Usermanual
Contents
1. AAC AAC B680H AUTOMATED SYSTEM The automated system consists of a white aluminium beam with reflectors optional signalling lights a covering compartment and steel upright profile Inside the compartment there is an operator consisting of the upright profile with a hydraulic unit and two plunging pistons fixed to it which by means of a rocker arm rotate the beam The latter remains balanced thanks to a balance spring fitted on one of the two plunging pistons The electronic control equipment is also housed on the upright inside a compartment and the whole is protected by the external covering compartment The system features an adjustable electronic anti crushing safety a device that guarantees stopping and locking of the beam in any position and a convenient manual release for use in case of black out or inefficiency 1 TECHNICAL SPECIFICATIONS 1 1 Summary table Pump capacity 3 2 l min max Compartment Dimensions See illustration Fig 8 LxHxP mm Weight body compartment kg 65 20 85 total Opening and closing time s 1 5 2mbeam including deceleration 6 opening 9 closing 8 m beam 1 2 Key Fig 5 Built in flashing lamp Left feed tube Electronic control equipment Release lock Oil filling cap Left plunging piston Right piston bleeder screw Left piston bleeder screw Hydraulic unit Covering compartment Right plunging piston Encoder Unit2. Lit opening and CLOSED for closing FIO disabled Activation of recognition of the OPEN and CLOSE input levels maintained command That is to say the board recognises the level if for example with OPEN held you press 4 level recognition mo EEF e iati Wo STOP when the latter is released the automated system will continue to open If Jo is MO status variation disabled the board commands a manoeuvre only if there is an input variation recognition 14 AAC AAC Activation of DEAD MAN opening command always pressed Releasing the OPEN command will stop operation ja active MZ disabled When this function is activated the OPEN command during opening will stop movement mZ If parameter Ub is I the system is ready for opening MZ If parameter IIIZ is a the system is ready for closing when opening it stops MIC disabled C mg When this function is activated the OPEN command during opening reverses movement mZ mZ If parameters US and Ub are MIC OPEN will have no effect during opening when opening it reverses MIC disabled co ae When this function is activated the OPEN command during pause stops operation ry mc If parameters I 1 and Ud are MIC OPEN resets the pause time 4 when in pause it stops MIO disabled co ca When this function is activated the OPEN command during pause causes closing mm mT panpe If parameters _ and Ud
3. output NC MO output NO mie NOTE if the output setting is II Failsafe keep the value set to MO Output 2 Output 2 signal type see Output 1 Output 2 Polarity Output 2 polarity see parameter regarding Output 1 Polarity Output 3 Output 3 signal type see Output 1 Output 3 Polarity Output 3 polarity see parameter regarding Output 1 Polarity Output 4 Output 4 signal type see Output 1 Output 4 Polarity Output 4 polarity see parameter regarding Output 1 Polarity Integrated flashing lamp operating mode Lets you choose between two operating modes for the integrated flashing lamp if present connected to output J15 m T e a L Traffic light mode steady green when paused open flashing red when moving steady red when closed e Flashing lamp mode flashing red when bar is moving off in all other cases Service request linked to the following two functions If activated at the end of the countdown which can be set with the two following Cycle Programming functions it activates the LAMP output for 4 sec every 30 sec service request It can be useful for setting programmed maintenance work al Active MO Disabled Cycle programming in thousands Is used to set a countdown of the system operation cycles the value can be set from 0 to 99 thousands of cycles The value displayed is updated with the succession of the cycles interacting with
4. E I active MZ disabled LOOP 1 commands opening and once completed it closes if disengaged useful in case of vehicle backing up with consecutive loops If disabled when LOOP 1 is disengaged it 4 Closes if LOOP1 clear does not close MO disabled When this function is activated an open or close command is only carried out after 4 active cH the safeties have been disengaged S MO disabled ie A D M A P function H i cH When this function is activated the result is operation of safeties compliant with French active regulations MC disabled 15 L o J g z ui ENGLISH AAC AAC T When this function is activated the CLOSING SAFETIES during closing stop and reverse i _ stops and reverses when movement when they are disengaged otherwise they reverse immediately disengaged MIZ reverses immediately a7 g i DO NOT CHANGE no sc cd DO NOT CHANGE nc cy DO NOT CHANGE nc an When this function is activated the LOOP1 commands are prioritised rather than the U active ae LOOP2 commands MO disabled HOLD CLOSE HOLD OPEN function When this function is activated the automated system will monitor the position of the beam m at set intervals see parameter H If the beam is not completely closed or completely aN open depending on the logical condition of the board the automated system will command 4 a CLOSE or OPEN movement to brin
5. the system will be recalibrated This will provide an updated frequency reading once you re enter the menu to consult the values of parameters rl or re a m Fa Loop 2 frequency selection This parameter lets you set an oscillation frequency specific to the loop connected to the Loop 2 input or lets the system choose the most adequate setting among the 4 available m H Automatic selection ee Se E a Frequency 1 2 3 4 Note When you exit the Advanced configuration menu after having changed the loop operation frequency setting the system will be recalibrated This will provide an updated frequency reading once you re enter the menu to consult the values of parameters rl or Fe 16 AAC AAC LOOP 1 holding time Is used to set presence time on loop 1 When this time has elapsed the board will self calibrate and signal loop clear LED DL3 off When the board is turned on an automatic no reset is carried out 5 minutes mO infinite 5j LOOP 2 holding time he Is used to set presence time on loop 2 When this time has elapsed the board will self calibrate and signal loop clear LED DL4 off When the board is turned on an automatic no reset is carried out 4 5 minutes mO infinite Loop 1 articulated lorry function This function lets you increase the level of sensitivity at the time of detection to allow correct detection even in case of very tall vehicles or during th
6. Automatic condo Dead man Custom Pause time Is effective only if an automatic logic is M chosen the value can be set from lI to SA sec in one second steps Next the display changes to minutes and tenths of a second separated by a decimal point and time is adjusted in 10 second steps up to the maximum value of 4 minutes e g if the display shows E 5 the pause time will be 2 minutes and 50 seconds Opening speed Adjusts the barrier opening speed mn Lt Minimum speed m L Maximum speed WARNING Setting an excessive speed could cause irreversible damage to the beam and barrier structure Closing speed Adjusts the barrier closing speed mr Lt Minimum speed m L Maximum speed WARNING Setting an excessive speed could cause irreversible damage to the bar and barrier structure Loop 1 Activating this parameter any loop that is connected to the Loop 1 input will serve as an OPEN function 4 Loop 1 enabled no Loop 1 disabled Note Should this function be disabled the detection status of the loop will in any case remain available on one of the two outputs if configured see parameters ol o4 in Advanced Configuration ENGLISH ENGLISH Activating this parameter any loop that is connected to the Loop 2 input will serve as a SAFETY CLOSE function 4 Loop 2 enabled no Loop 2 disabled see note regarding Loop 1 Loop 1 sensitivity Adjusts
