Beninca Heady 24vHeady 24v User Guide for Beninca Heady 24vBeninca Heady 24v Control Panel User guide
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Beninca Heady 24vHeady 24v is a control unit for 1 24VDC motor, for single or sliding doors. It has a built-in 433.92 MHz configurable radio receiver (rolling-code or programmable + rolling-code) and supports up to 64 rolling code transmitters. The control unit is equipped with the Autoset function to automatically set the main functioning values based on the type of installation. It has several inputs for limit switches, command inlets, photocells, and other safety devices. The output supply for accessories is 24VDC 500mA max. The control unit has a protection level of IP54 and an operating temperature range of -20°C / +70°C.
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L8542221 07/2011 rev 1 HEADY 24 UNIONE NAZIONALE COSTRUTTORI AUTOMATISMI PER CANCELLI, PORTE SERRANDE ED AFFINI BOX C E B D A F Rimuovere le 4 viti A , quindi rimuovere il coperchio B Sul fondo del contenitore centrale sono presenti 4 predisposizioni (C) da rompere con un cacciavite. Posare il fondo alla parete e segnare i 4 punti di foratura. Eseguire 4 fori ed inserire 4 tasselli (E), fissare la centrale con le 4 viti D. Tasselli e viti sono fornite in dotazione. Enlever les 4 vis A puis enlever le couvercle B Au fond du boîtier de la centrale se trouvent 4 ouvertures spéciales (C) qu’il faut creuser à l’aide d’un tournevis. Appuyer le fond du boîtier contre le mur et marquer avec 4 signes les points de perçage. Percer les 4 trous et insérer les 4 chevilles (E), fixer la centrale avec Per il passaggio dei cavi di collegamento è prevista sul fondo les 4 vis D. Les chevilles et les vis sont fournies en dotation. del contenitore una sede (F) da aprire con un cacciavite per il Pour passer les câbles de branchement, une ouverture spéciale (F) fissaggio di un raccordo per tubo corrugato. à creuser à l’aide d’un tournevis a été prévue dans la partie basse du boîtier pour fixer le raccord du tuyau annelé. Remove the 4 screws A and then remove cover B There are 4 set-ups (C) present on the base of the control unit Quite los 4 tornillos A, entonces quite la cubierta B container, which must be broken using a screwdriver. En el fondo de la caja central hay 4 predisposiciones (C) que Place the base on the wall and mark the 4 drilling points. hay que romper con un destornillador. Make the 4 holes and insert the 4 plugs (E), fix the control unit Apoye el fondo a la pared y marque los 4 puntos de perforación. with the 4 screws D. Plugs and screws are supplied. There is a seat (F) on the base of the container for the passage of Realice los 4 agujeros e introduzca los 4 tacos (E), fije la central the connection cables. This must be opened using a screwdriver con los 4 tornillos D. Se proporcionan los tacos y los tornillos. in order to fix a fitting for the corrugated pipe. Para el pasaje de los cables de conexión está previsto en el fondo de la caja un alojamiento (F) que hay que abrir con un destorEntfernen Sie die 4 Schrauben A und nehmen Sie Deckel B ab. nillador para la fijación de un racor para tubo corrugado. Im Boden des Hauptgehäuses befinden sich 4 vorbereitete Öffnungen (C), die mit einem Schraubenzieher aufzubrechen sind. Wykręć śruby A i ściągnij pokrywę B. Halten Sie den Boden an die Wand und zeichnen Sie die 4 BohŚrubokrętem zrób 4 otwory (C)na tylnej ściance skrzynki. Przyłóż rungen an. Führen Sie die 4 Bohrungen aus und setzen Sie 4 Dübel (E) ein. skrzynkę do ściany i zaznacz 4 miejsca na otwory. Wywierć otFixieren Sie die Steuerung mit den 4 Schrauben D. Dübel und wory, wsadź 4 kołki(E), przykręć skrzynkę wkrętami (D). Schrauben werden mitgeliefert. Kołki i wkręty są w zestawie. Na dolnej ścianie skrzynki jest mieZur Einführung der Anschlusskabel befindet sich im Boden des Ge- jsce do wprowadzenia przewodów. Śrubokrętem należy zrobić häuses eine Halterung (F) für die Befestigung eines Wellrohranschlus- tam otwór na dławik. ses, die mithilfe eines Schraubenziehers geöffnet werden muss. 1 F1:1.25AT (230V) F1:2AT (115V) N L ANT SHIELD ANT 31 32 - + F1 T 2A RADIO 24Vac Code ____ U11 ENC - COM/ENC + P.P. 23 24 25 26 PED STOP PHOTC PHOTO SWC2 (-) SWO2/ENC2 (+) SWC1 LAMP 24Vdc SCA Photo Test 2CH SERL SWO1/ENC1 M2 COM/ENC+ M1 9 10 11 12 13 14 15 16 17 18 19 20 24Vac/dc 500mA max 1 2 3 4 5 6 3 2 ENC + SWO2/ENC2 SWO1/ENC1 Collegamento ENCODER