVWUXFWLRQVEHORZ (OHFWULFDOO\RSHUDWHWKHEHDP :KHQ RSHQLQJ LV FRPSOHWHG VOLJKWO\ ORRVHQ DQG WLJKWHQ WKH EOHHGHU VFUHZ RI WKH SLVWRQ ZLWK WKH EDODQFH VSULQJ )LJ ref. ). :KHQ FORVLQJ LV FRPSOHWHG VOLJKWO\ ORRVHQ DQG WLJKWHQ WKH EOHHGHUVFUHZRIWKHSLVWRQZLWKRXWWKHEDODQFHVSULQJ)LJ ref. ). ,I QHFHVVDU\ UHSHDW WKH RSHUDWLRQ XQWLO UHJXODU PRYHPHQW RI WKH beam is obtained. 5. START-UP 5.1 Connecting the control equipment WARNING: Before carrying out any work on the control board (connections, maintenance, etc.) always cut off the electrical power. For all automatic system connections and testing, refer to the section dedicated to the electronic equipment, paragraph 1 on page 6 and following. Care needs to be taken at this stage as the pistons contain oil under pressure which could leak out if the screws are loosened too much. 5.2 Testing the automated system 2QFHLQVWDOODWLRQKDVEHHQFRPSOHWHGDSSO\WKHGDQJHUVLJQVWLFNHU UHI)LJWRWKHWRSRIWKHXSULJKWSURILOH3URFHHGWRHQVXUHFRUUHFW RSHUDWLRQRIWKHDXWRPDWHGV\VWHPDQGDOOWKHDFFHVVRULHV connected to it. FO FC If the parameters and in Advanced Configuration have been changed and set to a value lower than default, during bleeding we recommend setting them to an equal or greater value, to facilitate air bleeding 4 9. REVERSING THE OPENING DIRECTION 10.3 Installation of a receiver antenna 10. ACCESSORIES 10.1 Installing a photocell 7KH EDUULHU LV HTXLSSHG ZLWK D ODWHUDO FRYHULQJ SURILOH ILWWHG LQ WKH FRPSDUWPHQW RSHQLQJ XQGHU ZKLFK WKHUH DUH KROHV IRU FRQWDLQLQJ 6DIHEHDP%86RUZLUHOHVVSKRWRFHOOV 7RLQVWDOOWKHSKRWRFHOOVSURFHHGDVIROORZV 1. 2. 3. 4. Remove the barrier compartment. Match the holes on the barrier compartment with the holes on WKHFRUUHVSRQGLQJDOXPLQLXPFRYHULQJSURILOHRQWKHSKRWRFHOO installation side; ref. LVXVHGWRIL[WKHGHYLFHUHILVXVHG IRUWKHSDVVDJHRIWKHLWVSRZHUFDEOH'HWHUPLQHWKHKROHVL]H DFFRUGLQJWRWKHVL]HRIWKHFDEOHVDQGRIWKHIL[LQJVFUHZVXVHG &RQQHFWWKHSKRWRFHOOIROORZLQJWKHSURYLGHGGLDJUDP )L[WKHSKRWRFHOOWRWKHODWHUDOSURILOHDVVKRZQLQ)LJ 10.2 Installing the bar light kit ,QVWDOODWLRQRIDQ/('EDUOLJKWNLWLQFUHDVHVYLVLELOLW\RIWKHEDU 3URFHHGWRLQVWDOOIROORZLQJWKHLQVWUXFWLRQVFRQWDLQHGLQ)LJDQG VHFXULQJWKHFRQQHFWLRQFDEOHDFFRUGLQJWRWKHSDWKVKRZQXVLQJWKH RSHQLQJVIRULQVHUWLQJWKHWLHVWUDSVORFDWHGRQWKHXSULJKW &RQQHFWWKHNLWWRRXWSXW2XWRQWKHHOHFWURQLFERDUGDQGFRQILJXUH LWDFFRUGLQJWRWKHDYDLODEOHVZLWFKLQJRQPRGHVUHIHUWRWKHVHFWLRQ UHJDUGLQJWKHHOHFWURQLFERDUGSDUDJUDSKRQSDJH Ensure that the two connector jacks are actually in contact with the conductors inside the cord. Should the bar lights still not turn on, reverse the connection polarity. 5 ,QFDVHDUHFHLYHUDQWHQQDVKRXOGQHHGWREHDWWDFKHGWRWKHEDUULHU LWFDQEHVHFXUHGWRWKHIODVKLQJLQWHJUDWHGWUDIILFOLJKWFRQQHFWRURU WRWKHSODVWLFEUDFNHWLIWKHRSWLRQDOIODVKLQJWUDIILFOLJKWFRQQHFWRU VKRXOGQRWKDYHEHHQLQVWDOOHGDVLQGLFDWHGLQWKHGLDJUDPVLQ)LJ 11. REPAIRS )RUUHSDLUVFRQWDFWDQDXWKRULVHG)$$&6HUYLFH&HQWUH ENGLISH 7KHRSHQLQJGLUHFWLRQRIWKHEDUULHULVXVXDOO\GHWHUPLQHGDWWKHWLPH RILQVWDOODWLRQZLWKWKHLQVWDOODWLRQRIWKHVSULQJJXLGHWKHVSULQJDQG WKHSUHORDGDGMXVWPHQWULQJQXWRQWKHSLVWRQORFDWHGRQWKHEHDP downward travel side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side. 5HOHDVHWKHDXWRPDWHGV\VWHPWXUQWKHURFNHUDUPDQGUH LQVHUWLQRUGHUWKHVSULQJJXLGHWKHEDODQFLQJVSULQJDQGWKH WKHULQJQXWLQWKHSOXQJLQJSLVWRQLQVWDOOHGRQWKHQHZFORVLQJ VLGHDFFRUGLQJWRWKHRUGHUGHVFULEHGLQ)LJ2QFHWKLVLV GRQHUHILWWKHSOXQJLQJSLVWRQRQWKHURFNHUDUP 5HLQVWDOOWKHEDUIROORZLQJWKHLQVWUXFWLRQVLQ)LJ %DODQFHWKHV\VWHPRQFHDJDLQIROORZLQJWKHSURFHGXUHGHVFULEHG LQSDUDJUDSKVDQG /RFN WKH RSHUDWRU RQFH DJDLQ IROORZLQJ WKH LQVWUXFWLRQV LQ SDUDJUDSK Reverse the motor cable connection as shown in point of Fig. 14 E680 CONTROL BOARD 1. WARNINGS 2. DESCRIPTION OF THE COMPONENTS M )LJ POWER SUPPLY DL5 DL9 BATTERY ENCODER DISP1 J7 J6 J1 F J2 3 4 5 6 7 8 9 10 11 1 2 - SW1 SW2 SW3 DL14 DL13 DL11 DL12 DL10 + DL3 SW4 DL1 DL2 J12 DL16 J14 J11 DL4 DL15 DL6 DL7 J13 DL8 M1 DL17 DL18 J10 12 13 14 15 16 17 18 19 20 21 J15 J3 22 23 J4 24 25 26 27 %86'HYLFHVWDWXV DL2 %86VWDWXVVHHSDUDJUDSK DL3 /223VWDWXV DL4 /223VWDWXV DL5 %RDUGIDLOXUHVLJQDO DL6 Not used DL7 (QFRGHUVWDWXV DL8 Not used 5HOHDVHGEDUVLJQDO DL16 %DWWHU\SRZHUVLJQDO DL17 5DGLRFKDQQHODFWLYLW\ DL18 5DGLRFKDQQHODFWLYLW\ J1 ,QSXWVLJQDOFRQQHFWRU J2 'LJLWDORXWSXWFRQQHFWRU J3 6LJQDOOLQJODPSFRQQHFWRU J4 Detection loop connector J5 Motor connector J6 %86(DV\FRQQHFWRU J7 Beam movement encoder connector J10 Decoder / Minidec / RP-RP2 radio board connector J11 Released bar detection connector J12 (PHUJHQF\EDWWHU\FRQQHFWRU J13 &RQWLQXRXVSRZHUYROWDJHFRQQHFWRU J14 86%FRQQHFWRUIRUILUPZDUHXSJUDGH J15 ,QWHJUDWHGIODVKLQJ WUDIILFOLJKWFRQQHFWRU F 3URJUDPPLQJNH\³)´ + 3URJUDPPLQJNH\³´ - 3URJUDPPLQJNH\³´ SW4 3URJUDPPLQJNH\³6(783´ 2SWLRQDOPRGXOHFRQQHFWRU&RQQHFWLYLW\ LOOP 2 LOOP 1 LAMP +24 OUT1 +24 OUT2 +24 OUT3 +24 Relay NO Relay NC GND +24 GND %RDUGSRZHUVXSSO\SUHVHQW ,QSXWVVWDWXV/('VVHHSDUDJUDSK DL15 M1/M1A/M2 OPEN CLOSE FSW STOP ALARM 6LJQDOOLQJ3URJUDPPLQJGLVSOD\ DL1 DL10..DL14 MOTOR M2 M1A DISP1 DL9 J5 2Easy BUS ENGLISH :DUQLQJ %HIRUH FDUU\LQJ RXW DQ\ ZRUN RQ WKH FRQWURO ERDUG FRQQHFWLRQVPDLQWHQDQFHHWFDOZD\V FXWRIIWKHHOHFWULFDOSRZHU LQVWDOO D GLIIHUHQWLDO PDJQHWRWKHUPLF VZLWFK ZLWK D VXLWDEOH DFWLYDWLRQWKUHVKROGXSVWUHDPIURPWKHV\VWHP DOZD\VVHSDUDWHWKHSRZHUFDEOHVIURPWKHFRQWURODQGVDIHW\ FDEOHVEXWWRQUHFHLYHUSKRWRFHOOVHWF DYRLG DQ\ HOHFWULFDO GLVWXUEDQFH XVLQJ VHSDUDWH VKHDWKV RU D VKLHOGHGFDEOHZLWKWKHVKLHOGFRQQHFWHGWRWKHHDUWK 3. TECHNICAL SPECIFICATIONS Mains power voltage Continuous power voltage Absorbed power Accessories power supply Max accessories current 90-240 V~ +6% -10% connected to VZLWFKLQJSRZHUVXSSO\ 36 V Pause time 3URJUDPPDEOH IURP VHFRQGV WR PLQXWHV Work time 3URJUDPPDEOHIURPWRPLQXWHV Motor power 3URJUDPPDEOHRQOHYHOV : 24 V Motor speed 3URJUDPPDEOHRQOHYHOV Programmability FRQILJXUDWLRQ OHYHOV IRU JUHDWHU IOH[LELOLW\ RIXVH Rapid connector SLQ FRQQHFWRU IRU 0LQLGHF UDGLR ERDUG 'HFRGHU5353 Programmable outputs SURJUDPPDEOH RXWSXWV LQ GLIIHUHQW IXQFWLRQV Specifications 'HFHOHUDWLRQ PDQDJHPHQW HQFRGHU PXOWLIXQFWLRQGLVSOD\%86WHFKQRORJ\ DQG%8,/7,10(7$/0$66'(7(&725 86%FRQQHFWRUIRUILUPZDUHXSJUDGH 800 mA Operating ambient IURP&WR& temperature Protection fuses VHOIUHVWRULQJ 6 4. ELECTRICAL CONNECTIONS )LJ Released beam Integrated flashing traffic light 1 2 LOOP Relais GND +24 +24 OUT1 +24 OUT2 +24 OUT3 +24 NO COM GND 2Easy OPEN CLOSE FSW STOP ALARM OUT4 LAMP 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 1 2 24 25 26 27 BUS To connect the photocells and safety devices, refer to paragraph 4.1.1 4.1 Terminal board J1 (inputs) OPEN - Open” command (N.O. - terminal 3): PHDQV DQ\ SXOVH JHQHUDWRU HJ EXWWRQ ZKLFK E\ FORVLQJ D FRQWDFW FRPPDQGV RSHQLQJDQGRUFORVLQJRIWKHEDUULHU CLOSE - Close” command (N.O. - terminal 4):PHDQVDQ\SXOVH JHQHUDWRUHJEXWWRQZKLFKE\FORVLQJDFRQWDFWFRPPDQGVFORVLQJ of the barrier. FSW - Safety contact when closing (N.C. - terminal 5):WKHSXUSRVH RIWKHFORVLQJVDIHWLHVLVWRSURWHFWWKHDUHDDIIHFWHGE\WKHPRYHPHQW RI WKH EDUULHU GXULQJ WKH FORVLQJ SKDVH UHYHUVLQJ LWV PRWLRQ They never trip during the opening cycle. 