e124 - microsoft...e124 control unit warnings - important! for the safety of people, it is important...
TRANSCRIPT
E124
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1. LAY-OUT OF ELECTRICAL BOX ............................................................................................................................................................. 32. LAYOUT AND COMPONENTS OF E124 BOARD ................................................................................................................................... 5
2.1 Description of components ........................................................................................................................................................................5
2.2 Technical specifications .............................................................................................................................................................................6
2.3 Inputs default setting terminal board .......................................................................................................................................................6
3. TERMINAL BOARDS, CONNECTORS, INPUTS AND SIGNALS ........................................................................................................... 63.1 Power feed ....................................................................................................................................................................................................6
3.2 Secondary power feed ................................................................................................................................................................................6
3.3 Terminal board J3 – BUS-2EASY accessories .........................................................................................................................................7
3.4 Terminal board J4 – SIGNALS INPUTS .....................................................................................................................................................7
3.5 Terminal boards J5, J8 – OUT1 AND OUT2 ..............................................................................................................................................7
3.6 Terminal board J6 – Opening and closing travel limit device .....................................................................................................................................7
3.7 Terminal boards J7 - ENCODERS ..............................................................................................................................................................8
3.8 Terminal board J9 – FLASHING LAMP ......................................................................................................................................................8
3.9 Terminal board J10 – ELECTRIC LOCK.....................................................................................................................................................8
3.10 Motors terminal block ...............................................................................................................................................................................8
3.11 Connector J13 – XF MODULE rapid connection ....................................................................................................................................8
3.12 Led operation .............................................................................................................................................................................................8
3.13 Connector J14- connection of MINIDEC, DECODER AND RP ..............................................................................................................9
4. ELECTRICAL CONNECTIONS ................................................................................................................................................................ 94.1 Connection of traditional safety devices ..................................................................................................................................................9
4.2 Photocells BUS-2EASY ...............................................................................................................................................................................11
4.3 Addressing the BUS-2EASY encoders .....................................................................................................................................................12
5. PROGRAMMING ...................................................................................................................................................................................... 145.1 Basic programming .....................................................................................................................................................................................15
5.2 Advanced programming .............................................................................................................................................................................19
6. BUS 2EASY DEVICE INSTALLATION ..................................................................................................................................................... 236.1 BUS-2EASY device entry ............................................................................................................................................................................23
6.2 Checking the securing devices entered on the board ............................................................................................................................24
7. TIME LEARNING - SETUP ....................................................................................................................................................................... 248. MEMORISING THE RADIO CODE ........................................................................................................................................................... 26
8.1 Memorising the SLH/SLH LR radio controls ............................................................................................................................................26
8.2 Memorising LC/RC radio controls (433MHz ONLY) ................................................................................................................................. 27
8.3 Remote memorisation of LC/RC radio controls .......................................................................................................................................27
8.4 Memorising DS radio controls ...................................................................................................................................................................28
8.5 DELETING the radio controls .....................................................................................................................................................................28
9. CONNECTION TO EMERGENCY BATTERIES (OPTIONAL) ................................................................................................................ 2910. START-UP ............................................................................................................................................................................................... 30
10.1 Leds check ..................................................................................................................................................................................................30
10.2 Testing the automated system .................................................................................................................................................................30
11. SIGNALLING ERRORS AND ALARMS ................................................................................................................................................. 3111.1 Errors ...........................................................................................................................................................................................................31
11.2 Alarms .........................................................................................................................................................................................................31
12. FUNCTION LOGICS ............................................................................................................................................................................... 32
INDEX
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CE DECLARATION OF CONFORMITYManufacturer: FAAC S.p.A.Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALYDeclares that: The E124 control unit • ·conformstotheessentialsafetyrequirementsofthefollowingEECdirectives
2006/95/ECLowVoltageDirective 2004/108/ECElectromagneticCompatibilityDirective
Additional note: Thisproductunderwenttestsinatypicaluniformconfiguration (allproductsmanufacturedbyFAACS.p.A.).
Bologna,01March2014 TheManagingDirector A.Marcellan
E124 control unitWARNINGS
- Important!Forthesafetyofpeople,itisimportantthatalltheinstructionsbecarefullyobserved. - Incorrectinstallationorincorrectuseoftheproductcouldcauseseriousharmtopeople. - Carefullyreadtheinstructionsbeforebeginningtoinstalltheproductandkeepthemforfuturereference. - Thesymbol indicatesnotesthatareimportantforthesafetyofpersonsandforthegoodconditionoftheautomatedsystem. - Thesymbol drawsyourattentiontothenotesonthecharacteristicsandoperationoftheproduct. - Beforeattemptinganyworkonthecontrolunit(connections,maintenance),alwaysturnoffpower. - Install,upstreamofthesystem,adifferentialthermalbreakerwithadequatetrippingthreshold, - Connecttheearthcabletotherelevantterminal. - Always separate power cables from control and safety cables (push-button, receiver, photocells, etc.). To avoid any electricaldisturbance,useseparatesheathsorascreenedcable(withthescreenearthed).
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130
225
a
d
b
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ThedimensionsoftheboxareshowninFig.1:
Fig.2showsthefour5mmdiam.holesforsecuringthebox(ref.a)tothewall,thethreefittingsforinstallingthecablegrippersM16/M20/M25(ref.b)andthetwolidhinges(ref.c).If it isnecessarytoremoveandre-positiontheE124controlboard,makesurethatthespacers(ref.d)arefittedinthesupports.
The box contains the E124 control unit and the devices to power it. It must therefore be handled with care during all installation stages, to avoid damaging its components.
Dimensionsinmm
1. LAY-OUT OF ELECTRICAL BOX
Fig.1
Fig.2
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Thelidhingescanbemovedupwardtoallowopeningtheboxhousing(Fig.3):theycanalsoberemovedandre-positionedinordertoenablethelidtoopentotherightorleft.
Whenyouhavesecuredtheboxintheselectedposition,coverthesecuringholes(Fig.2ref. a)andthescrewswiththesuppliedplugsasshowninFig.4.
ConnectthepowercabletotheswitchingfeederasshowninFig.5,makingsurethatthereisanadequatethermalbreakerupstream.ThenplugtheconnectorofthetransformertoconnectorJ1ontheboardasindicatedinfig.6.
Earth
Line
Neutral
Fig.3
Fig.4
Fig.5
Fig.6
5
+ +
DL1
SW7
J12
J4
M1A J14
J13 J15
J3
J5
J6 J7
J8 J9 J10 J11
J2
J1M1A
DL20
DL14
DL13
DL18
DL11
DL17
DL10DL5
DL15
DL8
SW1
DL3 DL7DL6
SW6
SW3
SW4
DL16
DL12
DL19
DL9
SW2
SW5
LCD
DL2 DL4
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LCD SIGNALSANDPROGRAMMINGDISPLAY
SW1 “R1”PROGRAMMINGPUSH-BUTTON
SW2 “R2”PROGRAMMINGPUSH-BUTTON
SW3 “SETUP” PUSH-BUTTON
SW4 “+”PROGRAMMINGPUSH-BUTTON
SW5 “-”PROGRAMMINGPUSH-BUTTON
SW6 “F”PROGRAMMINGPUSH-BUTTON
SW7 “RESET SW”SOFTWARERESETPUSH-BUTTON
DL1 INPUTSTATUSCONTROLLED“IN1”
DL2 INPUTSTATUSCONTROLLED“IN2”
DL3 INPUTSTATUSCONTROLLED“IN3”
DL4 INPUTSTATUSCONTROLLED“IN4”
DL5 INPUTSTATUSCONTROLLED“IN5”
DL6 INPUTSTATUSCONTROLLED“FCA1”
DL7 INPUTSTATUSCONTROLLED“FCC1”
DL8 INPUTSTATUSCONTROLLED“FCA2”
DL9 INPUTSTATUSCONTROLLED“FCC2”
DL10 INPUTSTATUSCONTROLLED“ENC1”(Gatecoder)DL11 INPUTSTATUSCONTROLLED“ENC2”(Gatecoder)DL12 LEDFORDEVICEBUS-2EASY ACTIVE
DL13 LEDFOR BUS 2-EASYDIAGNOSTICSDL14 LEDSIGNALLINGPRIMARYPOWERON
DL15 LEDSIGNALLINGSECONDARYPOWERON
DL16 LEDFOR“SW1” PUSH-BUTTON (R1 PUSH-BUTTON)
DL17 LEDFOR“SW2” PUSH-BUTTON (R2 PUSH-BUTTON)
DL18 LEDFOR“SW3” PUSH-BUTTON (SETUP PUSH-BUTTON)
DL19 PRESSURESIGNALLINGLED“RESET SW” PUSH-BUTTON
DL20 ALARMSIGNALLINGLED“ALARM”
J1 POWERFEEDERSWITCHINGCONNECTOR
J2 SECONDARYPOWERSELECTOR
J3 CONNECTORFORCONNECTIONTOBUS-2EASYDEVICES
J4 CONNECTORFORTERMINALBOARDINPUTS
J5 CONNECTORFOROUT2OUTPUT(see2ndlevelprog.)
J6 TRAVELLIMITSCONNECTOR
J7 CONNECTORFORLEAF1ANDLEAF2ENCODERINPUTS
J8 CONNECTORFOROUT1OUTPUT(see2ndlevelprog.)
J9 FLASHINGLAMPOUTPUTCONNECTOR
J10 CONNECTORFORELECTRICALLOCKOUTPUT
J11 LEAF1MOTORCONNECTOR
J12 LEAF2MOTORCONNECTOR
J13 CONNECTORFORRECEIVERMODULEXF433/XF868
J14 CONNECTOR:DECODER/MINIDEC/RPRECEIVER
J15 USBCONNECTORFORPROGRAMMINGFROMPC
M1A ACCESSORIESMODULECONNECTOR
2. LAYOUT AND COMPONENTS OF E124 BOARD
2.1. Description of components
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115 V ~ 230 V ~
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To access PROGRAMMING FROM PC, connect the USB cable to the dedicated connector and consult the relative instructions.
Primary power feed from mains
withswitchingpowerfeed230/115 V~ - 50/60 Hz
Secondary power feed
24Vdc-16Amax.(min.20Vdc.-max.28Vdc.)
