before the automation system.
Qr) Control panel and incorporated receiver
M) Actuator
Ft) Transmitter photocell
Fr) Receiver photocells
T) 1-2-4 channel transmitter.
Connect the accessories, safety and control devices to the motor unit,
making sure that the mains voltage connections are kept totally separate
from the low voltage accessory connections. Proceed as illustrated in the
electrical diagram (fig.15). When this operation is completed, the appliance
is ready to work by means of a remote control.
5.1) Terminal board connections
The automation device is to be operated after all the safety devices have
been connected and checked. See terminal board diagram in fig.15.
JP1
1-2 Motor connection (1 Green - 2 Brown)
3 Transformer connection 0Vac
4 Transformer connection 25Vac
5 Transformer connection 15Vac
JP3A Stop microswitch connector
JP3
11-12 Antenna connection (11 signal, 12 braid)
13-14 Supply to accessories 24Vac
15-16 Free contact (N.O.) to be used as Open Gate Warning light (24Vac
max 3W) or 2nd radio channel This option can be set from menu A-
B, see paragraph on programming.
17-18 24 Vac output supplying power to the safety devices (photocell
transmitter and rubber skirt transmitter).
N.B. Output enabled during the operation cycle only.
19 Connection to FAULT safety devices (see point 6).
JP5
22-23 START button (N.O.)
22-24 STOP button (N.C.). If not used, leave bridged.
25 Electric edge photocell PHOT input (see point 6).
JP6
26-27 Courtesy light connection 230Vac max 25W
28-29 Transformer supply 230Vac
30-31 Single-phase supply 230Vac, 50/60Hz (30N-31L)
32-33 Blinker connection 230Vac max 40W
JP7
Slow-down microswitch connector.
6) CONNECTION TO SAFETY DEVICES
Note: only use safety devices which can receive with a free changeover
contact (refer to fig.12).
To connect the photocells refer to the diagram in fig.12 taking into account
the number of pairs used: 1 pair box 1C, 2 pairs box 2C.
The control unit performs the test of 2 safety devices. The additional
devices must be equipped with internal self-diagnosis and connected in
series. If photocells are not used, leave the jumpers aligned between
terminal 25/18, and between terminal 19/22 of the Q TELEC MA board.
The connection of the infrared rubber skirt must be performed in the same
way as for the photocells, i.e. by energizing the transmitter from terminal 13/
14 and the receiver from terminal 17/18.
7) MANUAL PROGRAMMING OF CONTROL UNIT
7.1) Tests
In order to facilitate the automation setup tests, to control the opening and
closing manoeuvres, you can use the remote control or temporarily connect
a button between the two terminals 22 and 23 (START).
7.2) Trimmer adjustment (fig.15)
WARNING! Before any adjustment, close jumper J1.
Set the trimmers to the requested value considering that the set value is
increased by turning the relevant trimmer clockwise.
WARNING! The values set using the trimmers must be stored in the
memory.
This operation can be carried out in 2 different ways:
a) Disconnect and then reconnect the power supply (reset) after any
correction to the trimmer. After completing the adjustment, wait at least
5 seconds from system reset and open the J1 jumper.
b) Enter “Menu A” after adjusting the trimmers (press SW1-SW2 one time
simultaneously). Check that Check that the LED flash correspond to
that of the “Menu A” (the Green LED flashes in a constant way). After
each trimmer correction, enter “Menu A” to store the new value.
TCA) Dwell time after which the door is automatically closed. Can be set
from 20 to 120 s.
AMPC) Sets the amperometric limit switch trigger current during the closing
manoeuvre (antisquash sensitivity). When the limit switch is triggered,
it stops the door and reverses the movement.
AMPO) Sets the amperometric limit switch trigger current during the
opening manoeuvre. When the limit switch is triggered, it stops the door
movement.
WARNING: Excessive value setting can jeopardise antisquash
safety. Setting must be calibrated to the minimum value needed to carry
out complete opening and closing strokes.
In any case, the pushing force at the edge of the door must be within the
limits provided for by the current standards.
TW) Sets the motor operation time, after which the motor stops. The value
set must be slightly greater than the time needed to close the door.
Can be set from 0 to 60s.
7.3) Setting of programmable parameters and functions
To program the required functions, follow the sequence described in the
“PROGRAMMING” pages. These include a “LEGEND” which explains the
types of signal indication provided by the green and red leds. For “Menu
B”, the on/off condition is specified in each individual function.
N.B. To enable function setting or modification, you must close
jumper J1 (fig.15).
Programming is divided into three menus:
A) Radio control storage
B) Function logic setting
C) Memory cancellation
To gain access to each individual programming menu, simultaneously
press keys SW1 and SW2 for a short time, as follows: once for menu A,
twice for menu B and three times for menu C.
If you do not carry out any selection within a working time of 60 seconds
after entering the programming mode, you will automatically exit
programming. When setting is completed, set J1 to Off (open the jumper).
To initialise the control unit with the required setting, disconnect the
mains power supply for a few seconds, and then reconnect it.
7.4) Transmitter storage
See the “Menu A” diagram shown on the “PROGRAMMING” page.
7.5) Function logic setting
See the “Menu B” diagram shown on the “PROGRAMMING” page.
The red led (DL1) condition (on/off) shows the function selected. The value
given within square brackets [ ] is the value predefined by the manufacturer.
Here follows a detailed explanation of “Menu B” programmable functions:
Opening photocell [ Red LED On ]
Red DL1 on: when obscured, it excludes photocell operation on opening.
Immediately reverses during the closing phase.
NB. To disable the opening photocell, close the J2 jumper, otherwise
the setting is not active.
Red DL1 off: when obscured, the photocells remain active during both
opening and closing. If the photocell is obscured during closing, it only
reverses the movement after the photocell has been released.
Opening impulse blocking [ Red LED Off ]
Red DL1 on: the start impulse has no effect during the opening phase.
Red DL1 off: accepts start commands during opening.
Automatic closing [ Red LED Off ]
Red DL1 on: activates automatic closing after a dwell time set by trimmer
TCA.
Red DL1 off: excludes automatic closing .
4 or 2 step logic [Red LED Off ]
Red DL1 on: 2 step logic. A start impulse given while the gate is closing,
causes the direction to reverse; during opening, it causes it to stop.
Red DL1 off: 4 step logic. A start impulse given while the gate is
moving, causes it to stop; the subsequent impulse causes the
direction to reverse.
N.B.: The start impulse during the opening phase has no effect
when the opening impulse blocking is enabled (DL1 On).
Gate-open or 2nd radio channel warning light [Red LED On]
Red DL1 on: operation as gate-open warning light (see connection fig.15).
This warning light is off when the gate is closed, blinks when it closing
and stays on when the gate is open or being opened.
Red DL1 off: operation as 2nd radio channel (see connection fig.15).
Allows other devices to be controlled through the second radio channel
of the receiver.
Pre-alarm [Red LED Off ]
Red LED on: the blinker comes on 3 seconds before the motor starts.
Red LED off: the blinker comes on at the same time as the motor starts.
7.6) Cancellation storage
See the “Menu C” diagram shown on the “PROGRAMMING” page.
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