ENCODER WIRING 23 24 25 26 + s - + s - M1 M2 ENC - 9 10 11 12 13 14 15 16 17 18 19 21 3+3 x 0.5mm2 max 10m 3 test1:on 24Vac 11 12 COM 9 10 13 TX1 test2:ON PHOTO 18 24Vac 11 12 COM 9 10 13 TX2 RX1 PHOT-C 19 RX2 4 SCA 2CH SERVICE/ZONE LIGHT 2CH:0ff TST1:0FF serl:0N TST1:0FF serl:0FF TST2:0FF 2CH:0FF TST2:0FF 2CH:0N TST1:0FF serl:0FF TST2:0FF 9 10 11 12 9 10 11 12 9 10 11 12 L Relè 24Vac Service/Zone Light 230Vac N 4 EC Declaration of conformity Declaration pursuant to Directives 2004/108/EC(EMC); 2006/95/EC(LVD) Manufacturer: Automatismi Benincà SpA Address: Via Capitello, 45 - 36066 Sandrigo (VI) - Italy Declares that the product: Command central for 1 24Vdc motor, for single or sliding doors: HEADY 24 is compliant with the conditions of the following EC Directives: • DIRECTIVE 2004/108/EC OF THE EUROPEAN PARLIAMENT AND COUNCIL of December 15 2004 regarding the approximation of the legislations of the member States relative to electromagnetic compatibility and that repeals directive 89/336/CEE, according to the following concurred norms: EN 61000-6-2:2005, EN 61000-6-3:2007. • DIRECTIVE 2006/95/EC OF THE EUROPEAN PARLIAMENT AND THE COUNCIL of December 12 2006 concerning the approximation of the legislations of the member States relative to electrical material destined to be used within certain voltage limits, according to the following concurred regulations: EN 60335-1:2002 + A1:2004 + A11:2004 + A12:2006 + A2:2006 + A13:2008; EN 60335-2-103:2003. if applicable : • DIRECTIVE 1999/5/EC OF THE EUROPEAN PARLIAMENT AND THE COUNCIL of March 9 1999 regarding radio devices and terminal and telecommunications devices and the reciprocal recognisances of their conformity, according to the following concurred regulations: ETSI EN 301 489-3 V1.4.1 (2002) + ETSI EN 301 489-1 V1.4.1 (2002) + ETSI EN 300 220-3 V1.1.1 (2000) + EN 60950-1 (2001) Benincà Luigi, Legal manager. Sandrigo, 02/11/2010. WARNINGS This manual has been especially written to be use by qualified fitters. None of the information provide in this manual can be considered as being of interest for the end users. Preserve this manual for future needs. The technician has to furnish all the information related to the step by step function, the manual and the emergency function of the operator, and to deliver the manual to the final user. Foresee on the supply net an onnipolar switch or selector with distance of the contacts equal or superior to 3 mms. Verify that of the electrical system there is an awry differential interrupter and overcurrent protection. Some typologies of installation require the connection of the shutter to be link at a conductive mass of the ground according to the regulations in force. ; 12 The electrical installation and the operating logic must comply with the regulations in force. The leads fed with different voltages must be physically separate, or they must be suitably insulated with additional insulation of at least 1 mm. The leads must be secured with an additional fixture near the terminals. During installation, maintenance and repair, interrupt the power supply before opening the lid to access the electrical parts Check all the connections again before switching on the power. The unused N.C. inputs must be bridged. The descriptions and the present illustrations in this manual are not binding. Leaving the essential characteristics of the product unchanged, the manufacturer reserves himself the right to bring any change of technical, constructive or commercial character without undertaking himself to update the present publication. TECHNICAL DATA Contol unit supply 24 Vdc Power supply 230 Vac 50/60 Hz or 115Vac 50/60Hz according to the version Output supply 1/2 motor 24Vdc Maximum motor current 2.5+2.5 A Output supply accessories 24Vdc 500mA max. Protection level IP54 Operating temp. -20°C / +70°C Radio receiver built in 433,92 MHz confgurabile (rolling-code or programmable + rolling-code) Rolling code transmitters supported 64 HEADY 24 CONTROL UNIT AUTOSET FUNCTION IMPORTANT: The control unit is equipped with the Autoset function to automatically set the main functioning values based on the type of installation. The AUTOSET function must be repeated at every function parameter change or upon change of automation conditions. See the AUTO menu for further information. WIRE DIAGRAM Wire connections shown in Fig. 1 are described hereunder: Terminal No. Function Description 1-2 Motor 1 Connection, motor 1: 24VDC 2.5A max 3-4 Motor 2 Connection, motor 2: 24VDC 2.55A max 5-6 Flashing light Connection, flashing light 24VDC 15W max. 9-10 SCA/ PHOTO TEST/ 2 CH Normally Open, voltage-free contact, configurable as open gate indicator light, photocell test or second radio channel (see Fig. 4). For use as “Open gate indicator” the TEST1 and TEST2 logics must be OFF For use as photocell test it is sufficient to activate one or both TEST logics and connect the photocells as indicated in Fig.3. 