Power absorbed from mains
stand-by=4Wmax.~ 400 W
Max. load for motor 7 A
Power feed for accessories 24 Vdc
Accessories max. current
24Vdcmax.500mABUS-2EASYmax.500mA
Battery charge current 180mA
Operating ambient tempeature (-20-+55)°C
Protective fuses for unit Allselfresetting
Protective fuses for power pack 2.5 A
Function logics Semiautomatic,Automatic, “step-by-step”Semiautomatic,Automaticwithreverseduringpause,Automaticstep-by-step,Safetydevicesautomatic,Safetydevicesstep-by-stepautomatic,“b”Semiautomatic,mixedlogic“bC”,
Dead-man,AutomaticwithtimerfunctionWork time Programmable(from0to9min50sec)Pause time Programmable(from0to9min50sec)Motor power Programmableon50levelsMotor speed Programmableon10levelsConnector inputs Switchingfeeder,Battery,
Decoder/Minidec/RP,X-COM,moduleXF433/868,USB
Terminal board inputs BUS-2EASY,InputsfromIN1toIN5,Travellimitdevice,Encoder.
Terminal board outputs Flashinglamp,Motors,Electricallock,OUT1,OUT2(programmable),power
feedtoaccessoriesProgramming 1stand2nd lev.with3keys(+,-,F)and
LCDdisplay.
3rdlev.withPCconnectedviaUSB
Terminal-board J4IN1 OPEN A N.O. contactIN2 OPEN B N.O. contactIN3 STOP N.C. contactIN4 FSW OP N.C. contactIN5 FSW CL N.C. contact
Connector J13 – XF Module (OMNIDEC)Channel 1 OPEN AChannel 2 OPEN B
Connector J14 - RadioChannel1RP OPEN AChannel2RP2 OPEN B
To ensure correct operation, the switching feeder must be connected to the earth conductor in the system. In-stall an adequate differential thermal breaker upstream of the system.
J2:Intheabsenceofaprimaryfeedfromthemains,thecontrolunitcanbefedbyasecondarylowvoltage(24Vdc)powerfeed.Powercanbesuppliedbyapackofbatteries, rechargedbyabatterychargerintegratedintheboard,orbyastabilisedpowerfeeder.Inbothcases,thepowersupplymusthavethefollowingcharacteristics:
Voltage: (24 ± 4) VdcCurrent: 16 A max.
If you use an external stabilised feeder, you must disable the “battery charger” function via the PC (see dedicated instructions).
J1: Select the correct power feed, by turning the power switchingselectortoitscorrectposition(Default230Vac.)
2.2. Technical specifications 2.3. Inputs default setting terminal board
3. TERMINAL BOARDS, CONNECTORS, INPUTS AND SIGNALS
3.1. Power feed
3.2. Secondary power feed
Fig.7
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3.3. Terminal board J3 – BUS-2EASY accessories
TerminalforconnectionofBUS-2EASYaccessories.seepar.4.2,4.3,6
Connectionof2N.O.contactsinparallel
3.4. Terminal board J4 – SIGNALS INPUTS
IN1 - OPEN A - “Opening” Command (N.O. - terminal 1): thisreferstoanypulsegenerator(e.g.:push-button)which,byclosingacontact,commandsTOTAL OPENING.
To install several total opening pulse generators, connect the N.O. contacts in parallel
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
IN2 - OPEN B - Partial Opening” command (N.O. - terminal 3): this referstoanypulsegenerator(e.g.:push-button)which,byclosingacontact,commands PARTIAL OPENING.
For single leaf systems, OPEN B commands an opening of leaf 1 (motor 1) corresponding to 50% of total opening
To install several partial opening pulse generators, connect the N.O. contacts in parallel
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
IN4 - Opening safety-devices contact (N.C. - terminal 5): see paragraph4.1.
To install several opening safety devices, connect the N.C. contacts in series.
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
If opening safety devices are not connected, jumper connect terminals IN4 and GND, if the FAIL-SAFE safe-ty device is not active, otherwise jumper connect IN4 and –OUT1.
IN3 - STOP contact command (N.C. - terminal 4):thisreferstoanydevice(e.g.:push-button)which,byopeningacontact,canstopthemotionoftheautomatedsystem.
To install several STOP devices, connect the N.C. con-tacts in series.
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
If stop safety devices are not connected, jumper connect the STOP and GND terminals.
If you select one of the following logics (b, bC, C) input IN2 automatically becomes CLOSE (N.O).
Connectionof2NCcontactsinseries
3.5. Terminal boards J5, J8 – OUT1 AND OUT2Thetwooutputscanbesetinoneofthefunctionsdescribedin2ndlevelprogramming(seepar.7.2.).Thedefaultvalueis:
OUT1= ALWAYSACTIVEOUT2= INDICATORLIGHT.
Maximum load applicable on every output: 24 Vdc with 100 mA.
3.6. Terminal board J6 – Opening and closing travel limit deviceTerminalboardforconnectionoftheopening(FCA1andFCA2)andclosing(FCC1andFCC2)travellimitdevice.
The travel limit contacts FCC1, FCA1, FCC2 and FCA2 are all NC contacts. See 2nd level programming for the various configurations applicable to the travel limit inputs.
Iftheyarenotused,donotjumperconnectthecontactsofthelimitswitchesFCC1,FCA1,FCC2,FCA2
IN5 - Closing safety-devices contact (N.C. -. terminal 7): see paragraph4.1.
To install several closing safety devices, connect the N.C. contacts in series
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
If closing safety devices are not connected, jumper connect terminals IN5 and GND, if the FAIL-SAFE safe-ty device is not active, otherwise jumper connect IN5 and –OUT1.
GND - (terminals 2-6): Negative for powering accessories +24 - (terminal 8): Positive to power feed accessories
The max. load of the accessories is 500mA, subdivided among terminal boards J4 and J7. To calculate maxi-mum absorption, refer to the instructions for individual accessories.
Fig.8
Fig.9
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LED Description ON(contact closed)
OFF(contact open)
DL1 IN1 OPEN A Commandenabled Command disabled
DL2 IN2 OPEN B Commandenabled Command disabled
DL3 IN3 STOP
Command disabled Commandenabled
DL4 IN4FSW OP
Safety devices disabled Safetydevicestripped
DL5 IN5 - FSW CL
Safety devices disabled Safetydevicestripped
DL6 FCA1 Opening travel-limit devices free
Openingtravel-limitdevicesengaged
DL7 FCC1 Closing travel-limitdevicesfree
Closing travel-limit devices engaged
DL8 FCA2 Opening travel-limit devices free
Openingtravel-limitdevicesengaged
DL9 FCC2 Closing travel-limitdevicesfree
Closing travel-limit devices engaged
DL10 ENC1 Flashingduringoperation(Gatecoder)
DL11 ENC2 Flashingduringoperation(Gatecoder)
DL12 SIGNALLINGLEDFORDEVICEBUS-2EASY ACTIVE
DL13 SIGNALLINGLEDFOR BUS 2-EASYDIAGNOSTICS
DL14 LEDSIGNALLINGPRIMARYPOWERON
DL15 LEDSIGNALLINGSECONDARYPOWERON
DL16 LEDFOR“SW1” PUSH-BUTTON (R1 PUSH-BUTTON)
DL17 LEDFOR“SW2” PUSH-BUTTON (R2 PUSH-BUTTON)
DL18 LEDFOR“SW3” PUSH-BUTTON (SETUP PUSH-BUTTON)
DL19 LED“RESET SW” PUSH-BUTTON
DL20 ALARMSIGNALLINGLED“ALARM”
Flashing LED ALARM indicates alarm in progress (a situation which does not prejudice gate operation)
LED ALARM on steady light indicates error in progress (a situation which blocks operation until cause of error is eliminated)
3.7. Terminal boards J7 - ENCODERSEncoderswithanopencollectorsignalreferredtoearth(e.g.Gate-coder) canbe connected to detect the leaf’s angular position. Forconnections,seefig.10.
The configuration indicated in the drawing is the maxi-mum one. Only 1 Gatecoder can be used. In this case, the unused inputs do not have to be jumper connected to earth
RED
RED
BLACK
BLACKWHITE
WHITE
3.8. Terminal board J9 – FLASHING LAMPOutputfor24Vdcflashinglamp
Maximum applicable load: 24 Vdc - 15 W
3.9. Terminal board J10 – ELECTRIC LOCKOutputfor12Vacor24Vdcelectriclock
J11 (MOT1):Connectionofmotorconnected to leaf1, i.e. the leafwhichopensfirstduringanopeningoperation.
J12 (MOT2):Connectionofthemotorconnectedtoleaf2,i.e.theleafwhichopenssecond.
If only one motor is connected, it must be connected to terminal J11 (MOT1).
If, during the first movement of the SETUP procedure, the leaves close instead of opening, the motor connection cables must be changed over.
Thecontrolunithasanintegrated2-channeldecodingsystem(DS,SLH,LC/RC)namedOMNIDEC.Thissystemmakesitpossibletosave–throughanextrareceivermodule–XF433orXF868radiocommandsofthesamefrequency,butofadifferenttype(DS,SLH,LC/RC).Itispossibletosavebothtotalopening(OPENA)andpartialopening(OPENB)oftheautomatedsystem,uptoamaximumof256channels.
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
Insert and remove the boards only after cutting power.
3.10. Motors terminal block
3.11. Connector J13 – XF MODULE rapid connection
3.12. Led operation
Fig.11
Fig.10
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E124J14
OPEN B
OPEN A STOP
BUS24Vdc 24Vdc
3W24Vdc 24Vdc
3W
LAMP LOCK24Vdc15W
12Vac24Vdc
M1 M2**
*E
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ItisusedforrapidconnectionofMinidecs,DecodersandRP/RP2Receivers.IfyouareusinganRP2twin-channelreceiver,youwillbeabletodirectlycommandtwodifferentradiochannels,OPENAandOPENBoftheautomatedsystemfromatwin-channelradiocontrol.Ifusingasingle-channelMinidec,DecoderorRP,youcancommandonlyoneradiochannel,OPENA.Fittheaccessorywiththecomponentssidedirectedtowardtheboardinterior.
