Table [11]
Storage of additional transmitters in Mode II
1
Hold down the required key on the new transmitter (New TX) until you hear a beep (after approx. 5 seconds)
then release the key
2
Within 5 seconds press and hold down a key that has already been stored on a transmitter (old TX) until hearing 2 short
beeps (after approx. 5 seconds) then release the key
3
Within 3 seconds press the same key on the already stored transmitter (old TX) for a number of times equivalent to
the required command: 1 = Step-by-Step; 2 = Open; 3 = Close; 4 = Stop
4
After approximately 3 seconds you will hear a number of beeps equivalent to the chosen command
5
Within 2 seconds press the required key on the new transmitter (new TX) again to confirm the programming.
The 3 final beeps signal that the new transmitter has been stored correctly. If the memory is full (30 transmitters), the automation will emit 6 beeps to signal that the
transmitter cannot be stored.
Table [12]
Memory storage of a new transmitter like an already stored transmitter
1
Hold down the key on the new transmitter to be stored (New TX) for at least 3 seconds and then release it.
2
Hold down the key on the already stored transmitter (old TX) for at least 3 seconds and then release it.
3
Hold down the key on the new transmitter again (New TX) for at least 3 seconds and then release it.
4
Hold down the key on the already stored transmitter (old TX) for at least 3 seconds and then release it.
The 3 final beeps signal that the new transmitter has been correctly stored. If the memory is full (30 transmitters), the automation will emit 6 beeps to signal that no
further transmitters can be stored in the memory.
Note: if the transmitter already stored has been programmed in Mode I, also the new transmitter will function in Mode I and a single storage phase will be sufficient. If
the key of the already stored transmitter is programmed in Mode II, also the key of the new transmitter will be programmed in Mode II and it will execute the same
command; if you wish to store other keys repeat the memory storage phase for each key.
Clearing the motor memory
In certain cases it may prove necessary to remove the programming functions
stored in the memory of the RME tubular motor.
The memory can be cleared with:
• a non-stored transmitter, starting from point A
• a transmitter that has already been stored, starting the procedure from point
No.1
Table [13]
Memory delete
➨
Hold down key ■ of a non-stored transmitter until you hear a beep
A
B
Within 5 seconds disconnect the power supply to the motor; wait for a few seconds and then power up the motor again.
Within 1 minute continue with the remainder of the deletion procedure, disregarding the fact that you would normally
need an already stored transmitter
➨
Hold down key ■ on an already stored transmitter until you hear a beep (after approx. 5 seconds).
1
Hold down key ▲ on the transmitter until you hear 3 beeps; release key ▲ precisely during the third beep.
2
Hold down key ■ on the transmitter until you hear 3 beeps; release key ■ precisely during the third beep.
3
➨
Hold down key ▼ on the transmitter until you hear 3 beeps; release key ▼ precisely during the third beep.
4
➨
If you wish to delete all data in the memory, within 2 seconds press keys ▲ and ▼ together, then release the keys.
5
After a few seconds 5 beeps will sound to indicate that the memory has been cleared.
10 What to do if... brief guide in the case of problems!
The red LED does not flash when a transmitter key is pressed.
Check also with the other keys then try changing the batteries.
The motor fails to emit any beeps immediately after it is connected to the
power supply.
Check to ensure that the motor is supplied with the correct mains voltage; if the
power supply is correct the motor is probably suffering from a serious fault.
After a command the motor fails to move.
• If the motor was functioning immediately beforehand the thermal overload cutout
may have tripped; in this case wait for a few minutes to give the motor time to cool
down.
• Check that there is at least one memorized transmitter by ensuring that the
motor emits 3 short beeps when it is powered.
• Check for the presence of "communication" between transmitter and motor by
holding down key ■ (T2) on a transmitter (stored or not stored) for at least 5 sec-
onds; if you hear a beep this means that the motor is receiving the signal from
the transmitter – in this case go on to the final check; otherwise execute the next
check.
• Check for the correct emission of the radio signal from the transmitter by means
of the following empirical test: press a key and place the LED in contact with the
antenna of a normal radio receiver (preferably a low cost model) that is switched
on and tuned to 108.5Mhz or as close as possible on the FM band; the radio
should emit a regular pulsating buzzing noise.
• Press all the transmitter keys slowly one at a time; if none of the keys causes the
motor to move this indicates that the transmitter is not stored in the memory.
The following can be deleted:
• transmitters only, terminating at point 4
• all data (transmitters and positions) completing the procedure up to point 5
WARNING: Memory clearing is not possible using a transmitter stored in Mode II
Following a radio command a few Beeps are emitted and the movement
fails to start.
The memory has been incorrectly programmed; count the number of beeps and
contact the Mhouse service organisation to obtain information on the method to
adopt to restore correct operation.
During the movement the motor stops before reaching the programmed
positions.
This is normal if the motor has detected excessive torque. Check for the presence
of obstacles obstructing the movement.
The motor moves only in "man present" mode.
If positions "0" and "1" have not been programmed, the up and down movement
of the motor can only occur while the operator continues to press the correspon-
ding keys. Perform the programming procedure as described in table 5.
For any other problems contact the Mhouse service organisation and describe the
type of fault in detail and all the checks you have already carried out.
Example
5s
New TX
5s
Old TX
X1...X4
Old TX
X1...X4
New TX
Example
3s
New TX
3s
Old TX
3s
New TX
3s
Old TX
Example
2s
5s
+
Instructions RME 7