11-12 24 Vac/dc Output, accessory power supply, 24VAC/0.5A max. IMPORTANT: If the battery charger board is installed, the output (without mains power connected) has a 24Vdc polarised voltage. Make sure the devices are correctly connected (i.e. 11:+24Vdc / 12:-0Vdc). 13-25 COM/ENC+ Common for limit switch and all the command inlets or encoder power supply. 14 SWO1/ENC1 Motor 1 OPEN limit switch input (N.C. contact) or Motor 1 Encoder connection. 15 SWC1 Motor 1 CLOSE limit switch input, (N.C. Contact) 16 SWO2/ENC2 Motor 2 OPEN limit switch input, (N.C. Contact) or Motor 2 Encoder connection. 17 SWC2 Motor 2 CLOSE limit switch input, (N.C. Contact) 18 PHOTO/BAR Input, photocell activated in both opening and closing phases As an alternative, the PHOTO input can be used to connect a safety edge (see BAR logics). 19 PHOTC Input, photocell activated in closing phase only (Normally closed contact) 20 STOP Input, STOP push-button (Normally closed contact) 23 PED Input, pedestrian push-button (N.O. (Normally Open) contact). It controls the total opening, motor 1. 24 Step-by-Step Input, step-by-step push button (Normally open contact) 26 ENC- Input for GND Encoder connection (see Fig.2). 31-32 Antenna Connection to the built-in radio receiver card (31-signal/32-screen). +/- 24VAC/dc Input, 24VAC/24VDC power supply. In case of use of plug batteries connect the battery charging card as indicated in the specific installation instructions. 13 U11 C ONF I G U RAT I ON MEMORY Extractable Eprom Memory. Contains all the control unit configurations (logics, parameters, etc.), including the radiotransmitters. In case of faults it is possible to extract Eprom and insert it into a different control unit, avoiding reprogramming. ENCODER WIRING In case the motor is with Encoder and one wished to connect it to the control unit, carry out the connections indicated in Fig.2, in this case the SWO1 and SWO2 inputs may not be used as Limit switch inputs. It is not possible to use the Encoder and the closure Limit switch simultaneously. Leave SWC1 and SWC2 shorted. TO CHECK CONNECTIONS 1) Cut-off power supply. 2) Manually release the wings, move them to approx. half-stroke and lock them again. 3) Reset power supply. 4) Send a step-by-step control signal by pressing the <-> push-button. 5) The leeaves must move in OPENING. In case this does not happen, it is sufficient to invert among them the motor run wires. (1<>2 for M1 motor, and 3<>4 for M2 motor) and, if used, the relative Limit switch inputs (14<>15 for M1 motor, and 16<>17 for M2 motor). PROGRAMMING The programming of the various functions of the control unit is carried out using the LCD display on the control unit and setting the desired values in the programming menus described below. The parameters menu allows you to assign a numerical value to a function, in the same way as a regulating trimmer. The logic menu allows you to activate or deactivate a function, in the same way as setting a dip-switch. Other special functions follow the parameters and logic menus and may vary depending on the type of control unit or the software release. TO ACCESS PROGRAMMING: 1 – Press the button <PG>, the display goes to the first menu, Parameters “PAR”. 2 – With the <+> or <-> button, select the menu you want (PAR>LOG>RAD>NMAN>MACI>RES>AUTO>CODE). 3- Press the button <PG>, the display shows the first function available on the menu. 4 - With the <+> or <-> button, select the function you want. 5 - Press the button <PG>, the display shows the value currently set for the function selected. 6 - With the <+> or <-> button, select the value you intend to assign to the function. 