EN
5 OPERATING TEST
5.1 Using the remote controls - Fig. 17
5.2 Obstacle detection function - Fig. 18 and 19
The detection of an obstacle during door opening will stop the door (Fig. 18).
The detection of an obstacle during door closure will reopen the door (Fig. 19).
Make sure that obstacle detection works when the door encounters an obstacle 50 mm from
the ground.
5.3 Built in lighting operation
The light will come on every time the motor drive unit is operated. It will go out automatically
a er one minute once the door stops. This time delay is adjustable (See section 7). Repetitive
use which causes the light to stay on continually may result in an automatic cut-off condition
triggered by the thermal cut out protection mechanism.
5.4 End-users training
The end-users must be imperatively instruct to the safety use of this motorised door (standard
use and manual release principle) as well as to periodic and compulsery checks.
6 CONNECTING PERIPHERALS
6.1 Description of the various peripherals - Fig. 20
Key.
Description
1
Amber light
3
Code keypad
4
Keyswitch
5
Aerial
6
Battery
7
Pedestrian door safety kit
8
Photoelectric cells
6.2 Electrical connections for the various peripherals - Fig.
20 to 22
Cut the electric power supply to the motor before performing any work on peripherals. The
indicator light remains off a er working on the system, check the wiring (for possible short
circuits or polarity reversals).
General electrical diagram (Fig. 20)
Pedestrian door safety kit
When the pedestrian door contact is fitted, it must be connected in place of the jumper normally
fitted between terminals 3 and 4.
If the pedestrian door contact is removed, the jumper between terminals 3 and
4 must be refitted.
Photoelectric cells (Fig. 21)
When fitting photoelectric cells, connect the receiver cell (RX) to the input in place of the
jumper fitted between terminals 5 and 6.
If the cells are removed, the jumper between terminals 5 and 6 must be refitted.
Code keypad (Fig. 22)
6
7 SETUP AND OPERATING OPTIONS
7.1 General setup diagram - Fig.23
7.2 Meanings of the various parameters
Programming example: adjusting the long slowdown zone "P1=3" (Fig. 24)
P0
Obstacle detection sensitivity
Values
1
: low sensitivity
2
: low sensitivity
3
: standard
4
If this parameter P0 is modified, the installer must check that the obstacle detection
complies with annex A of the standard EN 12 453.
Non-observance of this instruction can result in serious injury to persons, e.g. when
trapped by a door.
Closure approach speed
Values
1
: no slowdown
2
: short so stop
3
: long so stop
Comments
P1=1 : no slowdown before closure.
P1=2 : speed is reduced during the last 20 centimetres.
P1=3 : speed is reduced during the last 50 centimetres.
If this parameter P1 is modified, the installer must check that the obstacle detection
complies with annex A of the standard EN 12 453.
Non-observance of this instruction can result in serious injury to persons, e.g. when
trapped by a door.
Memorising the remote control for partial opening cycle (Fig. 25)
Memorising the remote control for controlling lighting (Fig. 26)
Memorising a Telis or similar type remote control (Fig. 27)
8 SPECIAL OPERATION
Refer to the user manual.
9 CLEARING REMOTE CONTROLS AND ALL
SETTINGS
9.1 Clearing remote controls - Fig. 28
Press the "PROG" button until the light blinks (7 s).
This clears all of the remote controls memorised.
9.2 Resetting all settings - Fig. 29
Press the "SET" button until the light goes out (7 s).
This clears all previously stored settings and returns them to their default values.
Dexxo Optimo RTS
: high sensitivity
WARNING
WARNING
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