7KHFORVLQJ6DIHWLHVLIHQJDJHGZKHQWKHDXWRPDWHGV\VWHPLVRSHQ SUHYHQWWKHFORVLQJPRYHPHQW If CLOSE safety devices are not connected, jumper terminals FSW and GND (Fig. 26) and leave the FAILSAFE o1 function (parameter LQ$GYDQFHG&RQ¿JXUDWLRQ set on the default value (disabled) LOOP 1 LOOP 2 GND (terminals 8-9) - $FFHVVRULHVSRZHUVXSSO\PLQXV +24 (terminals 10-11) - $FFHVVRULHVSRZHUVXSSO\SOXV The maximum load of the accessories is 800mA. To calculate absorption, refer to the instructions included with the individual accessories. 4.1.1 Connecting the safety devices 7KH(FRQWUROERDUGIHDWXUHVDQLQSXWIRUclosing safety devices ZKLFKWULSGXULQJFORVLQJRIWKHDXWRPDWHGV\VWHPSURYLGHGWRSURWHFW WKHJDWHDUHDIURPWKHULVNRILPSDFW 7KHVHGHYLFHVPXVWXVHDVLJQDOZLWK³1&´FRQWDFWDQGPXVWEH FRQQHFWHGLQVHULHVWRWKHUHOD\SKRWRFHOOVWKDWPD\EHLQVWDOOHGRQ WKHV\VWHPDVVKRZQLQ)LJWR)LJ )LJFRQQHFWLRQRIRQHSDLURIFORVLQJSKRWRFHOOVZLWKFAILSAFE VDIHW\ HQDEOHG LQ DGGLWLRQ WR PDNLQJ WKH FRQQHFWLRQ DV VKRZQLQWKHGLDJUDPLWLVQHFHVVDU\WRVHWLQ$GYDQFHG o1 00 STP - STOP contact (N.C. - terminal 6):PHDQVDQ\GHYLFHHJ &RQILJXUDWLRQ = EXWWRQ ZKLFK E\ RSHQLQJ D FRQWDFW FDQ VWRS PRYHPHQW RI WKH DXWRPDWHGV\VWHP )LJFRQQHFWLRQRIRQHSDLURIFORVLQJSKRWRFHOOVZLWKRXW)$,/6$)( VDIHW\ If STOP safety devices are not connected, jumper terminals STOP and GND (Fig. 26) )LJ FRQQHFWLRQ RI WZR SDLUV RI FORVLQJ SKRWRFHOOV ZLWKRXW )$,/6$)(VDIHW\ ALM - Emergency contact (N.C. - terminal 7): PHDQVDQ\GHYLFH )LJFRQQHFWLRQRIQRUHOD\VDIHW\GHYLFH HJVZLWFKZKLFKLIDFWLYDWHGLQDVLWXDWLRQRIHPHUJHQF\ZLOORSHQ WKHEDUULHUXQWLOWKHFRQWDFWLVUHVWRUHG:KHQDFWLYDWHGWKLVLQSXWKDV SULRULW\RYHUDQ\RWKHUFRPPDQG If emergency safety devices are not connected, jumper terminals ALM and GND (Fig. 26) 7 ENGLISH Encoder OUT 4 - Relay output 4 (terminals 19, 20, 21): 7KHRXWSXWFDQEH VHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQ$GYDQFHG&RQILJXUDWLRQSDU 4.1.2 Connecting BUS photocells Up to 8 pairs of photocells can be connected to the E680 control board XVLQJ %86 WHFKQRORJ\ 7KH FRQQHFWLRQ PXVW EH PDGH LQ SDUDOOHO 7KH GHIDXOW YDOXH LV RQWHUPLQDOERDUG-XVLQJDVLQJOHSRZHUFRPPXQLFDWLRQOLQHDV load: 24 VDC with 800 mA. VKRZQLQ)LJ 01 4.3 7HUPLQDOERDUG-H[WHUQDOÀDVKLQJODPS BUS photocells do not require a matching polarity connection. ENGLISH - BEAM ILLUMINATION. Maximum 7KHSDLUVRISKRWRFHOOVIHDWXUHWKHIROORZLQJIXQFWLRQV 3DLUVRIFORVLQJSKRWRFHOOV PD[ 3DLUVRI23(1SXOVHSKRWRFHOOV PD[ $IWHU SRVLWLRQLQJ WKH %86 WHFKQRORJ\ SKRWRFHOOV LW LV QHFHVVDU\ WR SURFHHG ZLWK VHOHFWLQJ WKH DGGUHVV IRU HDFK SDLU XVLQJ YDULRXV combinations of the ',36:,7&+(6 located on each photocell. Set the SAME DIP-SWITCH ADDRESS chosen both on the transmitter and receiver of the same pair. LAMP: WR WKHVH WHUPLQDOV \RX FDQ FRQQHFW D 9'& )$$&/(' H[WHUQDOIODVKLQJODPSThe integrated flashing traffic light must be connected independently to connector J15. The 24V FAACLIGHT with incandescent lamp cannot be connected to the J3 connector 4.4 Terminal board J4 (loop detector) LOOP 1: PDJQHWLF ORRS /223 23(1 WHUPLQDOV IRU OPENING. LOOP 2: PDJQHWLFORRS/2236$)(7<&/26(WHUPLQDOV for SAFETY/CLOSING. Ensure that two or more pairs of photocells do not have the same address. If no BUS accessories are used, leave terminals 1 and 2 free. 4.5 Connector J5 (Motor) 7KH IROORZLQJ WDEOH GHVFULEHV KRZ WR VHW WKH GLSVZLWFKHV ORFDWHG inside the transmitter and receiver of the BUS photocells. 5DSLGFRQQHFWRUIRUFRQQHFWLQJWKHPRWRU Addressing BUS photocell PAIRS 4.6 Connector J7 (Encoder) ',36:,7&+ TX ',36:,7&+ RX SAME ADDRESS Dip 1 Dip 2 Dip 3 Dip 4 7KH%+EDUULHULVHTXLSSHGZLWKDGHYLFHIRUGHWHFWLQJWKHRSHQLQJ DQJOHEDUSRVLWLRQWRHQVXUHJUHDWHUDQWLFUXVKLQJVDIHW\WKDQNVWR WKHSRVVLELOLW\RIUHYHUVLQJWKHGLUHFWLRQRIPRYHPHQWWKHPRPHQWLQ which an obstacle is detected. This device interfaces with the board WKURXJKFRQQHFWRU- Pair no. ON OFF OFF OFF 3DLU ON OFF OFF ON 3DLU ON OFF ON OFF 3DLU ON OFF ON ON 3DLU ON ON OFF OFF 3DLU ON ON OFF ON 3DLU ON ON ON OFF 3DLU ON ON ON ON 6LQJOH Type 4.7 Connector J10 (Radio) 8VHGIRUWKHUDSLGFRQQHFWLRQRIWKH0LQLGHF'HFRGHUDQG5353 5HFHLYHUVVHH)LJ,IDFKDQQHOUHFHLYHULVXVHGOLNHWKH53 LWZLOOEHSRVVLEOHWRGLUHFWO\FRPPDQGDXWRPDWHGV\VWHP23(1DQG &/26(IURPDFKDQQHOUDGLRFRQWURO,IDFKDQQHOUHFHLYHULVXVHG OLNHWKH53LWZLOORQO\EHSRVVLEOHWRFRPPDQG23(1 &RQQHFW WKH DFFHVVRU\ ZLWK WKH FRPSRQHQWV VLGH IDFLQJ WKH PDLQ strip of the board. CLOSE photocells Boards should be inserted and removed ONLY after having cut off electrical power 4.8 Connector J11 (Beam break-out sensor) 'HVLJQHGIRUFRQQHFWLQJWKHEUHDNRXWVHQVRUIRUWKHSLYRWLQJEHDP LISUHVHQW7KHVHQVRULVRSWLRQDO,ILWLVQRWSUHVHQWdo not remove WKHLQVWDOOHGMXPSHU OPEN PULSE 4.9 Connector J12 (Emergency battery) 7KLV FRQQHFWRU LV IRU FRQQHFWLQJ D EDWWHU\ RSWLRQDO IRU HQVXULQJ DXWRPDWHGV\VWHPRSHUDWLRQLQFDVHRIWHPSRUDU\FXWRIIRIWKHPDLQ SRZHUVXSSO\ To allow operation of the installed BUS accessories, store them on the board as described in paragraph 5.3. 4.2 Terminal board J2 (outputs) 4.10 Connector J13 (36VDC Power Supply) OUT 1 - Output 1 open-collector GND (terminal 13):7KHRXWSXWFDQ 7KLVIDFWRU\ZLUHGFRQQHFWRUSRZHUVWKH(ERDUG EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ 04 SDU 7KH GHIDXOW YDOXH LV - Beam OPEN or in PAUSE. Maximum load: 24 VDC with 100 mA. 4.11 &RQQHFWRU-ÀDVKLQJWUDI¿FOLJKW 7KLV FRQQHFWRU LV IRU FRQQHFWLQJ WKH IODVKLQJ WUDIILF OLJKW EXLOW LQWR WKH EDUULHU KHDG 7KH IODVKLQJ WUDIILF OLJKW YLVXDOO\ VLJQDOV EDUULHU OUT 2 - Output 2 open-collector GND (terminal 15):7KHRXWSXWFDQ PRYHPHQW DQG LI QHHGHG UHJXODWH DFFHVV WR WKH SURSHUW\ XVLQJ EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ WUDIILFOLJKWVLJQDOV 03 - CLOSED BEAM. Maximum load: SDU7KHGHIDXOWYDOXHLV 24 VDC with 100 mA. 5. PROGRAMMING 7KH(ERDUGIHDWXUHVSURJUDPPLQJOHYHOVWKDWPDNHLWHQWLUHO\ OUT 3 - Output 3 open-collector GND (terminal 17): 7KHRXWSXWFDQ FRQILJXUDEOHDQGDOORZLWWRDGDSWWKHORJLFVWRDQ\XVH EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ (DFK RI WKH WKUHH OHYHOV FDQ EH DFFHVVHG WKURXJK D VSHFLILF NH\ SDU7KHGHIDXOWYDOXHLV :$51,1*/$03Maximum load: combination. 24 VDC with 100 mA. 19 8 5.1 %DVLFFRQ¿JXUDWLRQ 7RSHUIRUP%$6,&SURJUDPPLQJ Display Function bu BUS accessories menu LO Operating logics 3UHVV DQG KROG EXWWRQ F WKH QDPH RI WKH ILUVW IXQFWLRQ LV GLVSOD\HG 2. 