7. aT a aT gl Le no no na no no no pa no no no no no no 5l o E o E o aT fe cc fo o Pte ce Se 05 05 05 05 BS 05 PY no no no no no no Advanced Configuration 5 ol pi Ol Ol ul pi The following table shows for each set of pre defined parameters the values that they will load in the board memory in advanced AS As ne Ta ne TS ne configuration nc 00 00 00 oo o0 00 AL 00 00 00 oo 00 ao 17 ENGLISH AAC 6 4 Expert default parameters Fig 4 o The following table contains the pre defined settings that characterize pona IEN the various operation logics F step A ai E P PA cn calc sul es oi Y Y N N Y N Y N ca a r J co N nI N A nr n an EO m g3 N N N N N N N N z e g4 NI N NI N N NI NIY T Eo os N N Y N N N N N a a D G 06 N N Y N N N N N i fo Tel e 7 N N N NI NI NI N N SEE af 08 N N N N N N N N 6 1 2 J3 o NUN N NUN NTN UN eg eeQeaeeian Ginaeteneneneneneetenl eae o N N N N N N N We N N N N N N N N a N N N Y Y N N N J N N N N N N N N 4 N N N Y Y Y Y N N N N NJ NI N IN IN 7 2 Setup Before being put into operation the E680 board requires a setup 5 N X a y N procedure
8. and 2 free The following table describes how to set the dip switches located inside the transmitter and receiver of the BUS photocells Addressing BUS photocell PAIRS DIP SWITCH Mah MN a SWE a lt ADDRESS gt fi DIP as Ea iad 1 Pair ON ON ON ON Single OPEN PULSE To allow operation of the installed BUS accessories store them on the board as described in paragraph 5 3 CLOSE photocells A 4 2 Terminal board J2 outputs OUT 1 Output 1 open collector GND terminal 13 The output can be set in one of the functions described in the Advanced Configuration rit par 6 The default value is U4 Beam OPEN or in PAUSE Maximum load 24 VDC with 100 mA OUT 2 Output 2 open collector GND terminal 15 The output can be set in one of the functions described in the Advanced Configuration rm par 6 The default value is 03 CLOSED BEAM Maximum load 24 VDC with 100 mA OUT 3 Output 3 open collector GND terminal 17 The output can be set in one of the functions described in the Advanced Configuration par 6 The default value is 3 WARNING LAMP Maximum load 24 VDC with 100 mA FAAC OUT 4 Relay output 4 terminals 19 20 21 The output can be set in one of the functions described in Advanced Configuration par gi 6 The default value is F BEAM ILLUMINATION Maximum load 24 VDC with 800 mA 4 3 Terminal board J3 external flashing lamp LAMP to these termin
9. system and prevents it from closing until it is disengaged like a normal OPEN pulse received through terminal board J1 terminal 3 The BUS communication system uses a self diagnostic function able to provide connection error signals or BUS accessories configuration error signal The display will show a flashing CC if there is a short circuit along the BUS line as shown in the figure To solve the problem it is necessary to carefully verify all the connections made I The display will show a flashing er as shown in the image on the side of the page should more than one pair of photocells have the same adress and in case of a calling or failsafe lj error Ensure that the settings are correct with reference to the indications given in paragraph 4 1 2 n The status of the BUS and related input signals can also be seen by analysing the two LEDs DL1 red and DL2 green which make it possible to immediately verify if BUS communication is active or if there is an error and if there are any active inputs or not The status of the LEDs can be verified in the following tables ie __ E DL1 DL2 2Easy BUS L o J g z ui ENGLISH FAAC DL1 LED description Red Disp Function ooe LA IZ At least one of the inputs safeties OPEN pulse is engaged or active No OPEN input is active and no safety device is engaged DL2 LED description Green Norma
10. the loop detection status if connected The other signals provided by the board diagnostics are described in the following table on Flashing 0 5 s Loop calibration in progress LED Status LOOP Status a a Rapid flashing Loop short circuit Slow flashing No loop 5s or loop interrupted O Two flashes every 5 s Non conforming loop heater or inductance out of range LOOP 1 LOOP 2 If one or both magnetic loops are not installed the loop detector following a first attempt to calibrate will keep the status LEDs flashing every 5 seconds as shown in the above table E 6 2 Expert Configuration FAAC 6 1 4 Adjusting sensitivity By adjusting the sensitivity of the loop detector you determine the variation of inductivity for each channel that a vehicle must cause in order to activate the corresponding detector output Sensitivity is adjusted separately for each channel using the two parameters 5 and Sc in Basic configuration 6 1 5 Making the loops The loop must be laid at least 15 cm from fixed metal objects at least 50 cm from moving metal objects and no more than 5 cm from the surface of the final paving Use a standard unipolar cable measuring 1 5 mm in diameter if the cable is laid below ground level directly it must have double insulation Make a preferably square or rectangular loop by preparing a PVC cable duct or by tracing the paving as shown in figure 16 the corners must be cut at
11. the sensitivity of the vehicle detection loop mw oe TERE Lit Minimum sensitivity m t Maximum sensitivity Loop 2 sensitivity Adjusts the sensitivity of the vehicle detection loop mr ie ae Lit Minimum sensitivity m Ly Maximum sensitivity Motor movement Using the function provided by this para meter makes it possible to manually move the barrier bar operating as dead man Pressing will open the automated system pressing causes the automated system to close or pressing open Ci pressing close AUTOMATED SYSTEM STATUS This allows you to choose whether to quit the programme and save the data g s quit and save the data MO quit without saving the data On quitting the programme press the F key to display the status of the automated system mi Lit Beam closed m LE Beam open m GE r Ly Stationary ready to close Stationary ready to open Automated system paused Opening Closing Failsafe in progress 2 EASY device verification in progress Pre flashing then OPENS Pre flashing then CLOSES EMERGENCY Open You can go to St at any time by simultaneously pressing F and AAC Displaying of the automated system status SE is extremely oe important for the installing maintenance technician in order to distinguish the logical processes that the board carries out during movement If for example the automated system status is CLOSED the display MUST read OU When the OPEN command i
12. the value of AL 99 decrements of MC correspond to 1 F decrement of Mt The function can be used together with AL i to verify the use of the system and for use of Service Request C3 a eror rmon o oe Cycle programming in hundreds of thousands Is used to set a countdown of the system operation cycles the value can be set from 0 to 99 hundreds of thousands of cycles The value displayed is updated with the succession of the cycles interacting with the value of mc 1 decrement of AL corresponds to 99 decrements of NC The function can be used together with mc to verify the use of the system and for use of Service Request AUTOMATED SYSTEM STATUS This allows you to choose whether to quit the programme and save the data gs quit and save the data M0 quit without saving the data On quitting the programme press the F key to display again the status of the automated system You can go to St at any time by simultaneously pressing F and 6 1 Configuring the loop detector The E680 board features an integrated metal mass detector for the induction detection of vehicles 6 1 1 Specifications e Galvanic separation between the detector electronics and the loop electronics e Automatic alignment of the system immediately following activation Continuous resetting of the frequency drifts Sensitivity independent of loop inductivity e Adjustment of the loop work frequency with automa