Insert and remove the boards only after cutting power.
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
3.13. Connector J14- connection of MINIDEC, DECODER AND RP
4. ELECTRICAL CONNECTIONS
Connectionoftraditionalsafetydevicesand
photocells
Enablein 2ndlevel
programming
UsewithmotorswithoutaBUS-2EASY encoder
Max load 24Vdc - 500mA
Anexampleofaradioaccessoryconnection
4.1. Connection of traditional safety devicesWith theE124 control unit, you canuseboth traditional photocells(N.C. contactwith relay)and/orphotocellswithBUS-2EASY (opencollectorcontact).ThepositioningofthephotocellsandtheiroperationisschematisedinFig.14.
Beforeyouconnectthephotocellsweadviseyoutoselectthetypeofoperationaccordingtothemovementzonetheyhavetoprotect:
Closing safety devices:theyaretrippedonlyduringtheautomatedsystemclosingmovement,and,therefore,aresuitableforprotectingtheclosurezoneagainsttheriskofimpact.
Opening safety devices:theyaretrippedonlyduringtheautomatedsystemopeningmovement,and,therefore,aresuitableforprotectingtheopeningzoneagainsttheriskofimpact.
Opening /closing safety devices:theyaretrippedduringtheautoma-tedsystemopeningandclosingmovement,and,therefore,aresuitableforprotectingtheentiremovementzoneagainsttheriskofimpact.
Opening /closing safety devices
Closing safety devices Opening safety devices
Fig.12
Fig.14
Fig.13
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TX CL
RX OP/CLTX OP/CL
RX CL
RX CL TX CL
RX CL TX CL
+OUT1OUT1
+
J4
OUT1
fh
fh
fh
RX CL1 TX CL1
RX CL2TX CL2
+
+
+
+
J4
RX OP TX OP
++
J4
J4
fh
fh
fh
fh
fhf
h
fh
fh
fh
fh
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Connectionofnosafetyandstopdevice
Connectionof1pairofclosurephotocellswithFAIL-SAFEandSTOPde-activated
Othersafetydevices
Connectionof1pairofclosurephotocellswithFAIL-SAFEactivated
Othersafetydevices
Set o1 = 01 in the second programming level
Connectionofapairofclosingphotocellsandapairofope-ning/closingphotocellswithdisabledFAIL-SAFEsafetydevice
and STOP
Connectionof2pairsofphotocells
Connectionof1pairofopeningphotocells
Connectionofoneclosingsafetydeviceand oneopeningsafetydevice
If you do not use the FAILS-SAFE device, you must connect the transmitters power feed to terminals 6 and 8 of J4.
If you use the FAIL-SAFE device, connect the transmitters power feed to OUT1 after you have set it appropriately (see 2nd level programming and fig. 16).
If you use the FAIL-SAFE device, the non-used safety inputs too must be jumper connected to the OUT1 ne-gative (see Fig.16).
Othersafetydevices
Othersafetydevices
Fig.16
Fig.17
Fig.18
Fig.19
Fig.15
Fig.20
11
TX CL
RX OP/CLTX OP/CL
RX OP TX OP
+
+
+
J4
+
+
+
RX CL
+
++
+
TX CL
RX OP TX OP
J4
RX CL
fh
fh
fh
fh
fh
fh
fh
fh
fh f
h
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Connectionofapairofclosingphotocells,apairofopeningphotocellsandapairofopening/closingphotocells
Connectionofapairofopening andapairofclosingphotocells
Fig.24showsa2-swingleafautomatedsystemindicatingthecoveragebeamsofthephotocells:A: PhotocellswithOPENINGandCLOSINGactionB: PhotocellswithOPENINGactionC: PhotocellswithOPENINGactionD: PhotocellswithCLOSINGaction
This board is suppliedwith aBUS-2EASY circuit enabling easyconnectionofahighnumberofBUS-2EASYsafetyauxiliarydevices(e.g.upto16photocellspairs),appropriatelyprogrammed,usingonlytwocableswithoutpolarity.Beforeconnectingthephotocells,weadviseyoutoselectthetypeofoperation(Fig.23)accordingtothemovementzonetheymustprotectand position – both on the transmitter and receiver-thedip-switchesasshowninTab.1:
Closing photocells: theyaretrippedonlyduringtheautomatedsystemclosingmovement,and,therefore,aresuitableforprotectingtheclosurezoneagainsttheriskofimpact.
If you have to connect two or more BUS-2EASY closing photocells, choose different addresses for each pair used.
Opening photocells: they are tripped only during the automatedsystemopeningmovement,and,therefore,aresuitableforprotectingtheopeningzoneagainsttheriskofimpact.
If you have to connect two or more BUS-2EASY opening photocells, choose different addresses for each pair used.
Opening /Closing photocells: theyaretrippedduringtheautomatedsystemopeningandclosingmovement,and,therefore,aresuitableforprotectingtheentiremovementzoneagainsttheriskofimpact.
If you have to connect two or more BUS-2EASY closing photocells, choose different codes for each pair used.
Pulse generators:usedaspulsegeneratorstoopentheautomatedsystem.
Amaximumof16pairsofBUS-2EASYphotocellscanbeconnectedtotheboard.Thephotocellsaresplitintogroups:Openingphotocells: max6Closingphotocells: max7Opening/Closingphotocells: max2PhotocellusedasanOPENpulse: max1
4.2. Photocells BUS-2EASY
Fig.21
Fig.22
Fig.23
12
ON
1 2 3 4
BUSBUS
DL1
DS1ON
1 2 3 4
BUSBUS
DL2
DS1
RX - TX
DL2
2EA
SYTXRXE
NG
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DL1 =AlignmentDL2 = BUS-2EASY/powersupplystatusDS1 = Programmingdip-switches
Dip1 Dip2 Dip3 Dip4 Rif. Type
OFF OFF OFF OFF
B - C OPENING
OFF OFF OFF ON
OFF OFF ON OFF
OFF OFF ON ON
OFF ON ON OFF
OFF ON ON ON
ON OFF OFF OFF
D CLOSING
ON OFF OFF ON
ON OFF ON OFF
ON OFF ON ON
ON ON OFF OFF
ON ON OFF ON
ON ON ON OFF
OFF ON OFF OFFA OPENING
and CLOSINGOFF ON OFF ON
ON ON ON ON / OPEN PULSE
Thefollowingtableshowstheprogrammingoperationsofthedip-switchinsidethetransmitterandtheBUS2-EASYphotocellsreceiver.
Important: the same address must be given to both transmitter and receiver (the same DIP-SWITCH setting)
Make sure that there are not two or more photocell pairs with the same address. (the same DIP-SWITCH setting)
If you are not using any BUS-2EASY accessory, leave free connector BUS-2EASY (J3- fig. 7).
4.2.1. Addressing the BUS-2EASY photocells
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
Unlike the case of the photocell devices, the polarity of the BUS-2EASY line connection determines whether the encoder belongs to one leaf rather than to the other.
ThisiswhyyoumustpaygreatattentiontotheindicationsofthestatusLEDsonthebodyofeachencoder(Fig.24-25).Belowwe list the functionsofLEDsDL1,DL2,andDL3,and theirstatuses:Encoder connection and LED status
LED ON FLASHING OFF
DL 1
PowerONandBUS -2EASY communicatingwithboard
PowerONbutBUS-2EASYnotcommunicating
NopowertoorcommunicationwithBUS-2EASY
DL 2 Leaf1encoder / Leaf2encoder
DL 3Leafnotmoving Pulsesreadwhile
leafmovingLeafnotmoving
DL 1 mustalwaysbelightedtoguaranteecorrectconnectionbetweenencoderandboard.
DL 2 determinestheleafonwhichtheencoderisinstalled.Providingtheconfigurationiscorrect,theautomatedsystemwillshow:anencoderwithDL2lightedinleaf1,andanencoderwithDL2OFFinleaf2.Ifthereisanincorrectconnection,i.e.indicatingtwoencoderswiththesamestatusoftheDL2LEDs,duringthelearningprocedureoftheBUS-2EASYaccessories,theDL1LEDSofbothencodersshowaFLASHINGstatus.Inthissituation,refertotheconfigurationinTAB.4todefinewhichencoderconnectiontorotate.
DL 3 indicates,onasteadyflashingbeam,thereadingofthepulseswhile the leaf ismoving.Whenthe leaf ismotionless,DL3canbeeitherlightedorOFF.
4.3. Addressing the BUS-2EASY encoders
Connectionof theBUS-2EASY input in thecontrolboard isvia thebipolarcableswhichcomeoutoftheencoders.
13
DL 2
DL 1
DL 3
DL 2
DL 1
DL 3
DL 2
DL 1
DL 3DL 2
DL 1
DL 3
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DL1ON
DL3OFF
DL1ON
DL3OFFDL1ON
DL1ON
DL3OFF
LEAF 1* TWO LEDs ON
LEAF 1* TWO LEDs ON
LEAF 2ONE LED ON
Reverse the encoder wires to exchange between the encoder associated with leaf 1 and the encoder associated with leaf 2 and vice versa
LEAF 2ONE LED ON
* Leaf 1 opens as first and closes as second. If no rebate is present between leaf 1 and 2, set leaf delay to zero on the control board.
DL2ON
DL3OFFDL2OFF
DL2ON
DL2OFF
* Leaf 1 opens as first and closes as second. If there is no rebate between leaf 1 and 2, set the leaf delay to zero on the control board.
