Metro 800 RTS / Metro 1000 RTS
[4].
OK"
to
validate
and start the self-learning cycle.
The door runs through a complete Open Close cycle.
-
- If the learning cycle was not completed correctly, the display will show
S1".
During the learning cycle:
- If the door is moving, pressing any button will stop the movement and interrupt
the learning mode.
-
You can call up the learning mode at any time, even when the learning cycle
At the end of installation, it must be checked that the obstacle detection
complies with annex A of the standard EN 12 453.
4.3 Memorising the remote controls for operation in
«Total opening» mode - Fig. 17
Up to 32 control channels can be stored.
Running this procedure for a previously stored channel will clear it.
At this stage in the installation process, the Metro motor drive unit is
ready to run.
5 - OPERATING TEST
5.1 Using the remote controls - Fig. 18
5.2 Obstacle detection function - Fig. 19 et 20
The detection of an obstacle during door opening will stop the door (Fig. 19).
The detection of an obstacle during door closure will reopen the door (Fig. 20).
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 after 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. 21
Key.
Description
1
Orange light
2
Remote lighting
3
Code keypad
4
Keyswitch
5
Aerial
6
Battery
7
Pedestrian door safety kit
8
Photoelectric cells
9
10
Sensor bar
11
Siren
Copyright © 2016 Somfy SAS. All rights reserved
the
closed
end
limit
C1".
SET" once will exit the learning mode.
C1".
WARNING
6.2 Electrical connections for the various peripherals -
position
Fig. 21 à 30
Cut the electric power supply to the motor before performing any work on
peripherals. If the display remains off after working on the system, check the
wiring (for possible short circuits or polarity reversals).
General electrical diagram (Fig. 21)
Photoelectric cells (Fig. 22)
Two types of connections can be made:
A : Standard (without self test): program the setting"P2" = 2.
B : With self test: program the setting "P2" = 1.
This means that an automatic test is conducted to check
photoelectric cell operation every time the door operates.
If the test fails, no door movement is possible.
Reflex photoelectric cell (Fig. 23)
With self test: program the setting "P2" = 1.
This means that an automatic test is conducted to check photoelectric cell
operation every time the door moves.
If the test fails, no door movement is possible.
Sensor bar (Fig. 24)
With self test: program the setting "P2" = 1.
This is used to perform an automatic test of sensor bar operation every time
the door moves.
If the test result is negative, no door movement is possible.
account the photoelectric cells or the sensor bar.
Orange light (Fig. 25)
- Without warning before door movement: "P1" = 0.
- With a 2 s warning before door movement: "P1" = 1.
Code keypad (Fig. 26)
Pedestrian door safety kit (Fig. 27)
If the pedestrian door contact is removed, the jumper between
terminals 5 and 6.
Battery (Fig. 28)
Aerial (Fig. 29)
Remote lighting (Fig. 30)
Class 2 (double insulation) light units that are connected do not require an earth
connection.
Various types of lighting can be connected without exceeding a total power
consumption of 500 W.
Siren
For more information on connecting the siren, consult the installation manual.
- Siren inactive "Pb" = 0.
- Siren active: "Pb" = 1 or "Pb" = 2.
EN
P2" taking into
7