13. AC 9 REVERSING THE OPENING DIRECTION The opening direction of the barrier is usually determined at the time of installation with the installation of the spring guide the spring and the preload adjustment ring nut on the piston located on the beam downward travel side Should it be necessary to change the opening direction proceed as follows 3 Release the operator as shown in paragraph 6 and place the beam in vertical position then lock the operator again Remove the beam as shown in Fig 17 Remove the device securing the plunging piston to the rocker arm as shown in Fig 13 Loosen the pre load ring nut completely remove it and then remove the balancing spring and spring guide reversing the order described in paragraph 4 4 and in Fig 14 regarding the mechanical installation of the automated system Refit the plunging piston in the correct fixing hole Proceed to remove the fixing screw on the piston on the opposite side Release the automated system turn the rocker arm 90 and re insert in order the spring guide the balancing spring and the the ring nut in the plunging piston installed on the new closing side according to the order described in Fig 14 Once this is done refit the plunging piston on the rocker arm Reinstall the bar following the instructions in Fig 17 Balance the system once again following the procedure described in paragraphs 4 5 and 4 6 Lock the operator once agai
14. LY M2 M1A 10 Digital output connector Signalling lamp connector Detection loop connector Motor connector BUS 2Easy connector Beam movement encoder connector E DLO Fig 1 9 DL10 DL14 Inputs status LEDs see paragraph 4 1 DL15 Released bar signal Decoder Minidec RP RP2 radio board connector m DL18 DL17 DL8B EDL7 DL6g gDL5 Released bar detection connector Emergency battery connector J J J J J J J J J J J m DL16 Continuous power voltage connector L1 L2 L3 L4 L5 L6 L7 is is 2 3 4 5 6 7 10 11 12 13 14 an oo Mi ENCODER DISP1 A be De _ 88g SW4 F 1 sw sW2 W3 19 J USB connector for firmware upgrade DL3 DL4 J15 Integrated flashing traffic light connector EDL10 EDL11 EDL12 EDL13 EDL14 v zwza t tot NtMY aa a aon 3 E752 2 J sEsgeggese zg z ogtns Y otoo gt gt G O 90 8 lt m o O O o oo Ja aA oO Ww died N 3 TECHNICAL SPECIFICATIONS Mains 90 240 V 6 10 Pause time Programmable from 0 seconds to 4 1 power connected to minutes voltage switching power supply Work time Programmable from 0 to 4 minutes Continuous 36 V Motor power Programmable on 50 levels power voltage Motor speed P bl 10 level Absorbed power 270W Pior ci aeecr Accessories 24
15. N CLOSING reverses to no effect opening operation no effect BLOCKED closes closes opening and closing inhibited Tab 1 c no effect closes immediately after opening is completed closes immediately reverses to opening inhibits closing LOGIC E PULSES AUTOMATED CLOSED opens fapening inhibited blocks immediately blocks reverses to operation closing operation no effect closes closing inhibited immediately blocks WHEN CLOSING reverses to no effect 3 opening operation no effect BLOCKED closes closes opening and closing inhibited gt In brackets the effects on the other inputs when the pulse is active 20 no effect no effect closing inhibited immediately reverses to opening no effect closing inhibited resets pause time immediately reverses to opening opens and closes after the pause time no effect resets pause time immediately reverses to opening closes at the end of pause opens and closes after the pause time immediately reverses to opening resets pause time closing inhibited immediately reverses to opening no effect closes immediately after opening is completed closes when disengaged immediately reverses to opening closes again once opening is completed no effect closing inhibited no effect closing inhibited immediately reverses to opening no effect closing inhibited AAT AAC
16. SAFE safety ALM Emergency contact N C terminal 7 means any device Fig 26 connection of no relay safety device e g switch which if activated in a situation of emergency will open the barrier until the contact is restored When activated this input has priority over any other command If emergency safety devices are not connected jumper A terminals ALM and GND Fig 26 Fig 23 connection of one pair of closing photocells with FAILSAFE safety enabled in addition to making the connection as shown in the diagram it is necessary to set in Advanced ENGLISH AAC 4 1 2 Connecting BUS photocells Up to 8 pairs of photocells can be connected to the E680 control board using BUS technology The connection must be made in parallel on terminal board J6 using a single power communication line as shown in Fig 27 E The 8 pairs of photocells feature the following functions Pairs of closing photocells max 7 Pairs of OPEN pulse photocells max 1 After positioning the BUS technology photocells it is necessary to proceed with selecting the address for each pair using various combinations of the DIP SWITCHES located on each photocell A Set the SAME DIP SWITCH ADDRESS chosen both on the transmitter and receiver of the same pair BUS photocells do not require a matching polarity connection Ensure that two or more pairs of photocells do not have the same address If no BUS accessories are used leave terminals 1
17. SW STOP P Ao ALARM o 1i co vc GND 24 OUT1 24 OUT2 24 OUT3 24 NO COM amp GND slejay Pail ll a Nl ia cr 8 Si Ie ll i a aa i a A ec Rk a ae IZCOC6OTSTZTOTSTPLET CIT TTOT6 8 LIAOG TE OPEN CLOSE FSW STOP ALARM ool i vc GND 24 OUT1 24 OUT2 24 OUT3 F24 NO COM amp GND IZOZ6TSTLZLTOTSLTVLET ZL TTO 6 SLIOGTLE siejoy Dl a ll Ni i pl i oe Na Sa i ee i i I le Ee ke ee Nt 19 L o a g z m ENGLISH AAC 11 OPERATING LOGICS TABLE Tab t a LOGIC A PULSES AUTOMATED svS starus OPena close sto opens and closes no effect CLOSED after the pacos opening inhibited no effect FAAC LOOP 2 opens and closes after the pause no effect time immediately blocks no effect reverses to j no effect no effect no effect closing operation resets pause OPEN IN PAUSE resets closes aes time ene operation closing inhibited immediately blocks immediately WHEN CLOSING reverses to no effect reverses to opening operation opening no effect opens and closes no effect no effect BLOCKED a nP closing inhibited fer the pause closing inhibited Tab 1 b LOGIC A1 PULSES AUTOMATED opens and closes no effect CLOSED after the paisg no effect opening inhibited immediately blocks no effect Pm to operation OPEN IN PAUSE resets closes Docs pause time operation immediately blocks WHE
18. Tab 1 d PULSES AUTOMATED opens and once no effect opening is CLOSED opens no effect opening inhibited no effect completed closes if no effect disengaged closes i block coses immediately after OCKS immediately no effect opening is operation no effect no effect after opening is completed complete no effect no effect no effect pom closing inhibited closing inhibited closing inhibited Prevents closing blocks and when Immediately blocks and when WHEN CLOSING reverses ig no effect DOCKS disengaged Sh once opening disengaged o opening operation continues to completed closes if Continues to disengaged d once no effect no effect ar oe peningis no effect BLOCKED opens clea inficited closing inhibited com closes if closing inhibited isengage Tab 1 e LOGIC PA PULSES SMBs oma eoe eon oor oora opens and once opens and closes no effect Anenind i pening is CLOSED after tne pause no effect opening inhibited no effect completed closes if no effect disengaged cones block coses immediately OCKS immediately no effect after opening is operation no eect no effect after opening is completed completed resets pause OPEN IN PAUSE resets pause time closes aes time resets pause time coses waen operation closing inhibited gag blocks and when immediately blocks and when immediately reverses to opening WHEN CLOSING reverses to no effect ae disengaged and once opening k disengaged opening com