5HOHDVHWKHEXWWRQWKHIXQFWLRQYDOXHLVGLVSOD\HGDQGFDQEH PRGLILHGXVLQJWKHDQGEXWWRQV 3. Press and hold FDJDLQWKHQDPHRIWKHIROORZLQJIXQFWLRQLV GLVSOD\HGDQGVRRQ 7KHODVWIXQFWLRQ6WOHWV\RXFKRRVHZKHWKHUWRVDYHWKHFRQILJXUDWLRQ 1. Y no PDGH RUH[LWZLWKRXWVDYLQJ )/DWHUWKHGLVSOD\ZLOOUHVXPH VKRZLQJWKHDXWRPDWHGV\VWHPVWDWXV You can go to St at any time. To exit programming, simultaneously press F and -. PA BASIC CONFIGURATION Default )RUIXQFWLRQVDVVRFLDWHGZLWKWKLVSDUDPHWHU VHHSDUDJUDSK A A1 E P PA Cn CA C CU E $XWRPDWLF $XWRPDWLF 6HPLDXWRPDWLF 3DUNLQJ $XWRPDWLFSDUNLQJ Condo $XWRPDWLFFRQGR Dead-man &XVWRP Pause time ,V HIIHFWLYH RQO\ LI DQ DXWRPDWLF ORJLF LV FKRVHQ WKH YDOXH FDQ EH VHW IURP Display Function dF 59 00 1HXWUDOFRQGLWLRQ 4.1PLQXWHV HJLIWKHGLVSOD\VKRZV2.5WKHSDXVHWLPH PD[LPXPYDOXHRI 0LQLPXPPDVV ZLOOEHPLQXWHVDQGVHFRQGV 0D[LPXPPDVV So %HIRUHDXWRPDWHGV\VWHPVWDUWXS\RXPXVW VHWWKHFRUUHFWYDOXHGLUHFWO\FRUUHODWHGWRWKH OHQJWKRIWKHEHDPDQGWKHQXPEHUDQGW\SH of accessories installed. To determine said YDOXHUHIHUWR7DEOHVDQGRQSDJH Sc 0LQLPXPVSHHG 0D[LPXPVSHHG Closing speed $GMXVWVWKHEDUULHUFORVLQJVSHHG 00 10 00 FKDQJHV OHDYH WKH YDOXH RWKHUZLVH VHOHFWLQJDYDOXHLQYROYHVORDGLQJWKHFKRVHQ SUHGHILQHG SDUDPHWHUV VHW VHH SDUDJUDSK 5.2). 02 0LQLPXPVSHHG 0D[LPXPVSHHG WARNING: Setting an excessive speed could cause irreversible damage to the bar and barrier structure. Currently loaded default dF 10 WARNING: Setting an excessive speed could cause irreversible damage to the beam and barrier structure. ,I\RXGRQRWZLVKWRPDNHDQ\SURJUDPPLQJ 7KLV PHQX LQGLFDWHV WKH FXUUHQWO\ ORDGHG GHIDXOWVHWWLQJ Opening speed $GMXVWVWKHEDUULHURSHQLQJVSHHG 00 10 WARNING: Setting a mass default lower than the one actually installed could cause irreversible damage to the bar and barrier structure. At O to 20 VHF LQ RQH VHFRQG VWHSV 1H[W WKH GLVSOD\FKDQJHVWRPLQXWHVDQGWHQWKVRID VHFRQG VHSDUDWHG E\ D GHFLPDO SRLQW DQG WLPHLVDGMXVWHGLQVHFRQGVWHSVXSWRWKH Default Loading predefined parameter sets 00 01 06 no ENGLISH &KDQJHV WR WKH FRQ¿JXUDWLRQ SDUDPHWHUV EHFRPH effective immediately, while final storage occurs RQO\ XSRQ H[LWLQJ FRQ¿JXUDWLRQ DQG UHWXUQLQJ WR WKH automated system status display. If the equipment is powered down before returning to the automated system status display, all changes made will be lost. 06 L1 00 Given that parameter has as the SUHGHILQHGYDOXHLQRUGHUWRSURYLGHDQHXWUDO DFFHVVFRQGLWLRQWRWKHSDUDPHWHUVXVLQJWKH YDOXHLQWKLVPHQXPDNHVLWSRVVLEOHWRLGHQWLI\ WKHFXUUHQWO\FRQILJXUHGGHIDXOWVHWWLQJ Loop 1 $FWLYDWLQJ WKLV SDUDPHWHU DQ\ ORRS WKDW LV FRQQHFWHGWRWKH/RRSLQSXWZLOOVHUYHDV DQ23(1IXQFWLRQ Y no Loop 1 enabled Loop 1 disabled 1RWH 6KRXOG WKLV IXQFWLRQ EH GLVDEOHG WKH GHWHFWLRQVWDWXVRIWKHORRSZLOOLQDQ\FDVH UHPDLQDYDLODEOHRQRQHRIWKHWZRRXWSXWV Read-only parameter LI FRQILJXUHG VHH SDUDPHWHUV $GYDQFHG&RQILJXUDWLRQ 9 o1... o4 in no Display Function L2 Loop 2 $FWLYDWLQJ WKLV SDUDPHWHU DQ\ ORRS WKDW LV FRQQHFWHGWRWKH/RRSLQSXWZLOOVHUYHDVD 6$)(7<&/26(IXQFWLRQ Y no St Default Displaying of the automated system status is extremely important for the installing/maintenance technician in order to distinguish the logical processes that the board carries out during movement. no If, for example, the automated system status is CLOSED, 00. When the OPEN command is received, the display will change to 09LISUHÀDVKLQJLV enabled, or directly to 05 (the OPENING movement) to then display 0 1 once the position of gate OPEN is reached). the display MUST read Loop 2 enabled Loop 2 disabled (see note regarding Loop 1) ENGLISH S1 Loop 1 sensitivity $GMXVWVWKHVHQVLWLYLW\RIWKHYHKLFOHGHWHFWLRQ loop 00 10 S2 Mt 0D[LPXPVHQVLWLYLW\ 05 0LQLPXPVHQVLWLYLW\ 0D[LPXPVHQVLWLYLW\ Motor movement 8VLQJWKHIXQFWLRQSURYLGHGE\WKLVSDUDPHWHUPDNHVLWSRVVLEOHWRPDQXDOO\PRYH WKHEDUULHUEDURSHUDWLQJDVdead-man. 3UHVVLQJZLOORSHQWKHDXWRPDWHGV\VWHP SUHVVLQJFDXVHVWKHDXWRPDWHGV\VWHPWR close. oP cL St ([DPSOHRIDVWDWXVVHTXHQFHGLVSOD\HGVWDUWLQJIURPDFORVHGEDUULHU 0LQLPXPVHQVLWLYLW\ Loop 2 sensitivity $GMXVWVWKHVHQVLWLYLW\RIWKHYHKLFOHGHWHFWLRQ loop 00 10 05 -00 Beam closed 01 04 Beam open / 3DXVH 05 2SHQLQJ SUHVVLQJ+RSHQ SUHVVLQJ -FORVH AUTOMATED SYSTEM STATUS: 7KLVDOORZV\RXWRFKRRVHZKHWKHUWRTXLWWKHSURJUDPPH and save the data. TXLWDQGVDYHWKHGDWD TXLWZLWKRXWVDYLQJWKHGDWD 2QTXLWWLQJWKHSURJUDPPHSUHVVWKHFNH\WRGLVSOD\ WKHVWDWXVRIWKHDXWRPDWHGV\VWHP Y no 00 01 02 03 04 05 06 07 08 09 10 11 Beam closed Beam open 6WDWLRQDU\UHDG\WRRSHQ 6WDWLRQDU\UHDG\WRFORVH $XWRPDWHGV\VWHPSDXVHG )DLOVDIHLQSURJUHVV ($6<GHYLFHYHULILFDWLRQLQSURJUHVV 3UHIODVKLQJWKHQ23(16 3UHIODVKLQJWKHQ&/26(6 EMERGENCY Open You can go to St at any time by simultaneously pressing F and -. &ORVLQJ 09 10 The sequence does not include statuses and which correspond to pre-flashing when opening and closing, respectively. 2SHQLQJ &ORVLQJ 06 5.2 &KDQJLQJWKHSUHGH¿QHGSDUDPHWHUVVHW 7KH(ERDUGIHDWXUHVVL[VHWVRISUHGHILQHGFRQILJXUDWLRQVWKDW DOORZUDSLGDGDSWLQJWRWKHVL]HRIWKHEHDPLQVWDOOHGPDNLQJLWWKH VWDUWLQJSRLQWIRUDILQHDGMXVWPHQWRIWKHSDUDPHWHUV7RVHOHFWRQH RI WKH DYDLODEOH FRQILJXUDWLRQV \RX PXVW FKDQJH WKH SDUDPHWHU dF IURP WKH SUHVHW YDOXH 00 QHXWUDO FRQGLWLRQ WR WKH YDOXH FRUUHVSRQGLQJ WR WKH EDUULHU FRQILJXUDWLRQ EHDP OHQJWK W\SH DQG QXPEHU RI DFFHVVRULHV LQVWDOOHG VKRZQ LQ 7DEOHV RU RQ SDJH HJ FKRRVH GHIDXOW ZLWKIRRWDQGOLJKWV 04 IRU D EHDP PHDVXULQJ P LQ OHQJWK 7R FRPSOHWH FRQILJXUDWLRQ LW LV QHFHVVDU\ WR H[LW WKH %DVLF &RQILJXUDWLRQPHQXE\SUHVVLQJ³)´XQWLOSDUDPHWHU RUE\SUHVVLQJ³)´DQG³´ 10 St is reached )URPWKHGLVSOD\RIWKHVWDWXVRIWKH%86GHYLFHVSUHVVLQJWKHNH\ HQDEOHVWKHW\SHVRI%86GHYLFHVSUHVHQWWREHYHULILHG )RUH[DPSOHWKHIROORZLQJSKRWRJUDSKVKRZVVDIHW\GHYLFHVSUHVHQW and LQ$GYDQFHGFRQ¿JXUDWLRQVHWWLQJWKHPRQWKHGHIDXOW GXULQJFORVLQJDQGDSDLURISKRWRFHOOVIXQFWLRQLQJDVRSHQSXOVH values as shown in the tables in paragraph 6.3. So SC LQ%DVLFFRQ¿JXUDWLRQDQGFO, FC, oc This operation changes the value of the parameters dF is Unlike the other parameters, the value of step not stored, thus allowing access to the menu through a neutral condition, which is the one displayed every time the configuration menu is opened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accessories menu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if there is a WR SHUIRUP HQWU\ VLPXOWDQHRXVO\ SUHVV DQG KROG WKH DQG 7KHGLVSOD\ZLOOVKRZDIODVKLQJ VKRUWFLUFXLWDORQJWKH%86OLQHDVVKRZQLQWKH EXWWRQVIRUDWOHDVWVHFRQGVGXULQJWKLVWLPHWKHZULWLQJ ILJXUH7R VROYH WKH SUREOHP LW LV QHFHVVDU\ WR will flash) FDUHIXOO\YHULI\DOOWKHFRQQHFWLRQVPDGH RQFHWKHSURFHGXUHLVFRPSOHWHG will appear as confirmation. 