7 - Press the button <PG>, the display shows the signal “PRG” which indicates that programming has been completed. NOTES: Simultaneously pressing <+> and <-> from inside a function menu allows you to return to the previous menu without making any changes. Hold down the <+> key or the <-> key to accelerate the increase/decrease of the values. After waiting 120s the control unit quits programming mode and switches off the display. When the board is switched on, the software version is displayed for around 5 sec Hold down the <+> key or the <-> key to accelerate the increase/decrease of the values. PARAMETERS, LOGIC AND SPECIAL FUNCTIONS The tables below describe the individual functions available in the control unit. PARAMETERS (PAR) MENU 14 FUNCTION MIN-MAX-(Default) TCA Automatic closing time. Active only with logic “TCA”=ON. At the end of the set time the control unit orders a closing manoeuvre. TM1 Operating time, motor 1. The operating time is adjusted at normal speed during motor 1 opening and closing phases. See Paragraph “Adjustment of the gate leaf speed”. By setting the value to 0, the operation is performed with around 2 seconds of pick-up and then the movement is carried on at reduced speed for the entire stroke. 0-99-(5s) TM2 Operating time, motor 2. The operating time is adjusted at normal speed during motor 2 opening and closing phases. See Paragraph “Adjustment of the gate leaf speed”. By setting the value to 0, the operation is performed with around 2 seconds of pick-up and then the movement is carried on at reduced speed for the entire stroke. 0-99-(5s) PMo1 The anti-crash device* (amperometric sensor) operation is adjusted in the opening phase, at normal speed - Motor 1. 1-99-(50%)** PMC1 The anti-crash device* (amperometric sensor) operation is adjusted in the closing phase, at normal speed - Motor 1. 1-99-(50%)** 1-240-(40s) MEMO PMo2 The anti-crash device* (amperometric sensor) operation is adjusted in the opening phase, at normal speed - Motor 2. 1-99-(50%)** PMc2 The anti-crash device* (amperometric sensor) operation is adjusted in the closing phase, at normal speed - Motor 2. 1-99-(50%)** TDMo Mot.2 opening delay time. Regulates the delay time of motor 2 on opening with respect to motor 1 0-15-(2s) TDMC Mot.1 closing delay time Regulates the delay time of motor 1 on closing with respect to motor 2 0-40-(3s) SLD1 Adjusts motor 1 speed during slowing phases. Value expressed in percentage of normal functioning speed. 30-70 (40%) SLD2 Adjusts motor 2 speed during slowing phases. Value expressed in percentage of normal functioning speed. 30-70 (40%) Pso1 The anti-crash device* (amperometric sensor) operation is adjusted in the opening phase, at reduced speed - Motor 1. 1-99-(20%)** Psc1 The anti-crash device* (amperometric sensor) operation is adjusted in the closing phase, at reduced speed - Motor 1. 1-99-(20%)** Pso2 The anti-crash device* (amperometric sensor) operation is adjusted in the opening phase, at reduced speed - Motor 2. 1-99-(20%)** Psc2 The anti-crash device* (amperometric sensor) operation is adjusted in the closing phase, at reduced speed - Motor 2. 1-99-(20%)** SeaU The intervention threshold of the anti-crashing device (Encoder) during the phase at normal speed is adjusted.* 0:Off-1:minimum sensitivity - 99: maximum sensitivity 0-99-(0%) SEAR The intervention threshold of the anti-crashing device (Encoder) during braking is adjusted *. 0:Off-1:minimum sensitivity - 99: maximum sensitivity 0-99-(0%) * WARNING: AN INCORRECT SETTING OF THESE PARAMETERS MAY RESULT IN AN HAZARD. COMPLY WITH REGULATIONS IN FORCE! With motors without limit switch and/or encoder it adjusts the sensitivity of the sensor which causes arrest during slowing phase. ** 1: minimum force/torque - 99: maximum force/torque LOGIC (LOG) MENU FUNCTION ON-OFF-(Default) TCA Enables or disables automatic closing On: automatic closing enabled Off: automatic closing disabled (ON) IbL Enables or disables condominium function. On: condominium function enabled. The step-by-step impulse or transmitter impulse has no effect during the opening phase. Off: condominium function disabled. (OFF) SCL Enables or disables rapid closing On: rapid closure is enabled. With open gate, or in the opening phase, the activation of the photocell causes the automatic closure 3sec after the total opening of the gate. It is activated only with TCA:ON Off: rapid closing disabled. (OFF) PP Selects the operating mode of the ”Step by step button” and of the transmitter. On: Operation: OPEN > CLOSE > OPEN > Off: Operation: OPEN > STOP > CLOSE > STOP > (OFF) Enables or disables pre-blinking. On: Pre-blinking enabled. Blinking is activated 3s before the motor starts. Off: Pre-blinking