Reverse the encoder wires to exchange between the encoder associated with leaf 1 and the encoder asso-ciated with leaf 2, and vice versa
MAKE SURE THAT LED DL1 IS LIGHTED ON LEAF 2, WHEN THE MOTOR IS AT REST
LEAF 2ONE LED ON
MAKE SURE THAT LEDs DL1 AND DL2 ARE LIGHTED ON LEAF 1, WHEN THE MOTOR IS AT REST
LEAF 1 TWO LEDs ON
LEAF 1*
MAKE SURE THAT LED DL1 IS LIGHTED ON LEAF 2, WHEN THE MOTOR IS AT REST
LEAF 1 TWO LEDs ON
LEAF 2ONE LED ON
MAKE SURE THAT LEDs DL1 AND DL2 ARE LIGHTED ON LEAF 1, WHEN THE MOTOR IS AT REST
LEAF 1*
ENCODER WIRES REVERSING OPERATION
ENCODER LEAF 1
E N C O D E R LEAF 2
LEAF 2
LEAF 2
Leaf1 Leaf2
Leaf2 Leaf1
4.3.1. Encoder wiring for operator S700H/S800H
4.3.2. SAFECODER wiring (Operators 412, 413, 415, 770N, S450H)
Fig.24
Fig.25
Fig.26
14
F F
-/R2+/R1F
F+
+/R1F
++/R1
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Programmingisdividedintwolevels:• BASIC programming• ADVANCED programming
Theprogrammingphasesare(seeTab.):1. toaccessPROGRAMMING(1A or 1B);2. toshowthesetvaluesandmodifythem,ifyouwant.Changing the values is effective immediately, while the final memorisation must be carried out
upon exiting programming (St ).3. exittheprogrammingbyusingSt function.SelectY toSAVEtheconfigurationyoujustperformed,otherwise select no toEXITWITHOUT
SAVINGanychanges.
You can EXIT programming at anytime:• press and hold F and then also -toswitchdirectlytoSt .
F+
-/R2
Thisboardalsoallowsprogramming using a PC or MAC.ThisprogrammingrequiresconnectiontoPC/MACviaUSBcableandUSB-Brelevantport.TheprogrammingSOFTWAREwithrelevantinstructions,mustbedownloadedfromthewebsite:
www.faacgroup.comTheprogrammingusingaPC/MAC,withthedefault PASSWORDdoesnotinhibittheprogrammingbyboard.ThewritingPC willbedisplayedincorrespondencewiththemodifiedvalues.Notes:whenyoumodifythevaluesbyboardthepreviousPC/MACprogrammingwillbeoverwrote.
The default password is 0000.
The programming using a PC/MAC, with a modified PASSWORD (different from the default one), will inhibit the programming by board. If one of the buttons is pressed, the display will show PC programming for 5 sec and changes will be allowed only by PC /MAC.
A B C
basi
c pro
gra
mm
ing
1a. press and hold F :the first function appears
ë1
release F:the function value
is displayedusing + or -,
scroll the available values
until the the desired one
press F:to move to
the next functionë1
function St(last basic or advanced
function)
adva
nced
pro
gra
mm
ing 1b. press and hold F and
then also + :the first function appearsë1
release the keys:the function value
is displayed
select Y to save the programming
otherwise
select no to exit the programming without
saving
ë1 the function is displayed until you hold
Tab. Programmingphases.
5. PROGRAMMING
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Display Basic Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5cF 0 ConfigurestheparameterswithDEFAULTvaluescor-
respondingtoaninstallationwithnon-FAACoperators.(seedefaultcolumn0).
1 Configures theparameterswithDEFAULTvaluescor-respondingtoaninstallationwithoperators FAAC 412, 413/415, 770, 390, 770N(seedefaultcolumn1).
2 ConfigurestheparameterswithDEFAULTvaluescor-respondingtoaninstallationwithoperators FAAC 391 (seedefaultcolumn2).
3 ConfigurestheparameterswithDEFAULTvaluescorre-spondingtoaninstallationwithoperators FAAC S700H/S800H (seedefaultcolumn3.
4 Configures theparameterswithDEFAULTvaluescor-respondingtoaninstallationwithoperators FAAC 418. (seecolumndefault4).
5 Configures the parameters with DEFAULT values corresponding to an installationwith operators FAAC S450H (seecolumndefault5).
PC MixedconfigurationfromaPC/MAC
At the time of changing the set motor type on the board, the relevant defaults are uploaded.
0 1 2 3 4 5
dF DEFAULT:
Y indicatesthatallthesetvaluescorrespondtothedefaultvalues.
no indicatesthatoneormoresetvaluesaredifferentfromthedefault.
Set Y ifyouwanttorestorethedefaultsettings.
Y Y Y Y Y Y
LO FUNCTION LOGICS:
E Semi-automaticEP Semi-automaticStep-by-StepS AutomaticSafetyDevicesSA AutomaticwithreversalduringpauseSP AutomaticStep-by-StepSafetyDevicesA1 Automatic1A AutomaticAP AutomaticStep-by-StepAt Automatictimerb Semi-automatic“b”bC Mixed(Pulses foropening /Dead-mancommandsfor
closing)C Dead-manCU LogicmodifiedfromaPC/MAC
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
E E E E E E
5.1. Basic programming
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Display Basic Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5PA PAUSE TIME A (visualised only if the selected logic allows
automatic reclosing):PausetimefollowingaTOTALopeningcommand.Ithasonlyeffectifalogicwithpausetimewasselected.Canbeadjustedfrom0to59sec.inone-secondsteps.Next, the viewing changes in minutes and ten seconds(separatedbyadot)andtimeisadjustedin10-secondsteps,uptothemaximumvalueof9.5 minutes.E.g.: if the display shows 2.5 , the pause time will be 2 min. and 50 sec.
30 30 30 30 30 30
Pb PAUSE TIME B (visualised only if the selected logic allows automatic reclosing):
PausetimefollowingaPARTIALopeningcommand.Ithasonlyeffectifalogicwithpausetimewasselected.
30 30 30 30 30 30
Mn NR. OF MOTORS:Youcanselectthenumberofmotorspresentinthesystem:
1 =1motor2 =2motors
If the SETUP is performed with only one motor, and later two motors are used, the board will si-gnal error 14 - configuration error, which can be deleted by repeating the SETUP with two motors or by returning to one motor.
If a SETUP is performed with two motors and later only one is used, the board will not signal an error. Only the motor connected to input M1 will move.
When programming from a PC/MAC, you can select different partial openings.
02 02 02 02 02 02
F1 MOTOR 1 POWER :Youcanadjust themaximumpowerofmotor1,which is thesameduringbothopeningandclosing.
01 =minimumpower50 =maximumpower
If the power is modified, we recommend performing a new SETUP - see the related paragraph.
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
25 25 25 40 25 35
F2 MOTOR 2 POWER (visualised only with the function Mn = 2):Youcanadjust themaximumpowerofmotor2,which is thesameduringbothopeningandclosing.
25 25 25 40 25 35
SP SPEED:Adjuststhemotionspeedofthemotors.Thereare10levels.The value is relative and not absolute, because the speedvalue refers to the weight of the leaf measured during theSETUPcycle
0 1 =minimumspeed 1 0 =maximumspeed
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
08 08 08 08 08 08
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Display Basic Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5En ENCODER USE:
Youcanenable/disable theuseof encoders (bothBUSandGATECODERencoders):Y =encodersonbothmotorsno =encodersdisabled
When using configurations 3 or 5 it is mandatory to use the encoder, no is not selectable
no no no Y no Y
FA LIMIT SWITCH WHEN OPENING:Letsyousetordisableuseoftheopeninglimitswitchonswing-leaves.
no =openinglimitswitchesdisabled01 =thelimitswitchdeterminesthestoppingofmotion02 =thelimitswitchdeterminesthestartofdeceleration
After having changed the value of this function, SETUP is required: the card will signal error 14 (configuration error) until the SETUP is performed again or until the previous value is restored
no no no no no no
FC LIMIT SWITCH WHEN CLOSING:Letsyousetordisableuseoftheclosinglimitswitchonswing-leaves.
no =closinglimitswitchesdisabled0 1 =thelimitswitchdeterminesthestoppingofmotion02 =thelimitswitchdeterminesthestartofdeceleration
After having changed the value of this function, SETUP is required: the card will signal error 14 (configuration error) until the SETUP is performed again or until the previous value is restored.
no no no no no no
Cd DELAY FOR CLOSING LEAF (visualised only with the fun-ction Mn = 2 ):Isthedelaytimeforstartingleaf1closingwithrespecttoleaf2.Makesitpossibletoavoidoverlappingofthetwoleaves.Adjustablefrom00 to 59 sec, in 1- second steps.Nextthevalue59,theviewingchangestominutesandtenthsofasecond(separatedbyadecimalpoint)andtimeisadjustedin10-secondstepsuptothemaximumvalueof3 minutes.
e.g.: if the display shows 1 .2 , the time is 1 min and 20 sec
05 05 05 05 05 05
bu BUS-2EASY DEVICES ENTRY:
See the related paragraph.no no no no no no
M2 MOTOR 2 dead-man DRIVE mode (visualised only with the function Mn = 2 )+/R1
OPENS(visualisingoP )untilthebuttonishelddown-/R2
CLOSES(visualisingcL )untilthebuttonishelddown
-- -- -- -- -- --
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Display Basic Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5M1 MOTOR 1 dead-man DRIVE mode
+/R1 OPENS(visualisingoP )untilthebuttonishelddown
-/R2 CLOSES(visualisingcL )untilthebuttonishelddown
-- -- -- -- -- --
tL WORK TIME LEARNING (SETUP):See the related paragraph. -- -- -- -- -- --
St AUTOMATED SYSTEM STATUS:Youcanexitprogramming,choosingwhetherornottosavetheconfigurationyoujustperformed.
1. set the choice:Y toSAVEandEXITtheprogrammingno toEXITtheprogrammingWITHOUTSAVING
2. pressthebuttonFtoconfirm;attheendthedisplayreturnstovisualizetheautomated system status:
Y
00 =CLOSED01 =OPEN02 =Stationarythen“OPENS”03 =Stationarythen“CLOSES”04 =In“PAUSE”05 =duringOpening06 =duringClosing
07 =FAILSAFEinprogress08 = checking BUS-2EASY devices in progress09 =Pre-flashthen“OPENS”10 =Pre-flashthen“CLOSES”1 1 =Emergencyopen12 =EmergencycloseHP =Hold position
WARNING If power is lost to the board prior to confirmation (step 2.), all changes made will be lost.
F+
-/R2
You can EXIT programming at any time: press and hold F and then also - to switch directly to St .
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Display Advanced Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5bo TIME OF MAXIMUM POWER AT STARTING:
Youcansetthestartingtime.Duringstartthemotorsworkatmaximumpowerforstartingthemovement.Adjustablefrom 00 to 10 sec,in1-secondsteps(ignoringthepowerlevelselectedwithF1 and F2 ).