19. V Programmability aaa levels for greater flexibility power supply M 800 mA Rapid connector 1 5 pin connector for Minidec radio board current F 7 s Programmable 4 programmable outputs in 19 different i se sesh ase cle temperature Z selfrestori Specifications Deceleration management encoder rorecHon uses SeS nng multi function display BUS technology and BUILT IN METAL MASS DETECTOR USB connector for firmware upgrade AAT AAC 4 ELECTRICAL CONNECTIONS Fig 2 Released beam Em Integrated TEE flashing traffic light Encoder OUT4 7 ae Ww Ss Relais LOOP 6 Z ajo ca N mMm w O ols thE S IE St Els ZJO 2Easy 5 ND 24 N D A DIN D A z LAMP Z Y lolala S Jiao Le 1 2 W aa aa aa i a a a E LN I 1 2 3 4 6 7 8 9 10 11 12 131415161718 19 20 21 22 23 24 25 26 27 BUS ae To connect the photocells and safety gt gt devices refer l to paragraph 4 1 1 4 1 Terminal board J1 inputs GND terminals 8 9 Accessories power supply minus OPEN Open command N O terminal 3 means any pulse 24 terminals 10 11 Accessories power supply plus generator e g button which by closing a contact commands opening and or closing of the barrier CLOSE Close command N O terminal 4 means any pulse generator e g button which by closing a contact commands closing of the barrier g E FS
20. W Safety contact when closing N C terminal 5 the purpose 4 1 1 Connecting the safety devices of the closing safeties is to protect the area affected by the movement The E680 control board features an input for closing safety devices of the barrier during the closing phase reversing its motion They which trip during closing of the automated system provided to protect The maximum load of the accessories is 800mA To calculate absorption refer to the instructions included with the individual accessories never trip during the opening cycle the gate area from the risk of impact The closing Safeties if engaged when the automated system is open These devices must use a signal with N C contact and must be prevent the closing movement connected in series to the relay photocells that may be installed on If CLOSE safety devices are not connected jumper the system as shown in Fig 23 to Fig 26 A terminals FSWand GND Fig 26 and leave the FAILSAFE function parameter D in Advanced Configuration set on the default value disabled STP STOP contact N C terminal 6 means any device e g i cm button which by opening a contact can stop movement of the Configuration OI ILI automated system Fig 24 connection of one pair of closing photocells without FAILSAFE A If STOP safety devices are not connected jumper safety terminals STOP and GND Fig 26 Fig 25 connection of two pairs of closing photocells without FAIL
21. a 45 angle to avoid cable breaks Lay the cable using the number of windings shown in the table The two ends of the cable must be twisted together at least 20 times per metre from the loop to the E680 board Avoid splicing a cable if necessary weld the conductors and seal the splice using a heat shrinking sheath and keep it separate from the mains power lines 8 mm Nr of Windings Loop Perimeter less than 3 m from 3 to 4m 30 50 mm from 6 to 12 m from 4 to 6 m more than 12 m P EXPERT configuration is used only in the event that operation logics customisation is already stored A system are fully understood Before making changes at this level be certain that the steps you wish to change and their effect on the automated rit IM E Changing the third level parameters involves indicating the _ value on the _ _ parameter of the first level programming To access EXPERT configuration press F and holding it press for approximately 10 seconds The use of F and in this menu is the same as in the other two programming levels EXPERT CONFIGURATION 10 sec Display Function Setting I If this function is activated automatic closing occurs after the pause time 3 automatic closing MO disabled mJ If this function is activated two distinct input operation mode is obtained OPEN for 2 input operation
22. alled jumper Boards should be inserted and removed ONLY after having cut off electrical power 4 9 Connector J12 Emergency battery This connector is for connecting a battery optional for ensuring automated system operation in case of temporary cut off of the main power supply 4 10 Connector J13 36VDC Power Supply This factory wired connector powers the E680 board 4 11 Connector J15 flashing traffic light This connector is for connecting the flashing traffic light built into the barrier head The flashing traffic light visually signals barrier movement and if needed regulate access to the property using traffic light signals 5 PROGRAMMING The E680 board features 3 programming levels that make it entirely configurable and allow it to adapt the logics to any use Each of the three levels can be accessed through a specific key combination AAC Changes to the configuration parameters become Ce effective immediately while final storage occurs only upon exiting configuration and returning to the automated system status display If the equipment is powered down before returning to the automated system Status display all changes made will be lost 5 1 Basic configuration To perform BASIC programming 1 Press and hold button F the name of the first function is displayed 2 Release the button the function value is displayed and can be modified using the and buttons 3 Press and hold F again the name of
23. als you can connect a 24VDC FAACLED external flashing lamp The integrated flashing traffic light must be connected independently to connector J15 E 4 4 Terminal board J4 loop detector LOOP 1 magnetic loop LOOP 1 OPEN terminals 24 25 for OPENING LOOP 2 magnetic loop LOOP 2 SAFETY CLOSE terminals 26 27 for SAFETY CLOSING The 24V FAACLIGHT with incandescent lamp cannot be connected to the J3 connector 4 5 Connector J5 Motor Rapid connector for connecting the motor 4 6 Connector J7 Encoder The B680H barrier is equipped with a device for detecting the opening angle bar position to ensure greater anti crushing safety thanks to the possibility of reversing the direction of movement the moment in which an obstacle is detected This device interfaces with the board through connector J7 4 7 Connector J10 Radio Used for the rapid connection of the Minidec Decoder and RP RP2 Receivers see Fig 28 If a 2 channel receiver is used like the RP2 it will be possible to directly command automated system OPEN and CLOSE from a 2 channel radio control If a 1 channel receiver is used like the RP it will only be possible to command OPEN Connect the accessory with the components side facing the main strip of the board A 4 8 Connector J11 Beam break out sensor Designed for connecting the break out sensor for the pivoting beam if present The sensor is optional If it is not present do not remove the inst
24. are I OPEN resets the pause time a when in pause it closes MIC disabled EJ LO When this function is activated the OPEN command during closing stops operation otherwise it reverses movement i I stops MIO reverses Activation of DEAD MAN closing command always pressed Releasing the CLOSE command will stop operation H active IQ disabled When this function is activated the CLOSE command has priority over OPEN otherwise OPEN has priority over CLOSE a active MO disabled When this function is activated the CLOSE command commands closing when released As long as CLOSE is activated the unit stays in closing pre flashing 4 closes when released MIC closes immediately When this function is activated the CLOSE command during opening stops operation otherwise the CLOSE command commands reverse immediately or when opening is com pleted see also parameter IH 4 CLOSE stops MIC CLOSE reverses When this function is activated and if parameter i is MD the CLOSE command commands immediate closing at the end of the opening cycle stores CLOSE If parameters a lJ and 4 are MIZ CLOSE commands immediate closing J closes at the end of opening MIC immediate closing When this function is activated with the system blocked by a STOP a next OPEN moves in the opposite direction If parameter I5 is MO it always closes moves in the opposite dire