disabled. (OFF) Blco Enables or disables the block function in opening. On: Block function enabled. To use only with motors equipped with Limit switch. After the intervention of the opening Limit switch the control unit delays arrest by about 0.5s, so to allow a better strike of the shutter on the stop locks. Off: Block function disabled (OFF) Blc Enables or disables the block function in closing. On: Block function enabled. To use only with motors equipped with Limit switch. After the intervention of the opening Limit switch the control unit delays arrest by about 0.5s, so to allow a better strike of the shutter on the stop locks. Off: Block function disabled. (OFF) PRE MEMO 15 1mot Select the 1/2 motors operating mode: On: Only motor 1 operating. Off: Both motors operating. (OFF) Cvar The code programmable transmitters is enabled or disabled. On: Radio receiver enabled only for rolling-code transmitters. Off: Receiver enabled for rolling-code and programmable code transmitters (self-learning and Dip Switch). (OFF) OPCL PP input as OPEN and PED input as CLOSED are enabled or disabled. On: PP input is enabled as OPEN and PED input is enabled as CLOSED. Off: PP and PED inputs are enabled with their function. (OFF) Enables or disables the second radio channel on terminals 9/10. On: Exit configured with function as second radio channel. Off: Exit takes on function of service light (see Fig.3). (OFF) serl The service light function is enabled or disabled on the 9/10 output (see Fig.3). On: This output has the function of service light. At each operation, the output supplies 24VAC for around 60sec. The counting of the TLS time starts when the motor stops. Use an auxiliary relay to control the light. Off: The output features the SCA function, open gate light: light off with closed gate, flashing light with moving gate, light on with open gate. See wire diagram. (OFF) BAR The operating mode of input 13/18 (PHOTO) is selected. On: Input for the connection of the mechanical safety edge (Normally Closed (N..C.) contact), activated in both opening and closing phases. The activation of the safety edge causes the gate stop and its movement reversion for around 3 seconds. The logics TST1 mush be OFF: Off: Input for the connection of the photocell (N.C. contact), activated in both opening and closing phases. When the photocell switches on (open contact), the gate movement will stop. When the photocell switches off (closed contact), the control unit will always send an opening control signal to the system, even if the photocell was activated during closure. (OFF) TST1 Enables or disables checking of photocells on PHOTO input, active both in closing and in opening. On: Check enabled. If the check has a negative result, no manoeuvre is commanded. See Fig.3 - “PHOTO TEST”. Off: Checking of photocells disabled at each manoeuvre. (OFF) TST2 Enables or disables checking of photocells on PHOTC inputs, active only in closing. On: Check enabled. If the check has a negative result, no manoeuvre is commanded. See Fig.3 - “PHOTO TEST”. Off: Checking of photocells disabled at each manoeuvre. (OFF) TSTm Enables or disables motors check. On: Check enabled. If the check has a negative result, no manoeuvre is commanded. Off: Check disabled. (OFF) rem (Enables or disables remote radiotransmitters learning, as indicated in the paragraph “Remote transmitters learning”. On: Remote learning enabled. Off: Remote learning not enabled. (OFF) 2ch RADIO (RADi) 16 MENU FUNZIONE PP By selecting this function, the receiver goes in waiting (Push) for a transmitter code to assign to the step-step function. Press the key of the transmitter to assign to this function. If the code is valid, it is memorised and the message OK is displayed If the code is not valid, the message Err is displayed 2Ch By selecting this function, the receiver goes into waiting (Push) for a transmitter code to assign to the second radio channel. Press the key of the transmitter to assign to this function. If the code is valid, it is memorised ad the OK message is displayed If the code is not valid, the message Err is displayed. ped By selecting this function, the receiver goes into waiting (Push) for a transmitter code to assign to the pedestrian opening function. Press the key of the transmitter to assign to this function. If the code is valid, it is memorised ad the OK message is displayed If the code is not valid, the message Err is