Other more detailed programming possibilities are feasible by programming with a PC (see dedicated instructions).
02 02 02 02 02 02
cS FINAL STROKE WHEN CLOSING (RAM STROKE) (NOT displayed if function FC = 1 ):Letsyouenable/disabletheramstrokeonswing-leaves.
Theramstrokefacilitateslatchingoftheelectriclockbyactiva-tingthemotorsatmaximumpowerduringfinalclosing.Y =enabled(for2sec)no =disabled
In case of systems with an absolute encoder, to enable this function a setup must be performed using the automatic leaf stop on the mechanical contact point.
no no no no no no
rS REVERSE STROKE WHEN OPENING displayed if function FA = 1 ):Letsyouenable/disablethereversestrokeonleafdoors.The reversestroke facilitatesunlatchingof theelectric lock.Whentheautomaticsystemisclosed,beforestartingtoopen,themotorsgiveabriefpushtoclose.
Y =enabled(for2sec)no =disabled
In case of systems with an absolute encoder, to enable this function a setup must be performed using the automatic leaf stop on the mechanical contact point.
no no no no no no
EL ELECTRIC LOCK ON LEAF 2:Theboardhasaterminaldedicatedtotheconnectionofanelectric lock. Normally the electric lock must be connectedto leaf 1. If theelectric lock is locatedon leaf 2, adjust theparameter.Thisparameterdoesnotallow thesettingY ifMn = 2 )Y =electriclockonleaf2no =electriclockonleaf1
no no no no no no
Od DELAY FOR OPENING LEAF (visualised only with the function Mn = 2 ):Youcansetthedelaytimeforstartingleaf2openingwithrespecttoleaf1,inordertoavoidoverlappingofthetwoleaves.Adjustablefrom00 to 59 sec, in 1- second steps.Nextthevalue59,theviewingchangestominutesandtenthsofasecond(separatedbyadecimalpoint)andtimeisadjustedin10-secondstepsuptothemaximumvalueof1 .3 minutes.e.g.: if the display shows 1 .2 , the time is 1 min and 20 sec.
02 02 02 02 02 02
5.2. Advanced programming
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Display Advanced Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5r1 LEAF 1 DECELERATION:
Youcanadjustthedecelerationspaceasapercentageofthetotaltravelofleaf1.Adjustablefrom 00 to 99 %, in 1% steps.
00 =nodeceleration01 =minimumdecelerationspace99 =maximumdecelerationspace
30 30 30 20 30 30
r2 LEAF 2 DECELERATION (visualised only with the function Mn = 2 ):Youcanadjustthedecelerationspaceasapercentageofthetotaltravelofleaf2.Adjustablefrom 00 to 99 %, in 1% steps.
00 =nodeceleration01 =minimumdecelerationspace99 =maximumdecelerationspace
30 30 30 20 30 30
PF PRE-FLASHING:Youcanenable/disablethepre-flashing.Pre-flashingduration=3sec.You can choose:no =disabledOC =pre-flashingbeforeeachmovementCL =pre-flashingbeforeaclosingmovementOP =pre-flashingbeforeanopeningmovementPA =pre-flashingonlyattheendofthepausetime
no no no no no no
Ph CLOSING PHOTOCELLS:Theinterventionofclosingphotocellscausesthereversingofautomatedsystem(opening).You can choose: Y =operate the reversal only after thephotocells are
released no =operatethereversalimmediately
no no no no no no
Ad ADMAP FUNCTION:Allowsoperation in compliancewithFrench regulationNFP25/362.Y =enabledno =disabled
no no no no no no
EC ANTI-CRUSHING SENSITIVITY:Varyingthisfunctionvariestheamountoftimeafterwhich,incaseofobstacle,theboardcommandsreversaloftheleaves,oritwillcommandastopiftheleavesareinthecontactpointsearchspace(seetheparameterrB ).Thefourthconsecutiveobstacledetectedinthesamedirectionandpositionwillbedefinedasacontactpointandtheleafwillstop in that position.0 1 =minimumsensitivity(maximumtimebeforereversal)10 =maximumsensitivity(minimumtimebeforereversal)
0 1 06 06 05 06 05
US ULTRA-SENSITIVITY:This functionactivatesanobstacledetectionsystem,basedonthecontrolofthevariationofthecurrentabsorbedbythemotor,causingimmediateleafreversal.
Y =activeno =excluded
no no no Y no Y
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Display Advanced Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5rB MECHANICAL STOP SEARCH ANGLE (NOT displayed if
function FC or FA = 01 ):Youcanadjustthecontactpointsearchanglewithinwhichtheboardwillstopmovementwithoutreversing,ifitencountersanobstacleorthecontactpoint.Adjustablefrom 0.3 to 20 degrees.From0.3 to 9.9 degrees,adjustmentsaremadein0.1de-greesteps.From10 to 20 degrees,adjustmentsaremadein1degreesteps.
10 10 10 4.0 10 4.0
SF SOFT TOUCH: (visualised only with the function En = no):After touching the travel stoppoint, the leaves reverseandthenrestgently. Y =active no =excluded
This function can be useful to respect the impact curve specified by current standards.O t h e r m o r e d e t a i l e d p r o g r a m m i n g possibilities are feasible by PC programming (see dedicated instructions).
no no no no no no
o 1 OUT 1:YoucansettheoutputOUT1(opencollectorN.O.)inoneofthefollowingfunctions:
00 = alwaysactive0 1 = FAIL-SAFE02 = INDICATORLIGHT(off=closed;on=duringopening
andopen/inpause;flashing=duringclosing)03 = COURTESYLIGHT(staysonforthedurationofthe
movement(eveninSETUP)inadditiontothesettimeoffunctiont1
04 = ACTIVEERROR05 = automatedsystemOPENorinPAUSE06 = automatedsystemCLOSED07 = automatedsystemMOVING08 = automatedsysteminEMERGENCY09 = automatedsysteminOPENING10 = automatedsysteminCLOSING1 1 = electric lock control before CLOSING12 = safetydeviceACTIVE13 = TRAFFICLIGHTfunction(activewhenOPENINGand
withautomatedsystemOPEN)14 = timedoutputwhichcanbeactivatedfromthesecond
radio channel OMNIDEC (seefunctiont1 )15 = outputwhichcanbeactivatedfromthesecondradio
channel OMNIDEC(step-by-stepfunction)16 = activeduringmovementofleaf117 = activeduringmovementofleaf218 = Instrusiondetection19 = Systemworkingonbattery
If tr is displayed, it indicates that the output is used as a TIMER set from the PC/MAC software.
00 00 00 00 00 00
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Display Advanced Function Default 0 Default 1 Default 2 Default 3 Default 4 Default 5t1 OUT 1 TIMING (visualised only with the function o1 = 03
or o1 = 14 ):YoucanadjustthetimingofOUT1outputifatimedfunctionhasbeenselectedwithatimefrom1 to 59 minutesin1-minutestepsforfunctions03-14
0 1 0 1 0 1 0 1 0 1 0 1
o2 OUT 2:YoucansettheoutputOUT2(opencollectorN.O.).See the options as o1 .
02 02 02 02 02 02
t2 OUT 2 TIMING (visualised only with the function o2 = 03 or o2 = 14 ):
Adjustable as t1 .
0 1 0 1 0 1 0 1 0 1 0 1
AS MAINTENANCE REQUEST - CYCLE COUNTER (linked to the subsequent two functions):Youcanenable thesignalingofmaintenance request,or thecyclecounter.Y enable the SIGNALING when the programmed
number of cycles has been reached (as defined insubsequenttwofunctionsnc and nd ). Signalingconsistsofapre-flashingof8sec(inadditiontothetimemayalreadybesetwiththefunctionPF )beforeeachmovement.
no enable theCYCLECOUNTER, thatwill bedisplayedinthesubsequenttwofunctionsnc and nd up to a displayedmaximumof65,530.
If the number of cycles performed is greater than 65,530 the subsequent two functions nc and nd will display 65 and 53, respectively.
no no no no no no
nc CYCLE PROGRAMMING (THOUSANDS):IfAS =Y thedisplaywill show thenumberof thousandsofcyclesafterwhichthesignalingofmaintenancerequestbegins(canbesetfrom0 to 99 ).IfAS =no thedisplaywillshowthenumberofthousandsofworkcyclesperformed.Thevaluedisplayedisupdatedwiththesuccessionofthecycles,interactingwiththevalueinnd .
When AS = no you can reset the cycle counter: press simultaneously + and - for 5 sec.
00 00 00 00 00 00
nd CYCLE PROGRAMMING (TENS):IfAS =Y thedisplaywillshowthenumberoftensofcyclesafterwhichthesignalingofmaintenacerequestbegins(canbesetfrom0 to 99 ).IfAS =no thedisplaywillshowthenumberoftensofworkcyclesperformed.Thevaluedisplayedisupdatedwiththesuc-cessionofthecycles,interactingwiththevalueinnc .
e.g.: if the system has performed 11,218 cycles, nc = 11 and nd = 21 will be displayed
00 00 00 00 00 00
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You can add BUS-2EASYdevicestothesystematanytime,proceedingasfollows:1. Cutofftheelectricalpowertotheboard.2. Install and set the BUS-2EASYaccessoriesaccordingtotheinstructionsofthedevices.3. Connect the BUS-2EASYdevicesaccordingtotheinstructionsofChapterELECTRICAL CONNECTIONS.4. Poweruptheboard.5. CompletetheprocedureforBUS-2EASYdeviceentry.
If no BUS device has ever been entered in the board, the display will read no.
Encoder 1:ON=correctlyconnectedandentered
Encoder 2:ON=correctlyconnectedandentered
BUS Status:alwaysON
OPEN photocell:ON=enteredandengaged
Opening photocells:ON=enteredandengaged
Closing photocells:ON=enteredandengaged
Fig. VisualisingtheBUS-2EASYstatusinthefunctionbu :eachsegmentofthedisplayshowsonetypeofdevice.