25. ated system 4 2 Walling in the foundation plate e Assemble the foundation plate as shown in Fig 9 ref e Set the foundation plinth as shown in Fig 9 ref e Wall in the foundation plate as shown in Fig 9 ref providing for one or more sheaths for the passage of the electrical cables ce must be placed on one side of the space provided at the base of the barrier see Fig 9 Use a level to ensure that the plate is perfectly horizontal Wait for the cement to set For dimensional reasons the cable passage sheaths 4 3 Electrical preparations Following the instructions shown in Fig 7 prepare the ducts to make all the control board electrical connections with the chosen accessories Always separate the power cables from the control and safety cables button receiver photocells etc Use the cable diameters shown in Fig 7 and referred to in the following key Barrier mod B680H Photocells Key button Flashing lamp Radio receiver Magnetic Loops 4 4 Mechanical installation Fix the upright profile onto the foundation plate using the four provided nuts Fig 11 Remember that the hydraulic unit must usually face the inside of the property Prepare the operator for manual operation as shown in paragraph 6 Fig 18 Manual Operation Remove and set aside the venting screw as shown in Fig 12 ref e Set the rocker arm horizontally then remove as shown in Fig 13 ref the uppe
26. cooling fan Box connecting the main power supply Right feed tube Switching power supply 1 3 Key Fig 6 Bearing structure Securing plate Mechanical stops Spring guide Rocker arm Balance spring Drive shaft Preload adjustment ring nut 2 ELECTRICAL PREPARATIONS standard system See details in the illustration Fig 7 3 BARRIER DIMENSIONS oF All the dimensions contained in this manual are expressed in mm For barrier dimensions refer to Fig 8 The covering compartment is the same for both models while the bar dimensions differ as shown in detail at bar S and bar L Fig 8 4 INSTALLING THE AUTOMATED SYSTEM 4 1 Preliminary checks For the safety and correct operation of the automated system ensure that the following conditions are met e When in motion the beam must not encounter obstacles or flying power cables e Thecharacteristics ofthe ground must guarantee sufficient solidity of the foundation plinth e No tubes or electrical cables should be present in the plinth digging area e If the barrier body is exposed to vehicle transit provide for adequate protection against accidental impact when possible e Ensure that there is an efficient earth plate for connecting the upright profile Wallin the foundation plate so as to allow easy access to E the barrier door The foundation plinth must be installed keeping in mind the characteristics of the ground to ensure perfect stability of the autom
27. ction MC always closes When this function is activated during closing the CLOSING SAFETIES stop and allow motion to resume when they are disengaged otherwise they immediately reverse opening I _ closes when disengaged MO immediate reverse When this function is activated the CLOSING SAFETIES command closing when they are cl disengaged see also parameter IB 4 Closing when FSW is disengaged MC disabled q When this function is activated and if parameter l is 5 the unit will wait for the opening cycle to end before executing the closing command provided by the CLOSING SAFETIES closes at the end of opening MC disabled When this function is activated during closing LOOP2 stops and allows motion to resume when it is disengaged otherwise it immediately reverses opening bs closes when disengaged MO immediate reverse When this function is activated LOOP2 commands closing when it is disengaged see also 5 parameter Z h 3 closes if LOOP2 is clear MQ disabled J POR i When this function is activated and if parameter cl is the unit will wait for the opening cycle to end before executing the closing command provided by LOOP2 4 closes at the end of opening MC disabled When this function is activated in case of a blackout once electrical power has been restored if an OPEN command is not active the automated system recloses immediately
28. de the cord Should the bar lights still not turn on reverse the connection polarity FAAC 10 3 Installation of a receiver antenna In case a receiver antenna should need to be attached to the barrier it can be secured to the flashing integrated traffic light connector or to the plastic bracket if the optional flashing traffic light connector should not have been installed as indicated in the diagrams in Fig 32 11 REPAIRS For repairs contact an authorised FAAC Service Centre ag o J g z ui ENGLISH AAT AAC E680 CONTROL BOARD 1 WARNINGS 2 DESCRIPTION OF THE COMPONENTS Warning Before carrying out any work on the control board Signalling Programming display connections maintenance etc always BUS Device status cut off the electrical power BUS Devioe status BUS status see paragraph 5 3 install a differential magnetothermic switch with a suitable activation threshold upstream from the system LOOP 1 status LOOP 2 status e always separate the power cables from the control and safety cables button receiver photocells etc e avoid any electrical disturbance using separate sheaths or a shielded cable with the shield connected to the earth Board failure signal Encoder status D D D D D D D D D O 15 DL16 Battery power signal E a E E E E DL17 Radio channel 1 activity DL18 Radio channel 2 activity Input signal connector k EE E EEE POWER SUPP
29. during which the automated system determines the rotation 7 N M N N N N N N angle of the beam and consequently its travel These measurements B N Y N N N N N N allow correct management of motor decelerations and acceleration ramps g N N N Y Y N N N d 20 N Y N Y Y Y Y N At first start up the board will signal the need for a setup gt N y N Y y Y Y N E cycle by displaying a flashing 5 22 N N N N N N N N For setup proceed as follows FEI N N N Y y N N N Using the parameter Mt in Basic configuration mode check that ay N N N N N N N N the opening closing movement corresponds to the pressed key if not go to the motor wiring and reverse the two conductors 25 NANE N Oe N L1 and L3 as shown in Fig 14 Ref 26 N N N N N N N N Place the automated system in closing position using the N N N N N N N N parameter Mt in Basic configuration mode or using the release device as shown in paragraphs 6 and 7 on page 4 28 N N N N N N N N e Press and hold SW4 SETUP programming key until the aq N N N N N N N N automated system begins a slow opening movement On the display S will flash indicating the start of the procedure 30 N N N N N Y Y N e Once the maximum opening position is reached the automated 7 START UP 7 1 Verifying the diagnostic LEDs Before starting up the board it is necessary to verify that the status of the diagnostic LEDs corresponds to the logic Said status must coincide with the indications
30. e transit of a tractor and trailer J enabled MO disabled Loop 2 articulated lorry function This function lets you increase the level of sensitivity at the time of detection to allow correct detection even in case of very tall vehicles or during the transit of a tractor and trailer enabled mO disabled Work time time out Maximum work time of the automated system before the motor stops if the open or close m position is not reached The value can be set from I to 59 sec in one second steps Next the display changes to minutes and tenths of a second separated by a decimal point and time is adjusted in 10 second steps up to the maximum value of 4 minutes STATUS OF THE AUTOMATED SYSTEM Exit from programming storage of data and automated system status display L o J g z ui 6 3 Pre Defined Parameter Sets The table below shows for each set of pre defined parameters the r E o OS o OS ce 25 25 30 28 30 values that they will load in the board memory FO a i BL 25 29 30 28 S0 40 Basic Configuration rn n ne no no no no no no me oc i ee Ale Oo Oe 03 04 BS 06 e a 3g 32 J 32 bu FS no no no no no no E S E E 5 ol 00 00 oo oo 00 ao PA cu cu cu cu 20 20 P D D D na no no no no no oe e oe 0 fe 03 fee o 5e IO o5 05 04 oe 02 P 2 na na nO no no no Ll no no no no no no 5 aT gl
