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8

ENGLISH

Dip 1 Dip 2 Dip 3 Dip 4

Pair

no.

Type

ON

OFF

OFF

OFF

ƒ3DLU

CLOSE 

photocells

ON

OFF

OFF

ON

ƒ3DLU

ON

OFF

ON

OFF

ƒ3DLU

ON

OFF

ON

ON

ƒ3DLU

ON

ON

OFF

OFF

ƒ3DLU

ON

ON

OFF

ON

ƒ3DLU

ON

ON

ON

OFF

ƒ3DLU

ON

ON

ON

ON

6LQJOH

OPEN 

PULSE

',36:,7&+

T X

',36:,7&+

R X

SAME 

ADDRESS

4.1.2  Connecting BUS photocells

Up to 8 pairs of photocells can be connected to the E680 control board 

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RQWHUPLQDOERDUG-XVLQJDVLQJOHSRZHUFRPPXQLFDWLRQOLQHDV
VKRZQLQ)LJ

BUS photocells do not require a matching polarity 
connection. 

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.

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.

7KH IROORZLQJ WDEOH GHVFULEHV KRZ WR VHW WKH GLSVZLWFKHV ORFDWHG

inside the transmitter and receiver of the BUS photocells.

Addressing BUS photocell PAIRS

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)

OUT 1 - Output 1 open-collector GND (terminal 13):

7KHRXWSXWFDQ

EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ

SDU  7KH GHIDXOW YDOXH LV

04 

- Beam OPEN or in PAUSE

Maximum load: 24 VDC with 100 mA.

OUT 2 - Output 2 open-collector GND (terminal 15):

7KHRXWSXWFDQ

EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ

SDU7KHGHIDXOWYDOXHLV

03 

- CLOSED BEAM. Maximum load: 

2

4 VDC with 100 mA.

OUT 3 - Output 3 open-collector GND (terminal 17): 

7KHRXWSXWFDQ

EHVHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQWKH$GYDQFHG&RQILJXUDWLRQ

SDU7KHGHIDXOWYDOXHLV

19 

:$51,1*/$03

Maximum load: 

24 VDC with 100 mA.

OUT 4 - Relay output 4 (terminals 19, 20, 21): 

7KHRXWSXWFDQEH

VHWLQRQHRIWKHIXQFWLRQVGHVFULEHGLQ$GYDQFHG&RQILJXUDWLRQSDU

7KH GHIDXOW YDOXH LV

0 1  

- BEAM ILLUMINATION. Maximum 

load: 24 VDC with 800 mA.

4.3 

7HUPLQDOERDUG-H[WHUQDOÀDVKLQJODPS

LAMP:

 WR WKHVH WHUPLQDOV \RX FDQ FRQQHFW D 9'& )$$&/('

H[WHUQDOIODVKLQJODPS

The 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.

4.5  Connector J5 (Motor)

5DSLGFRQQHFWRUIRUFRQQHFWLQJWKHPRWRU

4.6  Connector J7 (Encoder)

7KH%+EDUULHULVHTXLSSHGZLWKDGHYLFHIRUGHWHFWLQJWKHRSHQLQJ
DQJOHEDUSRVLWLRQWRHQVXUHJUHDWHUDQWLFUXVKLQJVDIHW\WKDQNVWR
WKHSRVVLELOLW\RIUHYHUVLQJWKHGLUHFWLRQRIPRYHPHQWWKHPRPHQWLQ

which an obstacle is detected. This device interfaces with the board 

WKURXJKFRQQHFWRU-

4.7  Connector J10 (Radio)

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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.

Boards should be inserted and removed ONLY after 
having cut off electrical power

4.8  Connector J11 (Beam break-out sensor)

'HVLJQHGIRUFRQQHFWLQJWKHEUHDNRXWVHQVRUIRUWKHSLYRWLQJEHDP
LISUHVHQW7KHVHQVRULVRSWLRQDO,ILWLVQRWSUHVHQW

do not remove

WKHLQVWDOOHGMXPSHU

4.9  Connector J12 (Emergency battery)

7KLV FRQQHFWRU LV IRU FRQQHFWLQJ D EDWWHU\ RSWLRQDO IRU HQVXULQJ
DXWRPDWHGV\VWHPRSHUDWLRQLQFDVHRIWHPSRUDU\FXWRIIRIWKHPDLQ
SRZHUVXSSO\