Opening photocellsand Closing photocells:ON=enteredandengaged
St AUTOMATED SYSTEM STATUS:Youcanexitprogramming,choosingwhetherornottosavetheconfigurationyoujustperformed.1. set the choice:Y toSAVEandEXITtheprogrammingno toEXITtheprogrammingWITHOUTSAVING2. pressthebuttonFtoconfirm;attheendthedisplayreturnstovisualizetheautomated system status:
Y
00 =CLOSED01 =OPEN02 =Stationarythen“OPENS”03 =Stationarythen“CLOSES”04 =In“PAUSE”05 =Opening06 =Closing
07 =FAILSAFEinprogress08 = checkingBUS-2EASY devices in progress09 =Pre-flashthen“OPENS”10 =Pre-flashthen“CLOSES”1 1 =Emergencyopen12 =EmergencycloseHP =Hold position
1. AccessBASICprogrammingandscrollthroughthefunctionsupuntil bu . When Fisreleased,thedisplaywillshowtheBUS-2EASY de-vicesstatus(see the figure).
2. Performtheentry:simultaneouslypressandhold+ and -foratleast5sec(duringthistime,thedisplaywillblink).3. Y willappearasaconfirmationofentrycompletion.4. Releasethe+ and -buttons.ThestatusoftheBUS-2EASYdeviceswillbedisplayed.
6. BUS 2EASY DEVICE INSTALLATION
6.1. BUS-2EASY device entry
24
+/R1
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InSTANDBY(gateclosedandinstand-by)withBUS-2EASY Encoderonleaf1andleaf2andBUS-2EASY Photocellscorrectlyconnectedandentered.
IncaseofBUS-2EASY Encoderonleaf1andleaf2andBUS-2EASY Photocells correctlycon-nectedandenteredandwithclosingphotocellsengaged:
Encoder on leaf 1 correctlyentered
Encoder on leaf 2 correctlyentered
atleastonepairofopeningphotocellscorrectlyentered
atleastonepairofclosing photocellscorrectlyentered
Fig. examplesofBUS-2EASYstatusvisualizationondisplay.
ToverifythetypesofBUSdevicerecognisedthroughtheentry:1. Press and hold the +buttonduringstand-byvisualisation;thesegmentscorrespondingtoatleastoneentereddevicewillgoON.E.g.:
TochecktheconditionoftheBUS-2EASYconnection,verifytheLEDontheboard:
LED DL15 (Red)
ON SafetydeviceengagedorpulsegeneratoractiveOFF NOsafetydeviceengagedneitherpulsegeneratoractive
LED DL14 (Green)
ON steady Normalactivity(ledONeveniftherearenodevices).
Slow blinking (blink every 2,5 sec) BUS-2EASY line short-circuit.
Rapid blinking (blink every 0.5 sec)
Error in the BUS-2EASY connection.Repeatthedeviceentry.Iftheerroroccursagain,check:-Thattherearenomorethanonedeviceinthesystemwiththesameaddress.-Callingerror(number>or<theconnectedBUSdevices).-FAILSAFEerrorontheBUSdevice.
OFF BoardinSleepmode(ifused).
Whentheboardispowered,ifaSETUPhasneverbeenperformed,oriftheboardrequestsit,onthedisplayS0 indicatesthataSETUPmustbeperformed.
During SETUP, the connected BUS-2EASY accessories are always entered. The BUS-2EASY encoders entered by the SETUP must always be enabled using the parameter En (BASIC Programming).
During SETUP all safety devices are disabled! Therefore, carry out the operation avoiding any transit in the leaf movement area.
If a system without an encoder is installed, mechanical stops will be required for the leaves.
6.2. Checking the securing devices entered on the board
7. TIME LEARNING - SETUP
25
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PerformtheSET-UPasfollows:
1. EnterBASICprogrammingandgototheparametertL ,whenFisreleased--willappear.2. Ensurethatthegateleavesareclosed.Otherwise,proceedasfollows: -Pressandhold-tocloseleaf2 -Pressandhold+tocloseleaf1
Should pressing + and/or - command opening of the corresponding leaf, cut off power and, on terminal board J11 or J12, invert the cables of the corresponding motor.
3. Withthegateleavesclosed,launchSETUPbypressingandholding+ and - until S1 beginstoflashonthedisplay(about3sec).4. Release+ e -.Leaf1beginsitsopeningmovement.
Operation WITHOUT SafecoderLeaf1automaticallyacknowledgesthemechanicalstop.
Operation WITH SafecoderLeaf1automaticallyacknowledgesthemechanicalstop.ItwillinanycasebepossibletostopleafmovementatanytimeandinthedesiredpointbysendinganOPENApulse.
5. OnthedisplayS2 willflash(onlyif2motorshavebeenselected):leaf2beginsopening.Operation WITHOUT Safecoder
Leaf2automaticallyacknowledgesthemechanicalstop.Operation WITH Safecoder
Leaf2automaticallyacknowledgesthemechanicalstop.ItwillinanycasebepossibletostopleafmovementatanytimeandinthedesiredpointbysendinganOPENApulse.
Steps 4 and 5 with function FA :
FA = 01 (the limit switch determines the stopping of motion) with Safecoder installed the OPEN A pulse for stopping motion is ignored.
FA = 02 (the limit switch determines the start of deceleration) send an OPEN A pulse only after involving the opening limit switch, without Safecoder, make sure that the limit switch is engaged before the mechanical stop.
6. OnthedisplayS3 willflash(onlyif2motorshavebeenselected):leaf2beginsclosing.Operation WITHOUT Safecoder
Leaf2automaticallyacknowledgesthemechanicalstop.Operation WITH Safecoder
Leaf 2 automatically acknowledges themechanical stop. Itwill in any case be possible to stop leafmovement at anytime and in the desired point by sending anOPENA pulse.
7. OnthedisplayS4 flashes:leaf1beginsclosing.
Operation WITHOUT SafecoderLeaf1automaticallyacknowledgesthemechanicalstop
Operation WITH SafecoderLeaf1automaticallyacknowledgesthemechanicalstop.ItwillinanycasebepossibletostopleafmovementatanytimeandinthedesiredpointbysendinganOPENApulse.
Steps 6 and 7 with function FC :
FC = 01 (the limit switch determines the stopping of motion) the OPEN A pulse for stopping motion is ignored.
FC = 02 (the limit switch determines the start of deceleration) with Safecoder installed send an OPEN A pulse only after involving the closing limit switch, without Safecoder, make sure that the limit switch is engaged before the mechanical stop
8. S5 flashesonthedisplay:bothleavesopenatfullspeed.9. Theboardwillautomaticallyexittheprogrammingmenuandwilldisplaytheautomatedsystemstatus(00 )toconfirmthattheSETUPproce-
durehasbeencompletedcorrectly.Iftheprocedureisnotcompletedcorrectly,onthedisplayS0 willstartflashing,indicatingthatanewSETUPproceduremustbeperformed.
The deceleration spaces can be configured and modified from the display using the parameters r1 and r2 (see Advanced Programming) without repeating the SETUP.
26
2” x 2OK
>5”
OPEN A
2” x 2OK>5”
OPEN B
<5”
<5”
OPEN A
OPEN B
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Thecontrolboardfeaturesanintegrated2-channeldecodingsystem(DS,SLH/SLHLR,RC)calledOMNIDEC.Thissystemletsyoumemorise,usinganadditionalreceivermodule(onJ5connector)andmoreradiocontrolshavingdifferenttechnologybutthesamefrequency.Youcanthuscontrolbothtotalopening(OPENA)andpartialopening(OPENB).
The different types of radio code (DS, SLH/SLH LR, LC/RC) can coexist simultaneously on the two channels. You can enter up to 250 radio codes divided between OPEN A and OPEN B/CLOSE.
To use different encoding systems on the same channel, you must complete the learning of each encoding system and then repeat the procedure for the other one.
Other, more detailed, programming options are available using a PC/MAC (see dedicated PC/MAC instructions). For exam-ple, you can set an automatic OPEN command on the radio channel to command an automatic cycle (open-pause-close) regardless of the selected logic.
1. Pressandhold+(OPENAprogramming)or-(OPENB/CLOSEprogramming).2. Afterkeepingthebuttonpressedforabout5sec,thecorrespondingradioLED(DL11orDL12)willbegintoflashslowlyforabout20sec.3. Releasethebutton.4. SimultaneouslypressandholdP1andP2ontheSLH/SLHLRradiocontrol(onlyMASTERradiocontrol).5. TheradiocontrolLEDwillbegintoflash.6. Releasebothbuttons.7. EnsurethatLEDDL11orDL12ontheboardisstillflashing(seepoint2)and,whiletheradiocontrolLEDisstillflashing, press and hold the
desiredbuttonontheradiocontrol(theradiocontrolLEDwillgoonsteady).8. ThecorrespondingLEDontheboard(DL11orDL12)willgoonsteadyfor1secandthengooff,indicatingthatmemorisationhasbeen
completed.9. Releasetheradiocontrolbutton.10. Tocompletememorisation,pressthebuttonofthememorisedradiocontroltwiceinsuccession.Theautomatedsystemwillperforman
openingcycle.Ensure that there are no obstacles (by people or things) during the automated system movement.
8. MEMORISING THE RADIO CODE
8.1. Memorising the SLH/SLH LR radio controls
27
Master
<5”
MasterNEW
MasterNEW
NEW
2” x 2
Master
OK
>5” OK
OPEN A
OPEN B
>5”
>5”
>5”
OPEN A
OPEN B
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Toenableotherradiocontrolswiththesamesystemcode,youmusttransferthesystemcodeofthememorisedradiocontrolbuttontothebuttoncorrespondingtotheradiocontrolyouwishtoadd:1. SimultaneouslypressandholdP1andP2onthememorisedradiocontrol.2. TheradiocontrolLEDwillbegintoflash.3. Releasebothbuttons.4. Press and hold, whiletheradiocontrolLEDisstillflashing,thememorisedbutton(theradiocontrolLEDwillgoonsteady).5. Bringtheradiocontrolsclosetogether,pressandholdthecorrespondingbuttonoftheradiocontrolyouwishtoadd,andreleaseonlyafter
theradiocontrolLEDflashestwice,indicatingthatmemorisationhasbeencompleted.6. Pressthebuttonofthememorisedradiocontroltwiceinsuccession.Theautomatedsystemwillperformanopeningcycle.