31. f the safety devices 8 1 Topping up the oil Check the amount of oil in the tank every 6 months The level must be included between the two notches on the inspection rod To top up unscrew the filler cap Fig 12 ref and pour oil up to the indicated level Use only FAAC HP OIL 8 2 Air bleeding FAAC products are delivered already bled of any air in the hydraulic circuit Maintenance operations replacing spare parts e g connection pipes or careless transport can cause entry of air in the hydraulic circuit which in turn can cause operator irregular movement or reduce its torque Should beam movement be irregular release the air from the hydraulic system following the instructions below Electrically operate the beam e When opening is completed slightly loosen and tighten the bleeder screw of the piston with the balance spring Fig 5 ref D e When closing is completed slightly loosen and tighten the bleeder screw of the piston without the balance spring Fig 5 ref If necessary repeat the operation until regular movement of the beam is obtained 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 A If the parameters r 0 and x L 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 Eg A
32. g the beam back to the correct position for a maximum of 3 seconds If when the 3 seconds have elapsed the bar does not go back to completely closed open position e g because the bar is blocked the function will be disabled until the next OPEN command is received HOLD CLOSE HOLD OPEN function activation time c This parameter indicates the time interval between two activations of the HOLD OPEN cO HOLD CLOSE function expressed in minutes from UU to 94 Loop 1 frequency reading This menu item lets you verify the reading of the current oscillation frequency of the loop connected to the Loop 1 input The indication should be read as follows First digit tens kHz Second digit units kHz Decimal point hundreds kHz m For example the reading TE refers to a reading of 105 kHz Read only parameter Loop 2 frequency reading J This menu item lets you verify the reading of the current oscillation frequency of the loop connected to the Loop 2 input see parameter I for explanations on how to read the indicated value Read only parameter Loop 1 frequency selection This parameter lets you set an oscillation frequency specific to the loop connected to the Loop 1 input or lets the system choose the most adequate setting among the 4 available ci mM Automatic selection Hp 3 4 Frequency 1 2 3 4 Note When you exit the Advanced configuration menu after having changed the loop operation frequency setting
33. if any Table 2 refers to the balance spring for bar lengths equal to or shorter than 5 m and featuring a profile corresponding to the one in Fig 8 on page 25 ref S profile Table 3 refers to the balance spring for bar lengths equal to or longer than 5 m and featuring a profile corresponding to the one in Fig 8 on page 25 ref L profile Figure 30 contains the key for identifying the fixing holes based on the number indicated in the tables Table 2 Bar length 4 m with 5 m with Installed coupling coupling accessories jum op 2 4 os 6 2 o J g z ui Lights Foot ie ESS Table 3 Bar length _ gt 5m without Installed accessories coupling Lights Lights Foot Skirt Lights Foot Skirt Foot 2 3 3 3 23 ENGLISH FAAC FAAc 13 DEFAULT SELECTION TABLES J parameter The purpose of the two following tables is to determine depending on the length of the bar and the number and type of accessories installed the correct default value to set in the first Basic programming function Table 4 refers to the balance spring for bar lengths equal to or shorter than 5 m and featuring a profile corresponding to the one in Fig 8 on page 25 ref S profile Table 5 refers to the balance spring for bar lengths equal to or longer than 5 m and featuring a profile corresponding to the one in Fig 8 on page 25 ref L profile The key to symbols for identifyi
34. in Fig 4 situation which reflects that of an automated system that is CLOSED and ready to open re The FSW STOPand ALARM LEDs are safety inputs with NC contacts therefore the related LEDs must be ON when the automated system is at rest and go off when the device connected is engaged 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 E The BUS status mustcorrespond to DL2 green on fixed and DL1 red off The BUS menu of the Basic configuration must display the indication shown to the side confirming the fact that there are no engaged photocells or active pulse generators system will stop automatically Next the automated system will start the beam closing movement The display will flash the indication 53 Once the closing position has been reached the automated system will stop automatically and the display will go back to showing the indication of the current status of the automated system UU closed 8 TESTING THE AUTOMATED SYSTEM Once programming is completed ensure that the system is operating correctly Verify especially the correct regulation of the automated system power and correct operation of the safety devices it is connected to and verify that the automated system conforms to current safety standards 18 AAC 9 MASTER SLAVE CONFIGURATION If the in
35. in paragraph 6 3 Unlike the other parameters the value of step dF is not stored thus allowing access to the menu through a neutral condition which is the one displayed every time the configuration menu is opened If you do not wish to load any set of pre defined parameters leave E mM parameter 3c on LI and press F to go on to the next parameter Setting a set of pre defined parameters that does not correspond to the actual configuration of the barrier could cause irreversible damage to the automated system in particular if the default corresponds to a beam length shorter than the actual one 5 3 BUS accessories menu The E680 board is designed to connect up to 8 pairs of BUS photocells For the bus devices connected to the E680 board to be detected and managed by it they must be stored on the board To do this proceed as follows e cut off power from the board e install and program the accessories using the desired address depending on the function you wish to use as described in paragraph 4 1 2 e power up the board e access Basic Configuration as described in paragraph 5 1 once programming step bu is reached MIO will be displayed indicating that here are no stored bus devices e to perform entry simultaneously press and hold the and buttons for at least 5 seconds during this time the writing MO will flash e once the procedure is completed 3 will appear as confirmation when and a
36. length of the beam and the presence of any accessories that may be applied to it see paragraph 11 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 To balance the barrier proceed as follows Install the bar and all related accessories on the barrier structure as required by the final configuration of the system Ensure that the operator is released see paragraph 6 Ensure that the plunging pistons are secured on the rocker arm according to the instructions in paragraph 11 in Table 2 or Table 3 depending on the installed beam model S or L respectively Manually move the bar to the 45 position and verify it remains stationary If the bar tends to open turn the spring preload ring nut anti clockwise Fig 16 ref 0 if it tends to close turn the ring e nut clockwise Fig 16 ref 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 E Forall automatic system connections and testing refer to the section dedicated to the electronic equipment paragraph 1 on page 6 and following 5 2 Testing the automated system Once installation has been completed apply the danger sign sticker ref Fig 29 to the t