7KHGLVSOD\ZLOOVKRZDIODVKLQJ as shown ZKHQDQGDUHUHOHDVHGWKHGLVSOD\ZLOOVKRZWKHFXUUHQWVWDWXV LQ WKH LPDJH RQ WKH VLGH RI WKH SDJH VKRXOG RI WKH %86 GHYLFHV RU DJDLQ LI WKHUH DUH QR FRQQHFWHG more than one pair of photocells have the VDPHDGUHVVDQGLQFDVHRIDFDOOLQJRUIDLOVDIH BUS devices. HUURU(QVXUHWKDWWKHVHWWLQJVDUHFRUUHFWZLWK 7KHIROORZLQJLPDJH)LJVKRZVWKHFRUUHVSRQGHQFHRIWKHYDULRXV UHIHUHQFHWRWKHLQGLFDWLRQVJLYHQLQSDUDJUDSK GLVSOD\VHJPHQWVWRWKHGLIIHUHQWW\SHVRI%86GHYLFHVWKDWFDQEH 4.1.2 FRQQHFWHGWRWKHV\VWHP 7KHVWDWXVRIWKH%86DQGUHODWHGLQSXWVLJQDOVFDQDOVREHVHHQE\ DQDO\VLQJWKHWZR/('V'/UHGDQG'/JUHHQZKLFKPDNHLW SRVVLEOHWRLPPHGLDWHO\YHULI\LI%86FRPPXQLFDWLRQLVDFWLYHRULI WKHUHLVDQHUURUDQGLIWKHUHDUHDQ\DFWLYHLQSXWVRUQRW7KHVWDWXV RIWKH/('VFDQEHYHULILHGLQWKHIROORZLQJWDEOHV bu no no Y cc Er no %XVVWDWXVDOZD\VRQ DL1 DL2 FSW-CL FSW-OPEN J6 FSW CL: %86 SKRWRFHOOV SODFHG WR SURWHFW WKH JDWH FORVLQJDUHD 2Easy BUS OPEN: %86SKRWRFHOOVXVHGDV23(1SXOVHJHQHUDWRUV )LJ 11 1 2 ENGLISH St on 00DQGSUHVV³)´WRJRRQWRWKHQH[WSDUDPHWHU )RUWKHDXWRPDWHGV\VWHPWRRSHUDWHFRUUHFWO\WKHVWDWXV RIWKHVHJPHQWVRIWKHOHIWKDQGGLJLWPXVWFRUUHVSRQG 6HWWLQJDVHWRISUHGH¿QHGSDUDPHWHUVWKDWGRHVQRW WR WKH DXWRPDWHG V\VWHP DW UHVW DQG ZLWKRXW SXOVH FRUUHVSRQGWRWKHDFWXDOFRQ¿JXUDWLRQRIWKHEDUULHUFRXOG JHQHUDWRUVRURUVDIHWLHVHQJDJHG cause irreversible damage to the automated system, in particular if the default corresponds to a beam length :KHQWKH&/26(SKRWRFHOOVDUHHQJDJHGWKHERWWRP shorter than the actual one. VHJPHQWVZLOOJRRQDVVKRZQLQWKHLPDJHWRWKHVLGH parameter DL1 LED description (Red) Display Function On $WOHDVWRQHRIWKHLQSXWVVDIHWLHV23(1SXOVHLV HQJDJHGRUDFWLYH Off 1R 23(1 LQSXW LV DFWLYH DQG QR VDIHW\ GHYLFH LV HQJDJHG tP 00 10 DL2 LED description (Green) 1RUPDOO\DFWLYH/('RQHYHQLIWKHUHDUHQRGHYLFHV connected) Off %86($6< OLQH VKRUWFLUFXLWHG IODVK HYHU\ sec.) Rapid flashing An error has been detected in the BUS-2EASY FRQQHFWLRQUHSHDWWKHDFTXLVLWLRQSURFHGXUH,IWKH HUURUSHUVLVWVFKHFNWKDW WKH V\VWHP GRHV QRW KDYH PRUH WKDQ RQH DFFHVVRU\ ZLWK WKH VDPH DGGUHVV VHH DOVR LQVWUXFWLRQVUHJDUGLQJWKHDFFHVVRULHV PDNHVXUHWKHUHLVQRFDOOLQJHUURUQXPEHURI GHYLFHVFRQQHFWHGLVJUHDWHURUOHVVWKDQWKDW VWRUHGGXULQJVHWXS ENGLISH On fixed Pre-flashing time 3UHIODVKLQJWLPHH[SUHVVHGLQVHFRQGV oc o1 6. $GYDQFHG&RQ¿JXUDWLRQ 7R DFFHVV$GYDQFHG &RQILJXUDWLRQ SUHVV F DQG ZKLOH KROGLQJ LW also press +: when +LVUHOHDVHGWKHQXPEHURIWKHILUVWDYDLODEOHIXQFWLRQ will appear when F LV DOVR UHOHDVHG WKH YDOXH LV GLVSOD\HG DQG FDQ EH FKDQJHGXVLQJ+ and SUHVVLQJFDJDLQDQGKROGLQJLWWKHQDPHRIWKHQH[WSDUDPHWHU ZLOO EH GLVSOD\HG ZKHQ UHOHDVHG WKH YDOXH FDQ EH FKDQJHG XVLQJ+ and RQFHWKHODVWIXQFWLRQKDVEHHQUHDFKHGSUHVVLQJF makes it SRVVLEOHWRHLWKHUVDYHWKHSUHYLRXVO\FKDQJHGSDUDPHWHUVRUH[LW ZLWKRXWVDYLQJWKHFKDQJHVWKHGLVSOD\ZLOOJREDFNWRVKRZLQJ WKHVWDWXVRIWKHLQSXWV ADVANCED CONFIGURATION Display Function FO Opening motor power $GMXVWVWKHWKUXVWRIWKHPRWRUGXULQJWKHRSHQLQJSKDVH 00 50 FC PF 0D[LPXPSRZHU 40 0LQLPXPSRZHU 0D[LPXPSRZHU Pre-flashing 7KLVSDUDPHWHULVXVHGWRDFWLYDWHWKHIODVKLQJ lamp for 5 seconds before the selected movement. no OC CL OP PA 40 0LQLPXPSRZHU Closing motor power $GMXVWVWKHWKUXVWRIWKHPRWRUGXULQJWKHFORVLQJ phase. 00 50 Default no disabled before each movement EHIRUHHDFKFORVLQJPRYHPHQW EHIRUHHDFKRSHQLQJPRYHPHQW RQO\DWWKHHQGRIWKHSDXVH 12 PD[LPXPSUHIODVKLQJ 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 01 0LQLPXPVHQVLWLYLW\ 0D[LPXPVHQVLWLYLW\ Output 1 6HWWLQJWKLVIXQFWLRQPDNHVLWSRVVLEOHWRPRGLI\ WKH VLJQDO W\SH RI RXWSXW DOORZLQJ KLJK FRQQHFWLRQIOH[LELOLW\ZLWKH[WHUQDOGHYLFHV 00 01 00 PLQLPXPSUHIODVKLQJ Sensitivity of obstacle during closing 7KLV GHWHUPLQHV WKH VHQVLWLYLW\ WR DQ REVWDFOH EHIRUHUHYHUVLQJWDNHVSODFH 01 50 Default Failsafe TYPE 1 BEAM ILLUMINATION RXWSXW DFWLYH ZKHQ EHDP FORVHG GLVDEOHG ZLWK EDU RSHQ RU SDXVHG LQWHUPLWWHQW ZKHQ PRYLQJ Use only with output 4! DISABLED Beam CLOSED %HDP 23(1 RU LQ 3$86( LW JRHV RII GXULQJFORVLQJSUHÀDVKLQJ %HDPLQ23(1,1*029(0(17 LQFOXGLQJSUHÀDVKLQJ %HDPLQ&/26,1*029(0(17 LQFOXGLQJSUHÀDVKLQJ Beam STATIONARY Beam in EMERGENCY mode /223HQJDJHG /223HQJDJHG OPEN for E680 slave CLOSE for E680 slave Beam RELEASED 1RWXVHG 1RWXVHG )&$HQJDJHG )&&HQJDJHG 1RWXVHG :$51,1* /$03 RQ GXULQJ RSHQLQJ DQG SDXVH ÀDVKLQJ ZKHQ FORVLQJ RII ZKHQWKHDXWRPDWHGV\VWHPLVFORVHG 04 P1 Output 1 Polarity $OORZVVHWWLQJRIWKHRXWSXWSRODULW\ Y no no RXWSXW12 NHHSWKHYDOXHVHWWR no 00 o2 P2 Output 2 Polarity 2XWSXW SRODULW\ VHH SDUDPHWHU UHJDUGLQJ ³Output 1 Polarity´ o3 Output 3 2XWSXWVLJQDOW\SHVHH³Output 1´ P3 Output 3 Polarity 2XWSXW SRODULW\ VHH SDUDPHWHU UHJDUGLQJ ³Output 1 Polarity´ o4 Output 4 2XWSXWVLJQDOW\SHVHH³Output 1´ 03 o5 Integrated flashing lamp operating mode /HWV\RXFKRRVHEHWZHHQWZRRSHUDWLQJPRGHV IRU WKH LQWHJUDWHG IODVKLQJ ODPS LI SUHVHQW FRQQHFWHGWRRXWSXW- nc 01 nC nC nc AUTOMATED SYSTEM STATUS: 7KLVDOORZV\RXWRFKRRVHZKHWKHUWRTXLWWKHSURJUDPPH and save the data. TXLWDQGVDYHWKHGDWD TXLWZLWKRXWVDYLQJWKHGDWD 2QTXLWWLQJWKHSURJUDPPHSUHVVWKHFNH\WRGLVSOD\ You can go to St at any time by simultaneously pressing F and - 6.1 &RQ¿JXULQJWKHORRSGHWHFWRU 7KH(ERDUGIHDWXUHVDQLQWHJUDWHGPHWDOPDVVGHWHFWRUIRUWKH LQGXFWLRQGHWHFWLRQRIYHKLFOHV 6.1.1 6SHFL¿FDWLRQV Galvanic separation between the detector electronics and the loop electronics $XWRPDWLF DOLJQPHQW RI WKH V\VWHP LPPHGLDWHO\ IROORZLQJ activation &RQWLQXRXVUHVHWWLQJRIWKHIUHTXHQF\GULIWV 6HQVLWLYLW\LQGHSHQGHQWRIORRSLQGXFWLYLW\ $GMXVWPHQWRIWKHORRSZRUNIUHTXHQF\ZLWKDXWRPDWLFVHOHFWLRQ 2FFXSLHGORRSPHVVDJHZLWK/('GLVSOD\ /RRSVWDWXVDGGUHVVDEOHRQRXWSXWV287287287DQG OUT 4 6.1.2 Connection: no &RQQHFW WKH GHWHFWLRQ ORRSV DFFRUGLQJ WR WKH OD\RXW RQ SDJH )LJ 7HUPLQDOVIRU/223 ORRSZLWKJDWHRSHQLQJIXQFWLRQ 7HUPLQDOV IRU /223 ORRS ZLWK FORVLQJ DQGRU VDIHW\ ZKHQFORVLQJIXQFWLRQ )RUPRUHLQIRUPDWLRQRQWKHHIIHFWRIWKHORRSVLJQDOVRQWKHDXWRPDWHG V\VWHP UHIHU WR WKH ORJLFV WDEOHV LQ SDUDJUDSK ³23(5$7,1* /2*,&67$%/(´ 7R HQDEOH WKH IXQFWLRQDOLW\ RI WKH FRQQHFWHG ORRSV HQWHU %DVLF FRQ¿JXUDWLRQPRGHDQGVHWSDUDPHWHUVL1 and L2 on YFRQVLVWHQWO\ ZLWK WKH QXPEHU DQG W\SH RI FRQQHFWHG ORRSV ,I RQO\ RQH ORRS LV LQVWDOOHGHQDEOHRQO\WKHFRUUHVSRQGLQJSURJUDPPLQJVWHS Active Disabled nc nc 01 DJDLQWKHVWDWXVRIWKHDXWRPDWHGV\VWHP no ´)ODVKLQJ ODPS´ PRGH ÀDVKLQJ UHG ZKHQ EDU LV PRYLQJ RII LQ DOO RWKHU cases) Cycle programming in thousands: ,V XVHG WR VHW D FRXQWGRZQ RI WKH V\VWHP RSHUDWLRQ F\FOHV WKH YDOXH FDQ EH VHW IURP WR WKRXVDQGV RI F\FOHV 7KH YDOXH GLVSOD\HG LV XSGDWHG ZLWK WKH VXFFHVVLRQ RI WKH F\FOHV LQWHUDFWLQJ ZLWK WKH YDOXH RI GHFUHPHQWV RI correspond to 1 ). decrement of 7KHIXQFWLRQFDQEHXVHGWRJHWKHUZLWK WRYHULI\WKHXVHRIWKHV\VWHPDQGIRUXVHRI ³6HUYLFH5HTXHVW´ Cycle programming in hundreds of thousands: ,V XVHG WR VHW D FRXQWGRZQ RI WKH V\VWHP RSHUDWLRQF\FOHVWKHYDOXHFDQEHVHWIURP WR KXQGUHGV RI WKRXVDQGV RI F\FOHV7KH YDOXHGLVSOD\HGLVXSGDWHGZLWKWKHVXFFHVVLRQ RI WKH F\FOHV LQWHUDFWLQJ ZLWK WKH YDOXH RI GHFUHPHQWRI corresponds to 99 ). decrements of 7KH IXQFWLRQ FDQ EH XVHG WRJHWKHU