Ensure that there are no obstacles (by people or things) during the automated system movement.
1. Pressandhold+(OPENAprogramming)or-(OPENB/CLOSEprogramming).2. Afterkeepingthebuttonpressedforabout5sec,thecorrespondingradioLED(DL11orDL12)willbegintoflashslowlyforabout20sec.3. Releasethebutton.4. DuringradioLEDflashing,pressthedesiredbuttonoftheLC/RC radio control.5. ThecorrespondingLEDontheboard(DL11orDL12)willgoonsteadyfor1second,indicatingthatmemorisationhasbeencompleted,and
willbeginflashingagainforanother20secduringwhichyoucanmemoriseanotherradiocontrol.6. Whenthe20sechaveelapsed,theLEDwillturnoff,indicatingthattheprocedurehasbeencompleted.7. Toaddotherradiocontrols,repeattheprocedurefrompoint
With LC/RCradiocontrolsyoucanremotelymemoriseotherradiocontrols,i.e.withoutworkingdirectlyontheboard,usingapreviouslyme-morisedradiocontrol.1. Takearadiocontrolthathasalreadybeenmemorisedononeofthe2channels(OPENAorOPENB/CLOSE)andmovetothevicinityof
theboard.2. SimultaneouslypressandholdP1andP2untilbothLEDsflashslowlyfor5sec.3. Within5seconds,pressthepreviouslymemorisedradiocontrolbuttontoactivatethelearningphasefortheselectedchannel.4. TheLEDontheboardcorrespondingtothechannelinlearningmodewillflashfor20secwithinwhichanotherradiocontrolcodeistransmit-
tedbypressingthebutton.5. ThecorrespondingLEDontheboardwillgoonsteadyfor2sec(indicatingthatmemorisationhasbeencompleted)andwillbeginflashing
againforanother20sec,duringwhichyoucanmemoriseotherradiocontrols,andwillfinallygooff.
8.2. Memorising LC/RC radio controls (433MHz ONLY)
8.3. Remote memorisation of LC/RC radio controls
28
OK
>5” OK
OPEN A
OPEN B
>5”
OPEN A
OPEN B
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1. On the DSradiocontrol,choosethedesiredON-OFFcombinationofthe12dip-switches.2. Pressandhold+(OPENAprogramming)or-(OPENB/CLOSEprogramming).3. Afterkeepingthebuttonpressedforabout5sec,thecorrespondingradioLED(DL11orDL12)willbegintoflashslowlyforabout20sec.4. Releasethebutton.5. DuringradioLEDflashing,pressthebuttonoftheradiocontrolyouwishtoprogram.6. ThecorrespondingLEDontheboard(DL11orDL12)willgoonsteadyfor1secondandthengooff,indicatingthatmemorisationhasbeen
completed.7. Toaddotherdifferentcodes,repeattheprocedurestartingfrompoint1.8. Toaddotherradiocontrolswiththesamecode,setthe12dip-switchesaccordingtothesamecombinationasthealreadymemorisedradio
control.
This operation CANNOT be reversed. This will delete ALL the radio control codes memorised as both OPEN A and OPEN B/CLOSE. The cancellation procedure is active only in gate status visualisation mode.
1. Press and hold - -/R2 .
2. Afterpressingforabout5sec,theDL16LEDbeginstoflashslowly;afteranother5secofslowflashingandholding,theLEDsDL16andDL17beginflashingmorerapidly(cancellationhasstarted).
3. Oncerapidflashinghasstopped,LEDsDL16andDL17willgoonsteady,confirmingthecancellationofalltheradiocodes(OPENAandOPENB/CLOSE)fromtheboardmemory.
4. Release--/R2
.TheLEDswillgooff,indicatingcorrectcancellation.
SELECTEDCODE
SELECTEDCODE
8.4. Memorising DS radio controls
8.5. DELETING the radio controls
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1. Removethecontainercoverwithascrewdriver.
2. Insertthesupportasshowninthefigurebelow.
3. Insertthebatteriesasshowninthefigurebelow.
Theemergencybatterieswillactivatetheautomatedsystemalsointheeventofapowercut.
The batteries (Lead 12V- 4 Ah/90 x70 x 108 mm) are nor-mally charged by a battery charger built into the board and start operating when a mains power cut occurs.
Theemergencybatteriescanbeinsertedinsidethecontainerofthecontrolboard,layingthemagainstaspecificsupport.
4. Connectthecablestothebatteries,respectingpolarity,andtheconnectortoterminalJ2oftheboard,asshowninthefigurebelow.
When changing to battery operation, the automated sys-tem operates in normal mode up to the minimum reserve charge (16V dc- below this threshold the board goes into “SLEEP” function until mains voltage is restored). In this condition the board operation is inhibited. The “SLEEP” function is shown by the board with a flashing every 4 seconds of the input LEDs and with the display switching OFF.
At changeover to battery operation, the flashing light flashes faster with respect to operation on power from the mains.
Other battery management programming possibilities are feasible by programming with a PC (see dedicated instructions).
Connect the connector to the batteries, only after you have connected the primary power supply connector to J1.
5. Re-fitthecoveronthecontainer.
9. CONNECTION TO EMERGENCY BATTERIES (OPTIONAL)
Fig.27
Fig.28
Fig.29
Fig.31
Fig.30
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Tocheckcorrectbatterycharge,controltheLEDreferringtothese-condarypowersupplyDL15:
LED DL15 during operation on the mains supply:LED on BatterychargedLEDflashing Batterybeingrecharged.
TheLEDcontinuestoflashuntilthebatteryhasrechargedsufficiently.
LED off Batterydischarged
LED DL15 during operation on the battery:LED on BatterychargedLEDflashing BatteryalmostflatLED off Batterydischarged
Operation of status signalling LEDs
LED Description ON(contact closed)
OFF(contact open)
DL1 IN1 -OPEN A Commandenabled Command disabled
DL2 IN2 - OPEN B Commandenabled Command disabled
DL3 IN3- STOP
Command disabled Commandenabled
DL4 IN4 - FSW OP
Safety devices disabled Safetydevicestripped
DL5 IN5 - FSW CL
Safety devices disabled Safetydevicestripped
DL6 FCA1 Opening travel-limit devices free
Openingtravel-limitdevicesengaged
DL7 FCC1 Closing travel-limitdevicesfree
Closing travel-limit devices engaged
DL8 FCA2 Opening travel-limit devices free
Openingtravel-limitdevicesengaged
DL9 FCC2 Closing travel-limitdevicesfree
Closing travel-limit devices engaged
DL10 ENC1 Flashingduringoperation
DL11 ENC2 Flashingduringoperation
10. START-UP
10.1. Leds checkAfteryouhavemadealltheconnectionsandpowereduptheboard,checkwiththetablebelowthestatusoftheLEDsinrelationtothestatusoftheinputs(conditionofautomatedsystemclosedandatrestinbold).CheckthestatusofthesignallingLEDsaspertablebelow.Notethat: Led ON =contactclosed Led OFF =contactopen
Once installation and programming is completed, ensure that thesystemisoperatingcorrectly.Beespecially careful that the safety devicesoperate correctly andensure that thesystemcomplieswithallcurrentsafety regulations.Closethecoverintheprovidedseatwithgasket.
10.2. Testing the automated system
Fig.31
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IncaseofERRORS(conditionsthatstopgateoperation)orALARMS(conditionsthatdonotcompromisegateoperation)thedisplaywillshowthenumbercorrespondingtothewarninginprogressbysimultaneouslypressing+ and -.
These warnings will disappear in the following cycle only if the situation causing them is removed.
When there is an ALARM the ERROR LED will begin to flash. By simultaneously pressing + and - the display will show the correspon-ding alarm number.
Thefollowingtablecontainsallthealarmsthatcanbeviewedonthedisplay.
N° ALARM Solution/Description
2 0 Obstacle onMOTOR 1 (only withencoder) Removeanypossibleobstacleonleaf1
2 1 Obstacle onMOTOR 2 (only withencoder) Removeanypossibleobstacleonleaf2
2 5 LOCK1outputshort-circuit Removethecauseoftheshort-circuit
2 6 LOCK2outputshort-circuit Removethecauseoftheshort-circuit
2 7 Nr.ofconsecutiveobstaclesexceededduringopening
Removeanypossibleobstacle.Shouldtheproblempersist,repeatSETUP
2 8 Nr.ofconsecutiveobstaclesexceededduringclosing
Removeanypossibleobstacle.Shouldtheproblempersist,repeatSETUP
3 0 XFradiocodememoryfull CanceltheradiocodesthatarenotbeingusedusingthePCprogramoruseanadditionalDEC/MI-NIDEC/RPmodule
3 1 Tamperingalarm MovementwasperformedwithautomationinstatusSt=00 or 01.Performamanoeuvrecycle.3 5 TIMERactiveandTIMERfunctionope-
rating: TIMERfunctionisoperating
4 0 Servicerequest Contacttheinstallerformaintenance
5 0 TheHOLDPOSITIONisoperating(ac-tiveonPC/MAC) HOLDPOSITIONfunctionisoperating
6 0 TIMERactiveanderrorinTIMERdata ReloadacorrectTIMERconfigurationwiththePC/MACprogramme
6 2 Loss of time and date on the board(onlyiftheTIMERisoperating) ReloadthetimeanddatewiththePC/MACprogrammeandreplacetheBAT1-CR2032bufferbattery
6 3 JOLLYTIMERisactivated JOLLYTIMERisenabledbyterminalboardJ3
6 4 TIMERDISABLEDisoperating TIMERisdisabledbyterminalboardJ3
When there is an ERROR the ERROR LED will go on steady. By simultaneously pressing + and - the display will show the corresponding error number.
Thefollowingtablecontainsalltheerrorsthatcanbeviewedonthedisplay.
N° ERROR SOLUTION
0 1 Boardbroken Replacetheboard
0 5 InvalidSETUP RepeatboardSETUP
0 8 BUS-2EASYdeviceerror Ensurethatnotwopairsofdeviceshavethesameaddress.