4.10  Connector J13 (36VDC Power Supply)

7KLVIDFWRU\ZLUHGFRQQHFWRUSRZHUVWKH(ERDUG

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
PRYHPHQW DQG LI QHHGHG UHJXODWH DFFHVV WR WKH SURSHUW\ XVLQJ
WUDIILFOLJKWVLJQDOV

5. PROGRAMMING

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FRQILJXUDEOHDQGDOORZLWWRDGDSWWKHORJLFVWRDQ\XVH
(DFK RI WKH WKUHH OHYHOV FDQ EH DFFHVVHG WKURXJK D VSHFLILF NH\

combination.

Summary of Contents for B680H

Page 1: ...B680H...

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Page 3: ...W SURILOH 3URFHHG WR HQVXUH FRUUHFW RSHUDWLRQ RI WKH DXWRPDWHG V VWHP DQG DOO WKH DFFHVVRULHV connected to it Give the Customer the User s Manual the documentation required by current law and show how...

Page 4: ...otocell 7KH EDUULHU LV HTXLSSHG ZLWK D ODWHUDO FRYHULQJ SURILOH ILWWHG LQ WKH FRPSDUWPHQW RSHQLQJ XQGHU ZKLFK WKHUH DUH KROHV IRU FRQWDLQLQJ 6DIHEHDP 86 RU ZLUHOHVV SKRWRFHOOV 7R LQVWDOO WKH SKRWRFHOO...

Page 5: ...FRQQHFWRU F 3URJUDPPLQJ NH 3URJUDPPLQJ NH 3URJUDPPLQJ NH SW4 3URJUDPPLQJ NH 6 783 M1 M1A M2 2SWLRQDO PRGXOH FRQQHFWRU RQQHFWLYLW 1 WARNINGS DUQLQJ HIRUH FDUU LQJ RXW DQ ZRUN RQ WKH FRQWURO ERDUG FRQQ...

Page 6: ...J EXWWRQ ZKLFK E RSHQLQJ D FRQWDFW FDQ VWRS PRYHPHQW RI WKH DXWRPDWHG V VWHP If STOP safety devices are not connected jumper terminals STOP and GND Fig 26 ALM Emergency contact N C terminal 7 PHDQV DQ...

Page 7: ...RQILJXUDWLRQ SDU 7KH GHIDXOW YDOXH LV 0 1 BEAM ILLUMINATION Maximum load 24 VDC with 800 mA 4 3 7HUPLQDO ERDUG H WHUQDO DVKLQJ ODPS LAMP WR WKHVH WHUPLQDOV RX FDQ FRQQHFW D 9 H WHUQDO IODVKLQJ ODPS T...

Page 8: ...HH SDUDJUDSK 5 2 00 At Currently loaded default 7KLV PHQX LQGLFDWHV WKH FXUUHQWO ORDGHG GHIDXOW VHWWLQJ Given that parameter dF has 00 as the SUHGHILQHG YDOXH LQ RUGHU WR SURYLGH D QHXWUDO DFFHVV FRQG...

Page 9: ...ny time by simultaneously pressing F and DisplayingoftheautomatedsystemstatusSt isextremely important for the installing maintenance technician in order to distinguish the logical processes that the b...

Page 10: ...SURWHFW WKH JDWH FORVLQJ DUHD OPEN 86 SKRWRFHOOV XVHG DV 23 1 SXOVH JHQHUDWRUV URP WKH GLVSOD RI WKH VWDWXV RI WKH 86 GHYLFHV SUHVVLQJ WKH NH HQDEOHV WKH W SHV RI 86 GHYLFHV SUHVHQW WR EH YHULILHG RU...

Page 11: ...KH WKUXVW RI WKH PRWRU GXULQJ WKH RSH QLQJ SKDVH 00 0LQLPXP SRZHU 50 0D LPXP SRZHU 40 FC Closing motor power GMXVWV WKH WKUXVW RI WKH PRWRU GXULQJ WKH FORVLQJ phase 00 0LQLPXP SRZHU 50 0D LPXP SRZHU 4...