ZLWK WRYHULI\WKHXVHRIWKHV\VWHPDQGIRUXVHRI ³6HUYLFH5HTXHVW´ Y no no ³7UDI¿F OLJKW´ PRGH VWHDG\ JUHHQ ZKHQ SDXVHGRSHQ ÀDVKLQJ UHG ZKHQ PRYLQJVWHDG\UHGZKHQFORVHG Service request (linked to the following two functions): ,I DFWLYDWHG DW WKH HQG RI WKH FRXQWGRZQ ZKLFKFDQEHVHWZLWKWKHWZRIROORZLQJ³&\FOH 3URJUDPPLQJ´IXQFWLRQVLWDFWLYDWHVWKH/$03 RXWSXWIRUVHFHYHU\VHFVHUYLFHUHTXHVW ,W FDQ EH XVHIXO IRU VHWWLQJ SURJUDPPHG maintenance work. Y no no 01 Output 4 Polarity 2XWSXW SRODULW\ VHH SDUDPHWHU UHJDUGLQJ ³Output 1 Polarity´ AS St 19 P4 Default nc )DLOVDIH Output 2 2XWSXWVLJQDOW\SHVHH³Output 1´ 02 nC RXWSXW1& NOTE:LIWKHRXWSXWVHWWLQJLV 01 Display Function Default 00 7KHORRSGHWHFWRURSHUDWLQJVWDWXVLVLQGLFDWHGE\WKH'/DQG'/ VWDWXV/('V nC nC 13 ENGLISH Display Function 6.1.3 Calibration 6.1.4 Adjusting sensitivity %\DGMXVWLQJWKHVHQVLWLYLW\RIWKHORRSGHWHFWRU\RXGHWHUPLQHWKH YDULDWLRQRILQGXFWLYLW\IRUHDFKFKDQQHOWKDWDYHKLFOHPXVWFDXVHLQ RUGHUWRDFWLYDWHWKHFRUUHVSRQGLQJGHWHFWRURXWSXW 6HQVLWLYLW\ LV DGMXVWHG VHSDUDWHO\ IRU HDFK FKDQQHO XVLQJ WKH WZR parameters S1 and S2LQ%DVLFFRQ¿JXUDWLRQ 6.1.5 Making the loops 7KHORRSPXVWEHODLGDWOHDVWFPIURPIL[HGPHWDOREMHFWVDWOHDVW &DOLEUDWLRQLVKLJKOLJKWHGE\WKHERDUGGLDJQRVWLFVE\ÀDVKLQJ/('V FPIURPPRYLQJPHWDOREMHFWVDQGQRPRUHWKDQFPIURPWKH '/DQG'/DQGZKHQFDOLEUDWLRQLVFRPSOHWHGWKH\ZLOOLQGLFDWH VXUIDFHRIWKHILQDOSDYLQJ 8VH D VWDQGDUG XQLSRODU FDEOH PHDVXULQJ PPð LQ GLDPHWHU LI WKHORRSGHWHFWLRQVWDWXVLIFRQQHFWHG 7KHRWKHUVLJQDOVSURYLGHGE\WKHERDUGGLDJQRVWLFVDUHGHVFULEHG WKH FDEOH LV ODLG EHORZ JURXQG OHYHO GLUHFWO\ LW PXVW KDYH GRXEOH LQVXODWLRQ0DNHDSUHIHUDEO\VTXDUHRUUHFWDQJXODUORRSE\SUHSDULQJ LQWKHIROORZLQJWDEOH D39&FDEOHGXFWRUE\WUDFLQJWKHSDYLQJDVVKRZQLQILJXUHWKH FRUQHUVPXVWEHFXWDWDDQJOHWRDYRLGFDEOHEUHDNV/D\WKH FDEOHXVLQJWKHQXPEHURIZLQGLQJVVKRZQLQWKHWDEOH7KHWZRHQGV RIWKHFDEOHPXVWEHWZLVWHGWRJHWKHUDWOHDVWWLPHVSHUPHWUH LED Status LOOP Status IURPWKHORRSWRWKH(ERDUG$YRLGVSOLFLQJDFDEOHLIQHFHVVDU\ ZHOGWKHFRQGXFWRUVDQGVHDOWKHVSOLFHXVLQJDKHDWVKULQNLQJVKHDWK Off Loop clear and keep it separate from the mains power lines. On /RRSHQJDJHG )ODVKLQJV Loop calibration LQSURJUHVV 5DSLGIODVKLQJ /RRSVKRUWFLUFXLW 6ORZIODVKLQJ V No loop RUORRSLQWHUUXSWHG DL4 DL3 LOOP 2 24 25 26 27 LOOP 1 ~ 7ZRIODVKHVHYHU\V 1RQFRQIRUPLQJ ORRS KHDWHU RU LQGXFWDQFH RXWRIUDQJH If one or both magnetic loops are not installed, the loop GHWHFWRUIROORZLQJD¿UVWDWWHPSWWRFDOLEUDWHZLOONHHS WKHVWDWXV/('VÀDVKLQJHYHU\VHFRQGVDVVKRZQLQ the above table) 8 mm 1m Loop Perimeter 30-50 mm ENGLISH (DFKWLPHWKH(ERDUGLVSRZHUHGWKHLQWHJUDWHGORRSGHWHFWRU SHUIRUPV D FDOLEUDWLRQ RI WKH FRQQHFWHG ORRSV7KHUHIRUH \RX FDQ SHUIRUPFDOLEUDWLRQE\FXWWLQJRIISRZHUWRWKHERDUGIRUDWOHDVW VHFRQGVDQGWKHQUHFRQQHFWLQJLW )URP WKH EDUULHU VWDWXV GLVSOD\ \RX FDQ SUHVV DW DQ\ WLPH + to FDOLEUDWHWKHORRSFRQQHFWHGWRWKH/223LQSXWRU + to calibrate WKHORRSFRQQHFWHGWRWKH/223LQSXW Nr. of Windings less than 3 m 6 from 3 to 4 m 5 from 4 to 6 m 4 from 6 to 12 m 3 more than 12 m 2 6.2 ([SHUW&RQ¿JXUDWLRQ (;3(57FRQILJXUDWLRQLVXVHGRQO\LQWKHHYHQWWKDWRSHUDWLRQORJLFVFXVWRPLVDWLRQLVDOUHDG\VWRUHG Before making changes at this level, be certain that the steps you wish to change and their effect on the automated system are fully understood. Changing the third-level parameters involves indicating the CU value on the LO SDUDPHWHURIWKH¿UVWOHYHOSURJUDPPLQJ 7RDFFHVV(;3(57FRQILJXUDWLRQpress F and, holding it, press + for approximately 10 seconds. 7KHXVHRIF+ and -LQWKLVPHQXLVWKHVDPHDVLQWKHRWKHUWZRSURJUDPPLQJOHYHOV “EXPERT” CONFIGURATION Display. 10 sec Function Setting 01 ,IWKLVIXQFWLRQLVDFWLYDWHGautomatic closingRFFXUVDIWHUWKHSDXVHWLPH 02 ,I WKLV IXQFWLRQ LV DFWLYDWHG two distinct input RSHUDWLRQ PRGH LV REWDLQHG 23(1 IRU RSHQLQJDQG&/26('IRUFORVLQJ 03 $FWLYDWLRQRIUHFRJQLWLRQRIWKHOPEN and CLOSE input levels (maintained command). 7KDWLVWRVD\WKHERDUGUHFRJQLVHVWKHOHYHOLIIRUH[DPSOHZLWK23(1KHOG\RXSUHVV 6723ZKHQWKHODWWHULVUHOHDVHGWKHDXWRPDWHGV\VWHPZLOOFRQWLQXHWRRSHQ,I disabled WKHERDUGFRPPDQGVDPDQRHXYUHRQO\LIWKHUHLVDQLQSXWYDULDWLRQ 14 03 is Y DXWRPDWLFFORVLQJ no = disabled Y LQSXWRSHUDWLRQ no = disabled Y OHYHOUHFRJQLWLRQ no VWDWXVYDULDWLRQ UHFRJQLWLRQ $FWLYDWLRQ RI '($'0$1 RSHQLQJ FRPPDQG DOZD\V SUHVVHG 5HOHDVLQJ WKH 23(1 command will stop operation :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHOPEN commandGXULQJRSHQLQJZLOOVWRSPRYHPHQW 05 06 07 08 If parameter 06 is noWKHV\VWHPLVUHDG\IRURSHQLQJ 06 Y If parameter is WKHV\VWHPLVUHDG\IRUFORVLQJ :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHOPEN commandGXULQJRSHQLQJUHYHUVHVPRYHPHQW If parameters 05 and 06 are no23(1ZLOOKDYHQRHIIHFWGXULQJRSHQLQJ :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHOPEN commandGXULQJSDXVHVWRSVRSHUDWLRQ If parameters 07 and 08 are no23(1UHVHWVWKHSDXVHWLPH :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHOPEN commandGXULQJSDXVHFDXVHVFORVLQJ If parameters 07 and 08 are no23(1UHVHWVWKHSDXVHWLPH 09 :KHQ WKLV IXQFWLRQ LV DFWLYDWHG WKH OPEN command GXULQJ FORVLQJ VWRSV RSHUDWLRQ otherwise it reverses movement. 10 $FWLYDWLRQ RI '($'0$1 FORVLQJ FRPPDQG DOZD\V SUHVVHG 5HOHDVLQJ WKH CLOSE command will stop operation 11 :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHCLOSE commandKDVSULRULW\RYHU23(1RWKHUZLVH 23(1KDVSULRULW\RYHU&/26( 12 :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHCLOSE commandFRPPDQGVFORVLQJZKHQUHOHDVHG $VORQJDV&/26(LVDFWLYDWHGWKHXQLWVWD\VLQFORVLQJSUHÀDVKLQJ 13 14 15 16 17 :KHQ WKLV IXQFWLRQ LV DFWLYDWHG WKH CLOSE command GXULQJ RSHQLQJ VWRSV RSHUDWLRQ RWKHUZLVHWKH&/26(FRPPDQGFRPPDQGVUHYHUVHLPPHGLDWHO\RUZKHQRSHQLQJLVFRPSOHWHGVHHDOVRSDUDPHWHU 14) 13 no :KHQ WKLV IXQFWLRQ LV DFWLYDWHG DQG LI SDUDPHWHU is WKH CLOSE command FRPPDQGVLPPHGLDWHFORVLQJDWWKHHQGRIWKHRSHQLQJF\FOHVWRUHV&/26(,ISDUDPHWHUV 13 and 14 are no&/26(FRPPDQGVLPPHGLDWHFORVLQJ :KHQ WKLV IXQFWLRQ LV DFWLYDWHG ZLWK WKH V\VWHP EORFNHG E\ D 6723 D next OPEN moves in the opposite direction. If parameter 15 is noLWDOZD\VFORVHV :KHQ WKLV IXQFWLRQ LV DFWLYDWHG GXULQJ FORVLQJ WKH CLOSING SAFETIES stop and allow PRWLRQWRUHVXPHZKHQWKH\DUHGLVHQJDJHGRWKHUZLVHWKH\LPPHGLDWHO\UHYHUVHRSHQLQJ :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHCLOSING SAFETIESFRPPDQGFORVLQJZKHQWKH\DUH GLVHQJDJHGVHHDOVRSDUDPHWHU 18). 17 Y 18 :KHQ WKLV IXQFWLRQ LV DFWLYDWHG DQG LI SDUDPHWHU is WKH XQLW ZLOO ZDLW IRU WKH RSHQLQJ F\FOH WR HQG EHIRUH H[HFXWLQJ WKH FORVLQJ FRPPDQG SURYLGHG E\ WKH CLOSING SAFETIES. 19 :KHQWKLVIXQFWLRQLVDFWLYDWHGGXULQJFORVLQJLOOP2VWRSVDQGDOORZVPRWLRQWRUHVXPH ZKHQLWLVGLVHQJDJHGRWKHUZLVHLWLPPHGLDWHO\UHYHUVHVRSHQLQJ 20 parameter 21 :KHQWKLVIXQFWLRQLVDFWLYDWHGDQGLISDUDPHWHU is WKHXQLWZLOOZDLWIRUWKHRSHQLQJ F\FOHWRHQGEHIRUHH[HFXWLQJWKHFORVLQJFRPPDQGSURYLGHGE\LOOP2. 