0 9 BUS-2EASY output short-circuit
Checktheconnectionsoftheconnectedandentered BUS-2EASYdevices
1 0 Motor1limitswitcherror Checkthelimitswitchconnectionsformotor1
1 1 Motor2limitswitcherror Checkthelimitswitchconnectionsformotor2
1 2 BUS-2EASY call EnsurethattheBUSdevicesareoperatingcorrectlyand,ifnecessary,repeatBUSdeviceacquisition
1 3 FAIL SAFE Checkthatthesafetydevices(photocells)areoperatingcorrectly
1 4 Configurationerror Checkthattheboardisconfiguredcorrectly(basicandadvancedprogramming)and,ifnecessary,repeatSETUP
1 7 Motor1encoderfault Checktheconnectionsorreplacemotor1encoder
1 8 Motor2encoderfault Checktheconnectionsorreplacemotor2encoder
1 9 Incorrectmemorydata RepeatBUS-2EASYdeviceentryand/orre-programtheboard
9 3 Highabsorptionat+24V Checkthatabsorptionbytheaccessoriesconnectediswithinpermittedlimits
11.2. Alarms
11. SIGNALLING ERRORS AND ALARMS
11.1. Errors
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Thistablesummarizesthefunctionlogics.
Foradetaileddescriptionofeachone,seethequeuedTables.
LOGIC Automated system status: stopped Automated system status: in motion Status: photocell involvement
E Semiautomatic AnOPENpulseopensthegateandthefollowingonewillcloseit
AnOPENpulsewhileopeningstopsand reopensduringclosing
Duringmotion,thephotocellsreverse
EP Semiautomatic,Step-by-Step
AnOPENpulseopensthegateandthefollowingonewillcloseit
AnOPENpulseduringmotionblocks Duringmotion,thephotocellsreverse
S AutomaticSafety
AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringpauseclosesandreversesduringmotion
Theclosingphotocellsreclosethegateduringpause;theymemoriseclosingduringopeningandimmediatelyreverseduringclosing
SA AutomaticSafetyreversingduringpause
AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringpausecloses;duringopeningithasnoeffect;itrever-sesduringclosing
Theclosingphotocellsresetthepausetime
SP AutomaticSafetyStep-by-Step
AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringpauseclosesandduringmotionblockstheoperation
Theclosingphotocellsreclosethegateduringpause;theymemoriseclosingduringopeningandimmediatelyreverseduringclosing
A1 Automatic1 AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringopeningisignored,duringpauseitrechargesthepausetimeandduringclosingitreopenstheleaves
Theclosingphotocellsreclosethegateduringpause;theymemoriseclosingduringopeningandimmediatelyreverseduringclosing
A Automatic AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringopeningisignored,duringpauseitrechargesthepausetimeandduringclosingitreopenstheleaves
Theclosingphotocellsrechargethepausetime
AP AutomaticStep-by-Step
AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime
AnOPENpulseduringopeningandduringpauseblockstheoperation;itreversesduringclosing
Theclosingphotocellsrechargethepausetime
At AutomaticTimer
AnOPENpulseopensthegateandclosesautomaticallyafterthepausetime.IfthecyclestartedwithanOPENinput,itopens,otherwiseitcloses
AnOPENpulseduringopeningisignored,duringpauseitresetsthepausetimeandduringclosingitreopenstheleaves
Theclosingphotocellsrechargethepausetime
b Semiautomatic“b”(OPEN-BinputsbecomeCLOSE)
Logicwithtwoseparatecommands:OPEN-Apulseopens;CLOSEpulsecloses
AnOPEN-Apulseduringclosingopens,aCLOSEpulseduringopeningcloses
Duringmotion,thephotocellsreverse
bC Mixed Logic(duringopening“b”,duringclosing“C”),(OPEN-BinputsbecomeCLOSE)
Logicwithtwoseparatecommands:OPEN-Apulseopens;aheldCLOSEpulse closes
AnOPEN-Apulseduringclosingopens,aCLOSEpulseduringopeningcloses
Duringmotion,thephotocellsreverse
C Dead-man(OPEN-B inputsbecomeCLOSE)
Logicwithtwoseparatecommands:aheldOPEN-Apulseopens;aheldCLOSE pulse closes
AnOPEN-Apulseduringclosingopens,aCLOSEpulseduringopeningcloses
Duringmotion,thephotocellsreverse
12. FUNCTION LOGICS
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ë1 if the cycle began with OPEN-B, opens totallyë2 operation can be modified by programming
ë3 it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
EP semi-automatic “step-by-step” logicpulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens opens partially no effect no effect (open disabled) no effect no effect (open disabled)
opening stops*ë1 stops* closes stops* reverses no effect
stops; opens at release
(open stops* - saves close)
open closesë1 closes no effect (open/close disabled) no effect no effect (close
disabled)no effect (open/close disabled)
closing stops* no effect stops* no effect reversesë2stops; opens at
release (open stops* - saves close)
*stopped restarts moving in the opposite direction.always closes after stop closes no effect (open/
close disabled)no effect (open
disabled)no effect (close
disabled)no effect
(open stops* - saves close)
pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens opens partially no effect no effect (open disabled) no effectno effect (open
disabled)
opening stops*ë1 stops* closes stops* reverses no effect
stops; opens at release
(open stops* - saves close)
open closesë1 closesno effect (open/close disabled) no effect
no effect (close disabled)
no effect (open/close disabled)
closing opens no effect stops* no effect reversesë2
stops; opens at release (open stops*
- saves close)
*stopped closesno effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open stops* - saves close)
E semi-automatic logic
pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect (open disabled) no effect no effect
(open disabled)
opening reverses closes stops* reverses
completes the opening, then
closes without pause time
stops;opens at release
(saves close)
open in pause closesë1 closes stops* no effect stops;
closes at release
closing opens no effect stops* no effectreversesë2; then
closes without pause time
stops;opens at release,
then closes without pause time
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close
disabled)
S automatic “safety” logic
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SA automatic “safety” with in-pause reversing logicpulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect (open disabled) no effect no effect (open
disabled)
opening no effectë1 no effect closes stops* reverses no effectstops; opens at
release (saves close)
open in pause closesë1 closes stops* no effect recharges
pause time (close disabled)
closing opens no effect stops* no effect reversesë2stops; opens
at release (saves close)
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close
disabled)
SP automatic “safety” “step-by-step” logicpulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect (open disabled) no effect no effect (open
disabled)
opening stops*ë1 stops* closes stops* reverses
completes the opening, then
closes without pause time
stops; opens at release, then closes
without pause time (open stops* - saves
close)open in pause closesë1 closes stops* no effect stops;
closes at release
closing stops* no effect stops* no effect reversesë2stops; opens
at release (saves close)
*stopped restarts moving in the opposite direction.always closes after stop closes no effect (open/
close disabled)no effect (open
disabled)no effect (close
disabled)no effect (open/close disabled)
A1 automatic1 logicpulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect
(open disabled) no effect no effect (open disabled)
opening no effectë1 no effect closes stops* ë2
completes the opening, then
closes without pause time
stops; opens at release, then closes
without pause time
open in pause
recharges pause timeë1
recharges pause time closes stops* no effect disables close; at
release closes
at the end of the pause time, closes at
release
closing opens no effect stops* no effect reversesë2
stops; opens at release, then closes
after pause time
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close
disabled)
ë1 if the cycle began with OPEN-B, opens totallyë2 operation can be modified by programming
ë3 it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
35
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ë1 if the cycle began with OPEN-B, opens totallyë2 operation can be modified by programming
ë3 it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
At automatic with timer function logicë3
pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect
(open disabled) no effect no effect (open disabled)
opening no effectë1 no effect closes stops* reverses no effectstops; opens
at release (saves close)
open in pause
recharges pause timeë1
recharges pause time closes stops* no effect recharges pause time
(close disabled)
closing opens no effect stops* no effect reversesë2stops; opens
at release (saves close)
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
AP automatic “step-by-step” logicpulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect (open disabled) no effect no effect (open
disabled)
opening stops*ë1 stops* closes stops* reverses (saves open) no effect
stops; opens at release
(open stops* - saves close)
open in pause stops* 1 stops* closes stops* no effect recharges
pause time (close disabled)
closing opens no effect stops* no effect reversesë2stops; opens at
release (open stops* - saves close)
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens; closes after pause time
opens partially; closes after pause
timeno effect no effect (open disabled) no effect no effect
(open disabled)
opening no effectë1 no effect closes stops* reverses no effectstops; opens at
release (saves close)
open in pause
recharges pause timeë1
recharges pause time closes stops* no effect recharges
pause time (close disabled)
closing opens no effect stops* no effect reversesë2stops; opens
at release (saves close)
*stopped closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
A automatic logic
36
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b semi-automatic “b” logic (open-b inputs become close)pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens no effect no effect(open disabled) no effect no effect (open
disabled)
opening no effect closes stops* reverses no effectstops; closes at
release (saves open/close)
open no effect closes no effect (open/close disabled) no effect no effect (close
disabled)no effect (open/close disabled)
closing opens no effect stops* no effect reversesë2stops; opens at release (saves
open/close)
*stopped opens closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
bC mixed logic: b in opening - c in closing (open-b inputs become close)pulses for opening / dead-man commands for closing pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens no effect no effect(open disabled) no effect no effect (open
disabled)
opening no effect closes stops* reverses no effectstops; closes at
release (saves open/close)
open no effect closes no effect (open/close disabled) no effect no effect (close
disabled)no effect (open/close disabled)
closing opens no effect stops* no effect reversesë2stops; opens at release (saves
open/close)
*stopped opens closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
C dead-man logic (open-b inputs become close)dead-man commands pulses
automated system status
open a open b close stop Fsw op Fsw cl Fsw cl/op
closed opens no effect no effect(open disabled) no effect no effect
(open disabled)
opening no effect closes stops* reverses no effectstops; closes at
release (saves open/close)
open no effect closes no effect (open/close disabled) no effect no effect (close
disabled)no effect (open/close disabled)
closing opens no effect stops* no effect reversesë2stops; opens at release (saves
open/close)
*stopped opens closes no effect (open/close disabled)
no effect (open disabled)
no effect (close disabled)
no effect (open/close disabled)
ë1 if the cycle began with OPEN-B, opens totallyë2 operation can be modified by programming
ë3 it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
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