Page 12: ...ands V XVHG WR VHW D FRXQWGRZQ RI WKH V VWHP RSHUDWLRQ F FOHV WKH YDOXH FDQ EH VHW IURP WR KXQGUHGV RI WKRXVDQGV RI F FOHV 7KH YDOXH GLVSOD HG LV XSGDWHG ZLWK WKH VXFFHVVLRQ RI WKH F FOHV LQWHUDFWLQJ...

Page 13: ...DLG EHORZ JURXQG OHYHO GLUHFWO LW PXVW KDYH GRXEOH LQVXODWLRQ 0DNH D SUHIHUDEO VTXDUH RU UHFWDQJXODU ORRS E SUHSDULQJ D 39 FDEOH GXFW RU E WUDFLQJ WKH SDYLQJ DV VKRZQ LQ ILJXUH WKH FRUQHUV PXVW EH FXW...

Page 14: ...RVLQJ Y closes at the end of RSHQLQJ no LPPHGLDWH FORVLQJ 15 KHQ WKLV IXQFWLRQ LV DFWLYDWHG ZLWK WKH V VWHP EORFNHG E D 6723 D next OPEN moves in the opposite direction If parameter 15is no LW DOZD V...

Page 15: ...VFLOODWLRQ IUHTXHQF RI WKH ORRS FRQQHFWHG WR WKH RRS LQSXW 7KH LQGLFDWLRQ VKRXOG EH UHDG DV IROORZV LUVW GLJLW WHQV N 6HFRQG GLJLW XQLWV N HFLPDO SRLQW KXQGUHGV N RU H DPSOH WKH UHDGLQJ 05 UHIHUV WR D...

Page 16: ...RW UHDFKHG 7KH YDOXH FDQ EH VHW IURP Oto 59 VHF LQ RQH VHFRQG VWHSV 1H W WKH GLVSOD FKDQJHV WR PLQXWHV DQG WHQWKV RI D VHFRQG VHSDUDWHG E D GHFLPDO SRLQW DQG WLPH LV DGMXVWHG LQ VHFRQG VWHSV XS WR WKH...

Page 17: ...t and go on when the device connected is active 7KH 86 VWDWXV PXVW FRUUHVSRQG WR JUHHQ RQ HG and DL1 red off The BUS menu of the DVLF FRQ JXUDWLRQ PXVW GLVSOD WKH LQGLFDWLRQ VKRZQ WR WKH VLGH FRQ UPLQ...

Page 18: ...7KLV FRQILJXUDWLRQ SHUPLWV FRQQHFWLRQ RI WKH FRPPDQG DQG VDIHW VLJQDOV WR EH VLPSOLILHG WKH DUH DOO FRQQHFWHG WR MXVW RQH ERDUG DOVR HQVXULQJ SHUIHFW V QFKURQLVDWLRQ RI WKH WZR DXWRPDWHG V VWHPV 0 67...

Page 19: ...pleted no effect closes LPPHGLDWHO DIWHU RSHQLQJ LV completed OPEN IN PAUSE resets SDXVH WLPH closes blocks operation closes resets SDXVH WLPH closes when GLVHQJDJHG WHEN CLOSING LPPHGLDWHO reverses t...

Page 20: ...WHO DIWHU RSHQLQJ LV completed blocks operation no effect no effect closes LPPHGLDWHO DIWHU RSHQLQJ LV completed OPEN IN PAUSE UHVHWV SDXVH WLPH closes blocks operation UHVHWV SDXVH time FORVLQJ LQKLE...

Page 21: ...ime LPPHGLDWHO reverses to RSHQLQJ LPPHGLDWHO reverses to RSHQLQJ BLOCKED opens and closes DIWHU WKH SDXVH time closes no effect RSHQLQJ DQG FORVLQJ LQKLELWHG no effect FORVLQJ LQKLELWHG opens and clo...

Page 22: ...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 Table 3 12 BALANCING TABLES 7KH IROORZLQJ WZR WDEOHV LQGLFDWH WKH IL LQJ SRVLWLRQ RI WKH SLVWRQV...

Page 23: ...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 Table 5 13 DEFAULT SELECTION TABLES dF parameter 7KH SXUSRVH RI WKH WZR IROORZLQJ WDEOHV LV WR GHWHUPLQH GHSHQGLQJ RQ WKH OHQJWK R...

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