22 :KHQ WKLV IXQFWLRQ LV DFWLYDWHG LQ FDVH RI D EODFNRXW RQFH HOHFWULFDO SRZHU KDV EHHQ UHVWRUHGLIDQ23(1FRPPDQGLVQRWDFWLYHWKHDXWRPDWHGV\VWHPUHFORVHVLPPHGLDWHO\ 23 LOOP 1FRPPDQGVRSHQLQJDQGRQFHFRPSOHWHGLWFORVHVLIGLVHQJDJHGXVHIXOLQFDVH RIYHKLFOHEDFNLQJXSZLWKFRQVHFXWLYHORRSV,IGLVDEOHGZKHQ/223LVGLVHQJDJHGLW does not close. 24 When this function is activated, an open or close command is only carried out after the safeties have been disengaged. 25 A.D.M.A.P. function :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHUHVXOWLVRSHUDWLRQRIsafeties compliant with French regulations. :KHQWKLVIXQFWLRQLVDFWLYDWHGLOOP2FRPPDQGVFORVLQJZKHQLWLVGLVHQJDJHGVHHDOVR 21). 21 Y 15 Y = active no = disabled Y ZKHQRSHQLQJLWVWRSV no = disabled Y ZKHQRSHQLQJLWUHYHUVHV no = disabled Y ZKHQLQSDXVHLWVWRSV no = disabled Y ZKHQLQSDXVHLWFORVHV no = disabled Y = stops no = reverses Y = active no = disabled Y = active no = disabled Y = closes when released no FORVHVLPPHGLDWHO\ Y = CLOSE stops no = CLOSE reverses Y = closes at the end of RSHQLQJ no LPPHGLDWHFORVLQJ Y = moves in the opposite direction no DOZD\VFORVHV Y FORVHVZKHQGLVHQJDJHG no = immediate reverse Y = FORVLQJ ZKHQ )6: LVGLVHQJDJHG no = disabled Y = closes at the end of RSHQLQJ no = disabled Y FORVHVZKHQGLVHQJDJHG no = immediate reverse Y = closes if LOOP2 is clear no = disabled Y = closes at the end of RSHQLQJ no = disabled Y = active no = disabled Y = closes if LOOP1 clear no = disabled Y = active no = disabled Y = active no = disabled ENGLISH 04 26 27 28 29 ENGLISH 30 :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHCLOSING SAFETIESGXULQJFORVLQJVWRSDQGUHYHUVH PRYHPHQWZKHQWKH\DUHGLVHQJDJHGRWKHUZLVHWKH\UHYHUVHLPPHGLDWHO\ DO NOT CHANGE DO NOT CHANGE DO NOT CHANGE :KHQ WKLV IXQFWLRQ LV DFWLYDWHG WKH LOOP1 commands are prioritised rather than the LOOP2 commands. HOLD CLOSE / HOLD OPEN function :KHQWKLVIXQFWLRQLVDFWLYDWHGWKHDXWRPDWHGV\VWHPZLOOPRQLWRUWKHSRVLWLRQRIWKHEHDP at VHWLQWHUYDOVVHHSDUDPHWHU A0 A1 r1 00 99 )RUH[DPSOHWKHUHDGLQJ r2 A 1 ,IWKHEHDPLVQRWFRPSOHWHO\FORVHGRUFRPSOHWHO\ open GHSHQGLQJRQWKHORJLFDOFRQGLWLRQRIWKHERDUGWKHDXWRPDWHGV\VWHPZLOOFRPPDQG D&/26(RU23(1PRYHPHQWWREULQJWKHEHDPEDFNWRWKHFRUUHFWSRVLWLRQIRUDPD[LPXP RIVHFRQGV,IZKHQWKHVHFRQGVKDYHHODSVHGWKHEDUGRHVQRWJREDFNWRFRPSOHWHO\ FORVHGRSHQSRVLWLRQHJEHFDXVHWKHEDULVEORFNHGWKHIXQFWLRQZLOOEHGLVDEOHGXQWLOWKH QH[W23(1FRPPDQGLVUHFHLYHG HOLD CLOSE / HOLD OPEN function activation time This parameter indicates the time interval between two activations of the HOLD OPEN / +2/'&/26(IXQFWLRQH[SUHVVHGLQPLQXWHVIURP to ) Loop 1 frequency reading 7KLVPHQXLWHPOHWV\RXYHULI\WKHUHDGLQJRIWKHFXUUHQWRVFLOODWLRQIUHTXHQF\RIWKHORRS FRQQHFWHGWRWKH/RRSLQSXW7KHLQGLFDWLRQVKRXOGEHUHDGDVIROORZV )LUVWGLJLWWHQVN+] 6HFRQGGLJLWXQLWVN+] 'HFLPDOSRLQWKXQGUHGVN+] Y = stops and reverses when GLVHQJDJHG no UHYHUVHVLPPHGLDWHO\ no no no Y = active no = disabled Y 60 05. UHIHUVWRDUHDGLQJRIN+] Read-only parameter Loop 2 frequency reading 7KLVPHQXLWHPOHWV\RXYHULI\WKHUHDGLQJRIWKHFXUUHQWRVFLOODWLRQIUHTXHQF\RIWKHORRS FRQQHFWHG WR WKH /RRS LQSXW VHH SDUDPHWHU LQGLFDWHGYDOXH r1 IRU H[SODQDWLRQV RQ KRZ WR UHDG WKH Read-only parameter F1 Loop 1 frequency selection 7KLVSDUDPHWHUOHWV\RXVHWDQRVFLOODWLRQIUHTXHQF\VSHFLILFWRWKHORRSFRQQHFWHGWRWKH /RRSLQSXWRUOHWVWKHV\VWHPFKRRVHWKHPRVWDGHTXDWHVHWWLQJDPRQJWKHDYDLODEOH A 1-2-3-4 A $XWRPDWLFVHOHFWLRQ )UHTXHQF\ Note: :KHQ \RX H[LW WKH $GYDQFHG FRQILJXUDWLRQ PHQX DIWHU KDYLQJ FKDQJHG WKH ORRS RSHUDWLRQIUHTXHQF\VHWWLQJWKHV\VWHPZLOOEHUHFDOLEUDWHG7KLVZLOOSURYLGHDQXSGDWHG IUHTXHQF\UHDGLQJRQFH\RXUHHQWHUWKHPHQXWRFRQVXOWWKHYDOXHVRISDUDPHWHUV or r1 r2 F2 Loop 2 frequency selection 7KLVSDUDPHWHUOHWV\RXVHWDQRVFLOODWLRQIUHTXHQF\VSHFLILFWRWKHORRSFRQQHFWHGWRWKH /RRSLQSXWRUOHWVWKHV\VWHPFKRRVHWKHPRVWDGHTXDWHVHWWLQJDPRQJWKHDYDLODEOH A 1-2-3-4 $XWRPDWLFVHOHFWLRQ )UHTXHQF\ Note: :KHQ \RX H[LW WKH $GYDQFHG FRQILJXUDWLRQ PHQX DIWHU KDYLQJ FKDQJHG WKH ORRS RSHUDWLRQIUHTXHQF\VHWWLQJWKHV\VWHPZLOOEHUHFDOLEUDWHG7KLVZLOOSURYLGHDQXSGDWHG or IUHTXHQF\UHDGLQJRQFH\RXUHHQWHUWKHPHQXWRFRQVXOWWKHYDOXHVRISDUDPHWHUV r1 r2 16 A LOOP 1 holding time ,VXVHGWRVHWSUHVHQFHWLPHRQORRS:KHQWKLVWLPHKDVHODSVHGWKHERDUGZLOOVHOI FDOLEUDWHDQGVLJQDO³ORRSFOHDU´/(''/RII:KHQWKHERDUGLVWXUQHGRQDQDXWRPDWLF UHVHWLVFDUULHGRXW Y no h2 no PLQXWHV LQ¿QLWH LOOP 2 holding time ,VXVHGWRVHWSUHVHQFHWLPHRQORRS:KHQWKLVWLPHKDVHODSVHGWKHERDUGZLOOVHOI FDOLEUDWHDQGVLJQDO³ORRSFOHDU´/(''/RII:KHQWKHERDUGLVWXUQHGRQDQDXWRPDWLF UHVHWLVFDUULHGRXW Y no no PLQXWHV LQ¿QLWH Loop 1 articulated lorry function 7KLVIXQFWLRQOHWV\RXLQFUHDVHWKHOHYHORIVHQVLWLYLW\DWWKHWLPHRIGHWHFWLRQWRDOORZFRUUHFW GHWHFWLRQHYHQLQFDVHRIYHU\WDOOYHKLFOHVRUGXULQJWKHWUDQVLWRIDWUDFWRUDQGWUDLOHU H1 Y no H2 t Y enabled disabled Loop 2 articulated lorry function 7KLVIXQFWLRQOHWV\RXLQFUHDVHWKHOHYHORIVHQVLWLYLW\DWWKHWLPHRIGHWHFWLRQWRDOORZFRUUHFW GHWHFWLRQHYHQLQFDVHRIYHU\WDOOYHKLFOHVRUGXULQJWKHWUDQVLWRIDWUDFWRUDQGWUDLOHU Y no Y enabled disabled Work time (time-out) 0D[LPXPZRUNWLPHRIWKHDXWRPDWHGV\VWHPEHIRUHWKHPRWRUVWRSVLIWKHRSHQRUFORVH 30 O 59 SRVLWLRQLVQRWUHDFKHG7KHYDOXHFDQEHVHWIURP to VHFLQRQHVHFRQGVWHSV1H[W WKHGLVSOD\FKDQJHVWRPLQXWHVDQGWHQWKVRIDVHFRQGVHSDUDWHGE\DGHFLPDOSRLQWDQG WLPHLVDGMXVWHGLQVHFRQGVWHSVXSWRWKHPD[LPXPYDOXHRI St ENGLISH h1 4.1PLQXWHV STATUS OF THE AUTOMATED SYSTEM: ([LWIURPSURJUDPPLQJVWRUDJHRIGDWDDQGDXWRPDWHGV\VWHPVWDWXVGLVSOD\ 6.3 3UH'H¿QHG3DUDPHWHU6HWV 7KHWDEOHEHORZVKRZVIRUHDFKVHWRISUHGHILQHGSDUDPHWHUVWKH YDOXHVWKDWWKH\ZLOOORDGLQWKHERDUGPHPRU\ Basic Configuration dF 01 02 03 04 05 06 At bu LO PA So Sc L1 L2 S1 S2 01 02 03 04 05 06 E 20 10 10 no no 05 05 E 20 10 05 no no 05 05 E 20 10 05 no no 05 05 E 20 10 04 no no 05 05 E 20 10 02 no no 05 05 E 20 10 02 no no 05 05 Advanced Configuration 7KHIROORZLQJWDEOHVKRZVIRUHDFKVHWRISUHGHILQHGSDUDPHWHUV WKH YDOXHV WKDW WKH\ ZLOO ORDG LQ WKH ERDUG PHPRU\ LQ DGYDQFHG FRQILJXUDWLRQ 17 dF FO FC PF tP oc FS o1 P1 o2 P2 o3 P3 o4 P4 o5 AS nc nC 01 02 03 04 05 06 25 25 no 00 35 no 00 no 03 no 01 no 02 no 01 no 00 00 25 25 no 00 35 no 00 no 03 no 01 no 02 no 01 no 00 00 30 30 no 00 38 no 00 no 03 no 01 no 02 no 01 no 00 00 28 28 no 00 32 no 00 no 03 no 01 no 02 no 01 no 00 00 30 30 no 00 32 no 00 no 03 no 01 no 02 no 01 no 00 00 40 40 no 00 32 no 00 no 03 no 01 no 02 no 01 no 00 00 )LJ N N N N Y Y Y Y Y N N N N N N N N N N N N N N N N Y N N N N N N N Y N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Y N N N N N N N N N N N Y Y N N N N N N N N N N N N N N Y Y Y Y N N N N N N N N N N N N Y Y N N N N Y N N N N N N N Y N N N N N N N N N Y Y N N N N Y N Y Y Y Y N N Y N Y Y Y Y N N N N N N N N N N N N Y Y N N N DL9 DL5 DL7 ENCODER DISP1 J7 Y BATTERY J14 J11 DL1 DL2 + DL10 N DL15 J6 12 J1 - F Sw1 Sw2 Sw3 J2 3 4 5 6 7 8 9 