37. lly active LED on even if there are no devices connected C s BUS 2EASY line short circuited flash every 2 5 sec Rapid An error has been detected in the BUS 2EASY flashing connection repeat the acquisition procedure If the error persists check that e the system does not have more than one accessory with the same address see also instructions regarding the accessories make sure there is no calling error number of devices connected is greater or less than that stored during setup Pre flashing time Pre flashing time expressed in seconds mi ie LIL minimum pre flashing m II maximum pre flashing E Sensitivity of obstacle during closing o This determines the sensitivity to an obstacle before reversing takes place a 0il Minimum sensitivity P ee I Maximum sensitivity Output 1 Setting this function makes it possible to modify the signal type of output 1 allowing high connection flexibility with external devices AW Lt N Failsafe TYPE 1 BEAM ILLUMINATION output active when beam closed disabled with bar open or paused intermittent when moving Use only with output 6 Advanced Configuration To access Advanced Configuration press F and while holding it also press 4 e when is released the number of the first available function DISABLED will appear Beam CLOSED Beam OPEN or in PAUSE it goes off during closing pre flashing Beam in OPENING MOVEMENT including pre flashi
38. n following the instructions in paragraph 7 e Reverse the motor cable connection as shown in point of Fig 14 10 ACCESSORIES 10 1 Installing a photocell The barrier is equipped with a lateral covering profile fitted in the compartment opening under which there are holes for containing Safebeam BUS or wireless photocells To install the photocells proceed as follows 1 Remove the barrier compartment 2 Match the holes on the barrier compartment with the holes on the corresponding aluminium covering profile on the photocell installation side ref is used to fix the device ref is used for the passage of the its power cable Determine the hole size according to the size of the cables and of the fixing screws used 3 Connect the photocell following the provided diagram 4 Fix the photocell to the lateral profile as shown in Fig 22 10 2 Installing the bar light kit Installation of an LED bar light kit increases visibility of the bar Proceed to install following the instructions contained in Fig 31 and securing the connection cable according to the path shown using the openings for inserting the tie straps located on the upright Connect the kit to output Out 4 on the electronic board and configure it according to the available switching on modes refer to the section regarding the electronic board paragraph 6 on page 12 E Ensure that the two connector jacks are actually in contact with the conductors insi
39. ng Beam in CLOSING MOVEMENT including pre flashing Beam STATIONARY Beam in EMERGENCY mode LOOP1 engaged LOOP2 engaged OPEN for E680 slave CLOSE for E680 slave Beam RELEASED Not used e when F is also released the value is displayed and can be changed using and e pressing F again and holding it the name of the next parameter will be displayed when released the value can be changed using and e once the last function has been reached pressing F makes it possible to either save the previously changed parameters or exit without saving the changes the display will go back to showing the status of the inputs ADVANCED CONFIGURATION Q Q Opening motor power Adjusts the thrust of the motor during the ope ning phase rir LI SU Minimum power Maximum power Closing motor power Adjusts the thrust of the motor during the closing phase mw Lt 50 Minimum power Maximum power Pre flashing This parameter is used to activate the flashing lamp for 5 seconds before the selected movement no R Fi Li oP PA disabled before each movement before each closing movement before each opening movement only at the end of the pause 12 J 5 l Not used FCA engaged FCC engaged Not used WARNING LAMP on during opening and pause flashing when closing off when the automated system is closed Output 1 Polarity Allows setting of the output polarity
40. ng the fixing holes based on the number indicated in the tables is shown in Fig 30 Table 4 Bar length 4 m with coupling 5 m with coupling Installed accessories TREZ Lights Foot Skirt Lights Foot EN 1 Table 5 YNA lef TE MWNT Bar length gt 5m without Installed accessories coupling Lights al a 3 Lights Skirt Lights Foot Skirt Lights Foot Skirt Foot gt Ae k V1 V i 24
41. ning and closing inhibited opens and closes after the pause time BLOCKED ENGLISH Tab 1 h LOGIC C AUTOMATED SYSTEM STATUS CLOSED no effect bii blocks operation blocks operation no effect closing inhibited WHEN CLOSING BLOCKED opens gt In brackets the effects on the other inputs when the pulse is active immediately reverses to opening blocks operation no effect opening and 22 opening inhibited closing inhibited FAAC PULSES LOOP 2 opens and closes after the pause time no effect no effect closes immediately after opening is complete no effect no effect resets pause time closing inhibited closes when resets pause time disengaged reverses to opening and clo ses after pause time immediately reverses to opening immediately reverses to opening opens and closes after the pause time no effect closing inhibited no effect closing inhibited PULSES LOOP 2 no effect no effect blocks operation no effect no effect closing inhibited no effect closing inhibited blocks operation blocks operation no effect closing inhibited no effect closing inhibited no effect closing inhibited FAAC FAAC 12 BALANCING TABLES The following two tables indicate the fixing position of the pistons on the rocker arm in relation to the length of the beam and the presence of accessories secured to it
42. op of the upright profile Proceed to ensure correct operation of the automated system and all the accessories connected to it FAAC 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 6 MANUAL OPERATION Should manual operation of the barrier be required due to electrical power cut offs or automated system inefficiency use the release device with the provided key The provided unlocking key is either triangular Fig 18 ref or customised Fig 18 ref optional Insert the unlocking key in the lock and turn the key anticlockwise until it clicks into place as shown in Fig 18 e Open or close the beam manually E 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 To avoid an accidental pulse opening the barrier during this operation before activating the locking system cut off all power to the system triangular unlocking key standard turn the key clockwise until it stops and then remove it Fig 18 ref customised unlocking key optional turn the key clockwise until it stops and then remove it Fig 18 ref 8 MAINTENANCE When performing six month maintenance always check the correct balancing of the system and the correct operation o
43. pleted closes if i close disengaged close d once opens and closes no effect no effect OP cain g is no effect BLOCKED after ihe pause arco nriotedj closing inhibited completed closes if closing inhibited Tab 1 f LOGIC Cn PULSES AUTOMATED immedetely block imide immediately locks immediately no effect after opening is operation no effect no effect after opening is complete complete closes when disengaged no effect no effect no effect closes when closing inhibite closing inhibite closing inhibite isengage losing inhibited Closes losing inhibited closing inhibited no sifect d d immediately reverses to immediately immediately WHEN CLOSING reverses to no effect ae opening and reverses to reverses to opening p pause time opening opening no effect no effect no effect ener oo oi ea inPieitsay Closing inhibited closing inhibited gt In brackets the effects on the other inputs when the pulse is active 21 AAC Tab 1 g LOGIC CA AUTOMATED SYSTEM STATUS opens and closes after the pause time no effect opening inhibited CLOSED closes immediately after opening is complete closes no effect closes MAINTAINED COMMANDS EORR blocks no effect operation blocks OPEN IN PAUSE operation resets pause time immediately reverses to opening blocks WHEN CLOSING operation no effect ope