displayed. CLR By selecting this function, the receiver goes into waiting (Push) for a transmitter code to erase from the memory. If the code is valid, it is erased and the message OK is displayed If the code is not valid or not present in memory, the message Err is displayed RTR Completely erases memory of the receiver. Confirmation of the operation is requested. By selecting this function the receiver goes into waiting (Push) for a new PGM pressure to confirm the operation. At end of erasing the OK message is displayed CYCLES NUMBER (Nman) Displays the number of complete cycles (open+close) carried out by the automation. When the <PG> button is pressed for the first time, it displays the first 4 figures, the second time it shows the last 4. Example <PG> 0012 >>> <PG> 3456: made 123.456 cycles. RESET (RES) RESET of the control unit. ATTENTION!: Returns the control unit to the default values. Pressing the <PG> button for the first time causes blinking of the letters RES, pressing the <PG> button again resets the control unit. Note: The transmitters are not erased from the receiver nor is the access password. All the logics and all the parameters are brought back to default values, it is therefore necessary to repeat the autoset procedure. AUTOSET (AUTO) This function must be used to set the optimal automation function values, and at the end of the procedure, it sets medium values of COUPLING, WORK TIME and SLOWING. To carry out autoset, proceed as follows: a) Ascertain that no obstacles of any nature are present in the manoeuvre area, if necessary, block off the area in order to prevent access from people, animals, vehicles, etc. During autoset phase, the anti-crushing function is not active. b) Select the AUTO function and press OK. c) Select with the <+> or <-> button the submenu, NOLS, LSW or ENC based on the presence of Limit switch and/or encoder: NOLS: if the motor is without Limit switch and encoder LSW: if the motor is equipped with Limit switch and without encoder ENC: if the motor is equipped with encoder and without Limit switch d) once selected press OK to begin the autoset phase. The control unit carries out a series of manoeuvres for learning of the run of the leves and for parameter configuration. Initially both the leaves are brought to opening position, then after some opening and closing manoeuvres at different speeds, of one or both the shutters, the control unit displays the message OK. In case the operation has no positive result, the message ERR is displayed. Repeat the operation after re-checking the wiring and the eventual presence of obstacles. In case parametersTM1/TM2 or the speed are changed, repeat the autoset procedure. During the manoeuvres the display will show some abbreviations: OPM1/OPM2 during opening of the motor 1 or 2 and CLM1/ CLM2 during closing of motor 1 or 2. PROTECTION CODE (CODE) It allows to type in an access protection code to the programming of the control unit. A four-character alphanumeric code can be typed in by using the numbers from 0 to 9 and the letters A-B-C-D-E-F. The default value is 0000 (four zeros) and shows the absence of a protection code. While typing in the code, this operation can be cancelled at any moment by pressing keys + and – simultaneously. Once the password is typed in, it is possible to act on the control unit by entering and exiting the programming mode for around 10 minutes in order to allow adjustments and tests on functions. By replacing the 0000 code with any other code, the protection of the control unit is enabled, thus preventing the access to any other menu. If a protection code is to be typed in, proceed as follows: - select the Code menu and press OK. - the code 0000 is shown, also in the case a protection code has been previously typed in. - the value of the flashing character can be changed with keys + and -. - press OK to confirm the flashing character, then confirm the following one. - after typing in the 4 characters, a confirmation message “CONF” appears. - after a few seconds, the code 0000 appears again - the previously stored protection code must be reconfirmed in order to avoid any accidental typing in. If the code corresponds to the previous one, a confirmation message “OK” appears. The control unit automatically exits the programming phase. To gain access to the Menus again, the stored protection code must be typed in. IMPORTANT: TAKE NOTE of the protection code and KEEP