10 11 J12 DL4 Y DL3 N J15 J3 12 13 14 15 16 17 18 19 20 21 22 23 J4 18 19 20 21 LOOP 1 Y LOOP 2 N DL16 N LAMP Y DL6 Y DL8 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 M1 +24 OUT1 +24 OUT2 +24 OUT3 +24 Relay NO Relay NC GND C DL14 Ca +24 Cn DL13 PA GND P DL11 E DL12 A1 OPEN CLOSE FSW STOP ALARM A 2Easy BUS ENGLISH Step. DL17 J13 7KHIROORZLQJWDEOHFRQWDLQVWKHSUHGHILQHGVHWWLQJVWKDWFKDUDFWHUL]H WKHYDULRXVRSHUDWLRQORJLFV DL18 6.4 “Expert” default parameters 7.2 Setup %HIRUH EHLQJ SXW LQWR RSHUDWLRQ WKH ( ERDUG UHTXLUHV D VHWXS SURFHGXUHGXULQJZKLFKWKHDXWRPDWHGV\VWHPGHWHUPLQHVWKHURWDWLRQ DQJOHRIWKHEHDPDQGFRQVHTXHQWO\LWVWUDYHO7KHVHPHDVXUHPHQWV DOORZFRUUHFWPDQDJHPHQWRIPRWRUGHFHOHUDWLRQVDQGDFFHOHUDWLRQ ramps. $W¿UVWVWDUWXSWKHERDUGZLOOVLJQDOWKHQHHGIRUDVHWXS F\FOHE\GLVSOD\LQJDÀDVKLQJS0. )RUVHWXSSURFHHGDVIROORZV 8VLQJWKHSDUDPHWHU³0W´LQ%DVLFFRQILJXUDWLRQPRGHFKHFNWKDW WKHRSHQLQJFORVLQJPRYHPHQWFRUUHVSRQGVWRWKHSUHVVHGNH\ N N N N N N N N LIQRWJRWRWKHPRWRUZLULQJDQGUHYHUVHWKHWZRFRQGXFWRUV N N N N N N N N /DQG/DVVKRZQLQ)LJ5HI 3ODFH WKH DXWRPDWHG V\VWHP LQ FORVLQJ SRVLWLRQ XVLQJ WKH N N N N N N N N SDUDPHWHU³0W´LQ%DVLFFRQILJXUDWLRQPRGHRUXVLQJWKHUHOHDVH N N N N N N N N GHYLFHDVVKRZQLQSDUDJUDSKVDQGRQSDJH N N N N N N N N 3UHVV DQG KROG 6: ³6(783´ SURJUDPPLQJ NH\ XQWLO WKH DXWRPDWHG V\VWHP EHJLQV D VORZ RSHQLQJ PRYHPHQW 2Q WKH N N N N N N N N GLVSOD\S1ZLOOIODVKLQGLFDWLQJWKHVWDUWRIWKHSURFHGXUH N N N N N Y Y N 2QFHWKHPD[LPXPRSHQLQJSRVLWLRQLVUHDFKHGWKHDXWRPDWHG V\VWHPZLOOVWRSDXWRPDWLFDOO\ 1H[W WKH DXWRPDWHG V\VWHP ZLOO VWDUW WKH EHDP FORVLQJ 7. START-UP PRYHPHQW7KHGLVSOD\ZLOOIODVKWKHLQGLFDWLRQS3. 7.1 Verifying the diagnostic LEDs 2QFH WKH FORVLQJ SRVLWLRQ KDV EHHQ UHDFKHG WKH DXWRPDWHG V\VWHP ZLOO VWRS DXWRPDWLFDOO\ DQG WKH GLVSOD\ ZLOO JR EDFN WR %HIRUHVWDUWLQJXSWKHERDUGLWLVQHFHVVDU\WRYHULI\WKDWWKHVWDWXV VKRZLQJ WKH LQGLFDWLRQ RI WKH FXUUHQW VWDWXV RI WKH DXWRPDWHG RI WKH GLDJQRVWLF /('V FRUUHVSRQGV WR WKH ORJLF 6DLG VWDWXV PXVW V\VWHP00 - closed). FRLQFLGHZLWKWKHLQGLFDWLRQVLQ)LJVLWXDWLRQZKLFKUHIOHFWVWKDWRI an automated system that is CLOSED and ready to open. 8. TESTING THE AUTOMATED SYSTEM The FSW, STOP and ALARM LEDs are safety inputs with 2QFHSURJUDPPLQJLVFRPSOHWHGHQVXUHWKDWWKHV\VWHPLVRSHUDWLQJ NC contacts, therefore the related LEDs must be ON FRUUHFWO\ when the automated system is at rest, and go off when 9HULI\HVSHFLDOO\WKHFRUUHFWUHJXODWLRQRIWKHDXWRPDWHGV\VWHPSRZHU DQGFRUUHFWRSHUDWLRQRIWKHVDIHW\GHYLFHVLWLVFRQQHFWHGWRDQGYHULI\ the device connected is engaged. WKDWWKHDXWRPDWHGV\VWHPFRQIRUPVWRFXUUHQWVDIHW\VWDQGDUGV The OPEN and CLOSE inputs are NO contact inputs, therefore the related LEDs must be OFF when the automated system is at rest, and go on when the device connected is active. 7KH%86VWDWXVPXVWFRUUHVSRQGWR'/JUHHQRQ¿[HG and DL1 (red) off. The BUS menu of the %DVLF FRQ¿JXUDWLRQ PXVW GLVSOD\ WKH LQGLFDWLRQVKRZQWRWKHVLGHFRQ¿UPLQJ the fact that there are no engaged photocells or active pulse generators. 18 9. MASTER/SLAVE CONFIGURATION 10. INTERLOCK 7KH LQWHUORFN IXQFWLRQ HQDEOHV WZR LQOLQH EDUULHUV WR EH PDQDJHG VHH ¿J VR WKDW RSHQLQJ RI RQH LV VXERUGLQDWHG WR FORVLQJ RI WKH RWKHU 2SHUDWLRQ FDQ EH RQHZD\ RU WZRZD\ )RU LQOLQH EDUULHUV VHW 287 ,17(5/2&. WR SDUDPHWHU VHH 2nd/(9(/352*RQERWKERDUGVDQGFRQQHFWWKHPDVLQ¿JXUH = = = = 11 no 12 no J1 LO = C PA = 01 Relais 19 +24 OUT1 +24 OUT2 +24 OUT3 +24 NO COM GND GND +24 J2 01 = Y 03 = Y 10 = Y OPEN CLOSE FSW STOP ALARM Relais Slave device +24 OUT1 +24 OUT2 +24 OUT3 +24 NO COM GND o1 = 18 P1 = no GND +24 Relais o2 P2 o3 P3 12 13 14 15 16 17 18 19 20 21 Master device 3 4 5 6 7 8 9 10 11 3 4 5 6 7 8 9 10 11 OPEN CLOSE FSW STOP ALARM GND +24 12 13 14 15 16 17 18 19 20 21 +24 OUT1 +24 OUT2 +24 OUT3 +24 NO COM GND OPEN CLOSE FSW STOP ALARM 12 13 14 15 16 17 18 19 20 21 The electrical connections and the parameters needed for correct IXQFWLRQLQJRIWKHV\VWHPLQD0DVWHU6ODYHFRQILJXUDWLRQDUHVKRZQ LQWKHIROORZLQJGLDJUDP 3 4 5 6 7 8 9 10 11 ³0$67(5GHYLFH´PHDQVWKHERDUGWRZKLFKDOOWKHSXOVHJHQHUDWRUV DQGVDIHW\GHYLFHVDUHFRQQHFWHG ³6/$9(GHYLFH´PHDQVWKHERDUGZKLFKLVFRQWUROOHGE\WKH0$67(5 WKURXJKSXOVHLQSXWVZKLOHWKHVDIHW\LQSXWVDUHE\SDVVHG o1 = 18 P1 = no ENGLISH ,IWKHLQVWDOODWLRQFRQWHPSODWHVWKHJDWHDUHDEHLQJFRYHUHGE\WZR RSSRVLQJEDUULHUVD0DVWHU6ODYHFRQILJXUDWLRQPD\EHXVHGIRU WKH ERDUGV ZKLFK ZLOO DFWLYDWH WKH WZR EDUULHUV 7KLV FRQILJXUDWLRQ SHUPLWVFRQQHFWLRQRIWKHFRPPDQGDQGVDIHW\VLJQDOVWREHVLPSOLILHG WKH\ DUH DOO FRQQHFWHG WR MXVW RQH ERDUG DOVR HQVXULQJ SHUIHFW V\QFKURQLVDWLRQRIWKHWZRDXWRPDWHGV\VWHPV 11. OPERATING LOGICS TABLE Tab. 1/a ENGLISH LOGIC “A” PULSES AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens and closes DIWHUWKHSDXVH time no effect no effect RSHQLQJLQKLELWHG no effect opens and closes DIWHUWKHSDXVH time no effect WHEN OPENING no effect LPPHGLDWHO\ reverses to FORVLQJ blocks operation no effect no effect no effect OPEN IN PAUSE resets SDXVHWLPH closes blocks operation UHVHWVSDXVH time FORVLQJLQKLELWHG resets SDXVHWLPH UHVHWVSDXVH time FORVLQJLQKLELWHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect blocks operation LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ BLOCKED closes closes opens and closes no effect no effect no effect DIWHUWKHSDXVH FORVLQJLQKLELWHG RSHQLQJDQG FORVLQJLQKLELWHG FORVLQJLQKLELWHG time Tab. 1/b LOGIC “A1” PULSES AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens and closes DIWHUWKHSDXVH time no effect no effect RSHQLQJLQKLELWHG no effect opens and closes DIWHUWKHSDXVH time no effect WHEN OPENING no effect LPPHGLDWHO\ reverses to FORVLQJ blocks operation closes LPPHGLDWHO\ DIWHURSHQLQJLV completed no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed OPEN IN PAUSE resets SDXVHWLPH closes blocks operation closes resets SDXVHWLPH closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect blocks operation LPPHGLDWHO\ reverses to RSHQLQJ BLOCKED closes closes no effect RSHQLQJDQG FORVLQJLQKLELWHG LQKLELWVFORVLQJ AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP CLOSED opens no effect WHEN OPENING blocks operation LPPHGLDWHO\ reverses to FORVLQJ OPEN closes closes WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect blocks operation BLOCKED closes closes no effect RSHQLQJDQG FORVLQJLQKLELWHG LPPHGLDWHO\ LPPHGLDWHO\ reverses to reverses to RSHQLQJFORVHV RSHQLQJFORVHVDW DJDLQRQFHRSHQLQJ WKHHQGRISDXVH is completed opens and closes DIWHUWKHSDXVH time no effect FORVLQJ inhibited) FSW LOOP 1 LOOP 2 no effect RSHQLQJLQKLELWHG no effect opens no effect blocks operation no effect no effect no effect no effect no effect FORVLQJLQKLELWHG LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ no effect FORVLQJLQKLELWHG opens no effect FORVLQJLQKLELWHG