44. r fixing pin of the piston on the bar side and insert on it the spring guide and balance spring as shown in Fig 14 followed by the preload adjustment ring nut paying attention to the direction it must be inserted in see Fig 14 ref L o J g z ui ENGLISH AAC e Secure the piston without spring in the same hole shown above CS With the barrier open the spring must NOT be compressed Install the beam and its fixing pocket using the provided screws as shown in Fig 17 ref from to the rubber profile of the beam must face the closing direction E Do not grease the fixing screw of the bar If the application requires a segmented bar once the first segment and fixing pocket have been assembled close the automatic system lock it and follow the instructions for additional segment assembly as shown in Fig 20 ref from to e Adjust the opening and closing mechanical stops as shown in Fig 15 and tighten the lock nut Ensure that the beam is balanced following the instructions contained in paragraphs 4 5 and 4 6 The compartment should be fixed as shown in the sequence in Fig 21 when all mechanical installations wiring and start up have been completed 4 5 Fixing the plunging pistons Barrier balancing is obtained by correctly adjusting the spring preload ring nut see next paragraph but also by setting the two plunging pistons in the most suitable position This position is determined by the
45. re released the display will show the current status of the BUS devices or MO again if there are no connected BUS devices The following image Fig 3 shows the correspondence of the various display segments to the different types of BUS devices that can be connected to the system Bus status always on FSW CL FSW OPEN FSW CL BUS photocells placed to protect the gate closing area OPEN BUS photocells used as OPEN pulse generators Fig 3 XX 11 AAC From the display of the status of the BUS devices pressing the key enables the types of BUS devices present to be verified For example the following photograph shows safety devices present during closing and a pair of photocells functioning as open pulse LIE 6 For the automated system to operate correctly the status of the segments of the left hand digit must correspond to the automated system at rest and without pulse generators or or safeties engaged When the CLOSE photocells are engaged the bottom segments will go on as shown in the image to the side If the pair of OPEN pulse generator photocells is engaged the display will show the configuration of segments shown in the image on the side of the page in which the corresponding vertical segment is on and will remain like this until the photocells are disengaged If involved the pair of OPEN pulse generator photocells l commands opening of the automated
46. s received the display will change to 09 if pre flashing is enabled or directly to 05 the OPENING movement to then m display once the position of gate OPEN is reached Example of a status sequence displayed starting from a closed barrier 00 Beam closed 05 Opening OI Beam open OH Pause 06 Closing Th no Iq i e sequence does not include statuses _ and which correspond to pre flashing when opening and closing respectively 5 2 Changing the predefined parameters set The E680 board features six sets of pre defined configurations that allow rapid adapting to the size of the beam installed making it the starting point for a fine adjustment of the parameters To select one of the available configurations you must change the parameter E mw dF from the pre set value II neutral condition to the value corresponding to the barrier configuration beam length type and number of accessories installed shown in Tables 4 or 5 on page rit 24 e g choose default Q4 for a beam measuring 5 m in length with foot and lights To complete configuration it is necessary to exit the Basic Configuration menu by pressing F until parameter JE is reached or by pressing F and 10 AAC This operation changes the value of the parameters 30 C ECLeEr and SC in Basic configuration and FE a OZ in Advanced configuration setting them on the default values as shown in the tables
47. stallation contemplates the gate area being covered by two opposing barriers a Master Slave configuration may be used for the boards which will activate the two barriers This configuration permits connection of the command and safety signals to be simplified they are all connected to just one board also ensuring perfect synchronisation of the two automated systems MASTER device means the board to which all the pulse generators and safety devices are connected SLAVE device means the board which is controlled by the MASTER through pulse inputs while the safety inputs are bypassed The electrical connections and the parameters needed for correct functioning of the system in a Master Slave configuration are shown in the following diagram i 24 Master 2 OUT _ device T 24 tr OUT2 _ aa amp 24 P2 pa 4 OUT3 3 Py F24 gaJ Ie 3 NO 2 i Pa no 8 COM amp N GND J1 Slave w OPEN device gt CLOSE FSW ea gt STOP bm E x ALARM PA 0l a _ ghey m T o9 X J2 03 4 0 4 FAAC 10 INTERLOCK The interlock function enables two in line barriers to be managed see fig so that opening of one is subordinated to closing of the other Operation can be one way or two way For in line barriers set OUT1 INTERLOCK to parameter 18 see 2 LEVEL PROG on both boards and connect them as in figure OPEN CLOSE F
48. the following function is displayed and so on The last function St lets you choose whether to save the configuration made 4 or exit without saving O Later the display will resume showing the automated system status You can go to St at any time To exit programming ce simultaneously press F and BASIC CONFIGURATION Neutral condition Minimum mass Maximum mass Before automated system start up you must set the correct value directly correlated to the length of the beam and the number and type of accessories installed To determine said value refer to Tables 4 and 5 on page 24 WARNING Setting a mass default cay lower than the one actually installed could cause irreversible damage to the bar and barrier structure If you do not wish to make any programming mN changes leave the value OL otherwise selecting a value involves loading the chosen predefined parameters set see paragraph 5 2 Currently loaded default This menu indicates the currently loaded default setting Given that parameter dF has EE as the predefined value in order to provide a neutral access condition to the parameters using the value in this menu makes it possible to identify the currently configured default setting Read only parameter BUS accessories menu For functions associated with this parameter see paragraph 5 3 Operating logics Automatic Automatic 1 Semi automatic Parking Automatic parking Condo
49. tic selection Occupied loop message with LED display e Loop status addressable on outputs OUT 1 OUT 2 OUT 3 and OUT 4 6 1 2 Connection Connect the detection loops according to the layout on page 7 Fig 2 Terminals 24 25 for LOOP 1 loop with gate opening function Terminals 26 27 for LOOP 2 loop with closing and or safety when closing function For more information on the effect of the loop signals on the automated system refer to the logics tables in paragraph 10 OPERATING LOGICS TABLE To enable the functionality of the connected loops enter Basic configuration mode and set parameters L and L Cony consistently with the number and type of connected loops If only one loop is installed enable only the corresponding programming step The loop detector operating status is indicated by the DL3 and DL4 status LEDs 13 ENGLISH ENGLISH AAC 6 1 3 Calibration Each time the E680 board is powered the integrated loop detector performs a calibration of the connected loops Therefore you can perform calibration by cutting off power to the board for at least 10 seconds and then reconnecting it From the barrier status display you can press at any time to calibrate the loop connected to the LOOP 1 input or to calibrate the loop connected to the LOOP2 input Calibration is highlighted by the board diagnostics by flashing LEDs DL3 and DL4 and when calibration is completed they will indicate
Download Pdf Manuals
Related Search
Usermanual user manual usermanual.beretta.com usermanual wiki usermanual_e2epw user manuals online user manual pdf user manual ippsa