IT IN A SAFE PLACE for future maintenance operations. To remove a code from a protected control unit it is necessary to enter into programming with the password and bring the code back to the 0000 default value. IF YOU LOOSE THE CODE, PLEASE CONTACT THE AUTHORISED SERVICE CENTER FOR THE TOTAL RESET OF THE CONTROL UNIT. 17 TRANSMITTERS REMOTE LEARNING If an already memorised transmitter is available in the receiver it is possible to carry out remote radio learning (without needing to access the control unit). IMPORTANT: The procedure must be carried out with leaves in opening during TCA pause or with an open gate if the TCA logic is OFF. The REM logic must be ON. Proceed as follows: 1 Press the hidden key of the transmitter which is already memorised. 2 Press, within 5s, the key of the corresponding transmitter which is already memorised to associate to the new transmitter. The flashing light will turn on. 3 Press within 10s the hidden key of the new transmitter. 4 Press, within 5s, the key of the new transmitter to associate to the channel chosen at point 2. The flashing light will turn off. 5 The receiver memorised the new transmitter and immediately exits from programming. FUSES F1: Accessory power supply safety fuse. F2: General safety fuse EMERGENCY BATTERY An optional accessory is available for control unit power supply in case of absence of power. The kit is made up of a battery charging board and two 12V rechargeable batteries, fixing clamps, screws and wiring. For further information, refer to the instructions supplied with the accessory. DIAGNOSTICS SWO1 SWO2 SWC1 P.P. SWC2 PED PHOT One segment of the display is linked to each input. In the event of failure it switches on according to the following scheme. N.C. inputs are represented by the vertical segments. N.O. inputs are represented by the horizontal segments. The control unit sees the message AMP1 or AMP2 in case of anti-crushing ammeter sensor intervention. STOP PHOT-C ERROR MESSAGES Some messages that are displayed in case of function anomalies are listed as follows: Amp1 Obstacle error motor 1/anti-crushing Check presence of obstacles on motor 1 leaf run Amp2 Obstacle error motor 2/anti-crushing Check presence of obstacles on motor 2 leaf run Err1 Motor 1 circuit checking error Check motor 1 connections Err2 Motor 2 circuit checking error Check motor 2 connections Err3 error/fault power circuit Request technical assistance and eventually replace control unit. Err4 PHOTO/BAR photocell checking error Check connections, PHOTO/BAR photocell alignment or presence of obstacles. Err5 PHOTC photocell checking error Check connections, PHOTC photocell alignment or presence of obstacles. Err7 Error active stop (during autoset) In autoset phase, the STOP input has intervened. Err8 Error active input (during autoset) In autoset phase a PP/Open/Close input has intervened. thrm Motor thermal protection intervention Wait for motor cooling, in case reset does not take place, motor replacement may be necessary WASTE DISPOSAL If the product must be dismantled, it must be disposed according to regulations in force regarding the differentiated waste disposal and the recycling of components (metals, plastics, electric cables, etc..). For this operation it is advisable to call your installer or a specialised company. 18
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Key Features
- Built-in 433.92 MHz configurable radio receiver.
- Supports up to 64 rolling code transmitters.
- Autoset function for automatic setting of main functioning values.
- Several inputs for limit switches, command inlets, photocells, and other safety devices.
- Output supply for accessories: 24VDC 500mA max.
- Protection level: IP54.
- Operating temperature range: -20°C / +70°C.
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Frequently Answers and Questions
What is the maximum motor current supported by the control unit?
What is the protection level of the control unit?
What is the operating temperature range of the control unit?
What is the built-in radio receiver frequency?
How many rolling code transmitters are supported by the control unit?
What is the function of the SCA/PHOTO TEST/2 CH terminal?
What is the function of the 24 Vac/dc terminal?
What is the function of the COM/ENC+ terminal?
What is the function of the SWO1/ENC1 terminal?
What is the function of the SWC1 terminal?
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