Tab. 1/c LOGIC “E” PULSES no effect no effect FORVLQJLQKLELWHG FORVLQJLQKLELWHG Â ,QEUDFNHWVWKHHIIHFWVRQWKHRWKHULQSXWVZKHQWKHSXOVHLVDFWLYH 20 Tab. 1/d PULSES OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens no effect no effect RSHQLQJLQKLELWHG no effect opens and once RSHQLQJLV completed closes if GLVHQJDJHG no effect WHEN OPENING no effect closes LPPHGLDWHO\DIWHU RSHQLQJLV completed blocks operation no effect no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed OPEN no effect FORVLQJLQKLELWHG closes no effect FORVLQJLQKLELWHG no effect FORVLQJLQKLELWHG SUHYHQWVFORVLQJ closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect BLOCKED opens closes AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens and closes DIWHUWKHSDXVH time no effect no effect RSHQLQJLQKLELWHG no effect opens and once RSHQLQJLV completed closes if GLVHQJDJHG no effect WHEN OPENING no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed blocks operation no effect no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed OPEN IN PAUSE UHVHWVSDXVHWLPH closes blocks operation UHVHWVSDXVH time FORVLQJLQKLELWHG UHVHWVSDXVHWLPH closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect BLOCKED opens and closes DIWHUWKHSDXVH time closes LPPHGLDWHO\ blocks and when UHYHUVHVWRRSHQLQJ blocks and when GLVHQJDJHG GLVHQJDJHG DQGRQFHRSHQLQJLV FRQWLQXHVWR FRQWLQXHVWR completed closes if close close GLVHQJDJHG opens and once no effect no effect RSHQLQJLV no effect RSHQLQJDQG closes if FORVLQJLQKLELWHG FORVLQJLQKLELWHG FORVLQJLQKLELWHG completed GLVHQJDJHG blocks operation Tab. 1/e LOGIC “PA” PULSES LPPHGLDWHO\ blocks and when UHYHUVHVWRRSHQLQJ blocks and when GLVHQJDJHG GLVHQJDJHG DQGRQFHRSHQLQJLV FRQWLQXHVWR FRQWLQXHVWR completed closes if if close close GLVHQJDJHG opens and once no effect no effect RSHQLQJLV no effect RSHQLQJDQG completed closes if FORVLQJLQKLELWHG FORVLQJLQKLELWHG FORVLQJLQKLELWHG GLVHQJDJHG blocks operation Tab. 1/f LOGIC “Cn” PULSES AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens no effect no effect RSHQLQJLQKLELWHG no effect opens no effect WHEN OPENING no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed blocks operation no effect no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed OPEN no effect FORVLQJLQKLELWHG closes no effect FORVLQJLQKLELWHG no effect FORVLQJLQKLELWHG no effect closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect blocks operation reverses to RSHQLQJDQG closes after SDXVHWLPH LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ BLOCKED opens closes no effect RSHQLQJDQG FORVLQJLQKLELWHG no effect FORVLQJLQKLELWHG opens no effect FORVLQJLQKLELWHG Â ,QEUDFNHWVWKHHIIHFWVRQWKHRWKHULQSXWVZKHQWKHSXOVHLVDFWLYH 21 ENGLISH LOGIC “P” AUTOMATED SYSTEM STATUS Tab. 1/g ENGLISH LOGIC “CA” PULSES AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens and closes DIWHUWKHSDXVH time no effect no effect RSHQLQJLQKLELWHG no effect opens and closes DIWHUWKHSDXVH time no effect WHEN OPENING no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed blocks operation no effect no effect closes LPPHGLDWHO\ DIWHURSHQLQJLV completed OPEN IN PAUSE UHVHWVSDXVHWLPH closes blocks operation UHVHWVSDXVH time FORVLQJLQKLELWHG UHVHWVSDXVHWLPH closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ no effect blocks operation reverses to RSHQLQJDQGFORVHVDIWHUSDXVH time LPPHGLDWHO\ reverses to RSHQLQJ LPPHGLDWHO\ reverses to RSHQLQJ BLOCKED opens and closes DIWHUWKHSDXVH time closes opens and closes DIWHUWKHSDXVH time no effect FORVLQJLQKLELWHG no effect no effect RSHQLQJDQG FORVLQJLQKLELWHG FORVLQJLQKLELWHG Tab. 1/h LOGIC “C” MAINTAINED COMMANDS PULSES AUTOMATED SYSTEM STATUS OPEN A CLOSE STOP FSW LOOP 1 LOOP 2 CLOSED opens no effect no effect RSHQLQJLQKLELWHG no effect no effect no effect WHEN OPENING / no effect blocks operation no effect no effect no effect OPEN no effect FORVLQJLQKLELWHG closes blocks operation no effect WHEN CLOSING LPPHGLDWHO\ reverses to RSHQLQJ / blocks operation blocks operation BLOCKED opens closes no effect no effect FORVLQJLQKLELWHG FORVLQJLQKLELWHG blocks operation blocks operation no effect no effect no effect no effect RSHQLQJDQG FORVLQJLQKLELWHG FORVLQJLQKLELWHG FORVLQJLQKLELWHG FORVLQJLQKLELWHG Â ,QEUDFNHWVWKHHIIHFWVRQWKHRWKHULQSXWVZKHQWKHSXOVHLVDFWLYH 22 12. BALANCING TABLES 7KHIROORZLQJWZRWDEOHVLQGLFDWHWKHIL[LQJSRVLWLRQRIWKHSLVWRQVRQWKHURFNHUDUPLQUHODWLRQWRWKHOHQJWKRIWKHEHDPDQGWKHSUHVHQFH RIDFFHVVRULHVVHFXUHGWRLWLIDQ\ 7DEOHUHIHUVWRWKHEDODQFHVSULQJIRUEDUOHQJWKVHTXDOWRRUVKRUWHUWKDQPDQGIHDWXULQJDSURILOHFRUUHVSRQGLQJWRWKHRQHLQ)LJ RQSDJHUHI³6´SURILOH 7DEOHUHIHUVWRWKHEDODQFHVSULQJIRUEDUOHQJWKVHTXDOWRRUORQJHUWKDQPDQGIHDWXULQJDSURILOHFRUUHVSRQGLQJWRWKHRQHLQ)LJRQ SDJHUHI³/´SURILOH )LJXUHFRQWDLQVWKHNH\IRULGHQWLI\LQJWKHIL[LQJKROHVEDVHGRQWKHQXPEHULQGLFDWHGLQWKHWDEOHV Table 2 2m 2,5 m 3m 3,5 m 4m 4 m ZLWK FRXSOLQJ) 4,5 m 5m 5 m ZLWK FRXSOLQJ) No accessories 1 2 3 4 4 5 6 6 6 Lights 1 2 3 4 4 5 6 6 Lights / Skirt 1 2 4 5 6 6 6 Lights / Foot / Skirt 2 3 4 6 6 6 6 Lights / Foot 2 3 3 5 6 6 6 Foot 1 2 3 5 6 6 6 Skirt 1 2 3 4 6 6 6 Skirt/Foot 2 3 4 5 6 6 6 5m ZLWKRXW FRXSOLQJ 5m 5,5 m 6m 6,5 m 7m 7,5 m 8m No accessories 2 2 3 3 4 4 4 5 Lights 2 2 3 3 4 4 5 6 Lights / Skirt 2 3 3 4 4 5 6 Lights / Foot / Skirt 3 3 4 4 5 6 Lights / Foot 2 3 3 4 4 5 6 6 Foot 2 3 3 4 4 4 5 6 Skirt 2 3 3 4 4 5 6 Skirt/Foot 3 3 3 4 4 5 Installed accessories Table 3 Bar length Installed accessories 23 ENGLISH Bar length 13. DEFAULT SELECTION TABLES (dF parameter) 7KHSXUSRVHRIWKHWZRIROORZLQJWDEOHVLVWRGHWHUPLQHGHSHQGLQJRQWKHOHQJWKRIWKHEDUDQGWKHQXPEHUDQGW\SHRIDFFHVVRULHVLQVWDOOHG WKHFRUUHFWGHIDXOWYDOXHWRVHWLQWKHILUVW%DVLFSURJUDPPLQJIXQFWLRQ 7DEOHUHIHUVWRWKHEDODQFHVSULQJIRUEDUOHQJWKVHTXDOWRRUVKRUWHUWKDQPDQGIHDWXULQJDSURILOHFRUUHVSRQGLQJWRWKHRQHLQ)LJ RQSDJHUHI³6´SURILOH 7DEOHUHIHUVWRWKHEDODQFHVSULQJIRUEDUOHQJWKVHTXDOWRRUORQJHUWKDQPDQGIHDWXULQJDSURILOHFRUUHVSRQGLQJWRWKHRQHLQ)LJRQ SDJHUHI³/´SURILOH 7KHNH\WRV\PEROVIRULGHQWLI\LQJWKHIL[LQJKROHVEDVHGRQWKHQXPEHULQGLFDWHGLQWKHWDEOHVLVVKRZQLQ)LJ Table 4 ENGLISH Bar length 2m 2,5 m 3m 3,5 m 4m 4 m ZLWK FRXSOLQJ) 4,5 m 5m 5 m ZLWK FRXSOLQJ) No accessories 1 1 2 2 2 3 3 3 3 Lights 1 1 2 2 2 3 3 3 Lights / Skirt 1 1 2 3 3 3 3 Lights / Foot / Skirt 1 2 2 3 3 3 3 Lights / Foot 1 2 2 3 3 3 3 Foot 1 1 2 3 3 3 3 Skirt 1 1 2 2 3 3 3 Skirt/Foot 1 2 2 3 3 3 3 5m ZLWKRXW FRXSOLQJ 5m 5,5 m 6m 6,5 m 7m 7,5 m 8m No accessories 4 4 5 5 5 5 5 6 Lights 4 4 5 5 5 5 6 6 Lights / Skirt 4 5 5 6 6 6 6 Lights / Foot / Skirt 5 5 5 5 6 6 Lights / Foot 4 5 5 5 5 6 6 6 Foot 4 5 5 5 5 5 6 6 Skirt 4 5 5 5 5 6 6 Skirt/Foot 5 5 5 5 5 6 Installed accessories Table 5 Bar length Installed accessories 24