16
– English
English
9.4 - MEMORISING RADIO TRANSMITTERS
The transmitters supplied have not been memorised, therefore it is first
necessary to memorise the 1st transmitter (Mode 1).
There are two ways of memorising a new transmitter:
• Mode 1
: in this “mode” the radio transmitter is used in full, that is, all the
keys carry out a predefined command. It is clear that in Mode 1 a radio
transmitter can be used to control a single automation; namely:
Key
Paired command
T1
Step-by-Step (SbS)
T2
Partial open
T3
Open only
T4
Close only
T5
Auxiliary function: not present
• Mode 2
: one of the four available commands can be assigned to each
key. If this mode is used appropriately 2 or more different automations can
be controlled, for example:
Key
Paired command
T1
“Open Only” command Automation No. 1
T2
“Close Only” command Automation No. 1
T3
“Step-by-Step (SbS)” command Automation No. 2
T4
“Step-by-Step (SbS)” command Automation No. 3
T5
Auxiliary function: not present
Obviously each transmitter is treated separately and for one single control
unit there can be some transmitters memorised in Mode 1 and others in
Mode 2.
The overall maximum memory capacity is of 256 units; Mode 1 memori-
sation occupies one unit per transmitter while Mode 2 occupies one unit
per key.
Warning! – Since the memorisation procedures are timed (10s),
you must read the instructions in the following paragraphs before
you proceed with their execution.
9.4.1 - Mode 1 memorisation
01.
Press
P1
[B]
(
fig. 22
) for at least 3 s. When the
led
P1
[A]
(
fig. 22
)
lights up, release the key.
02.
Within 10 s press any one key on the transmitter for at least 3 s to
memorise it. If the memorisation procedure is successful, the
led
P1
will emit 3 flashes.
03.
If there are other transmitters to be memorised repeat step 2 within the
next 10 s otherwise the memorisation phase will end automatically.
9.4.2 - Mode 2 memorisation
With Mode 2 transmitter memorisation each key can be associated with
any one of the commands shown in table 9.
In Mode 2 each key requires its own memorisation phase.
01.
If the transmitter to be memorised is already memorised you must
first delete the transmitter by performing the procedure described in:
9.4.4 - Deleting a radio transmitter
02.
Press
P1
[B]
(
fig. 22
) on the control unit, the same number of times
as your desired command, as shown in
Table 9
(e.g. 3 times for the
“Open Only” command).
03.
Check that
led
P1
[A]
(
fig. 22
) emits a number of quick flashes which
are equal to the selected command.
04.
Within 10 s press the required key on the radio transmitter for at least
2 s to memorise it. If the memorisation procedure is successful, the
led
P1
will emit 3 slow flashes.
05.
If there are other transmitters to memorise for the same command
type, repeat step 03 within another 10 seconds; otherwise, the mem-
orisation phase will stop automatically.
9.4.3 - Remote memorisation
A new radio transmitter can be memorised on the control unit without
having to use the unit itself. It is sufficient to have an “OLD” working and
memorised radio transmitter. The “NEW” radio transmitter will “inherit”
9.3.4 - Optional photocells addition
At any time, you can install additional photocells in addition to those
already provided as standard.
In order for the control unit to correctly recognise the photocells they must
be assigned with addresses using special electric jumpers. The address
assignment operation must be carried out on both TX and RX (placing the
electric jumpers in the same way) and it is important to check that there
are not any other pairs of photocells with the same address. The photo-
cell address assignment operation is necessary for them to be correctly
recognised among the other devices of the ECSbus and to assign them
their function.
01.
Open the housing of the photocell.
02.
Locate the position in which they are installed according to
Table 8
.
Unused jumpers are stored in a compartment on their reserve, to be
able to be reused in the future.
03.
Carry out the recognition phase as described in paragraph 9.3.3
“Recognition of other devices”.
N
M
N
M
FLASH
BUS
STOP
SbS
A
B
21
A
B
C
TABLE 8
Photocell h=50 cm; triggered
on closure
Photocell h=100 cm;
triggered on closure
Photocell h = 100 cm
activated when gate opens
and closes
Photocell
Jumper
D
Photocell h=50 cm; triggered
on opening and closure
Left photocell activated
when gate opens
F
Right photocell activated
when gate opens
E
Photocell
Jumper
Содержание CLB207
Страница 2: ...Fran ais...
Страница 9: ...Fran ais 7 Fran ais 8 7 1 Led SAFE 3 2 4 5 mm 01 03 05 02 04 9...
Страница 10: ...8 Fran ais Fran ais 6 mm x4 05 B 6 mm x4 05 A 2 1 aerial flash 2 1 06 07 08 09 02 03 04 01 10...
Страница 26: ...Fran ais...
Страница 33: ...English 7 English 8 7 1 Led SAFE 3 2 4 5 mm 01 03 05 02 04 9...
Страница 34: ...8 English English 6 mm x4 05 B 6 mm x4 05 A 2 1 aerial flash 2 1 06 07 08 09 02 03 04 01 10...
Страница 50: ......
Страница 57: ...Italiano 7 Italiano 8 7 1 Led SAFE 3 2 4 5 mm 01 03 05 02 04 9...
Страница 58: ...8 Italiano Italiano 6 mm x4 05 B 6 mm x4 05 A 2 1 aerial flash 2 1 06 07 08 09 02 03 04 01 10...
Страница 74: ...Fran ais...
Страница 81: ...Polski 7 Polski 8 7 1 Led SAFE 3 2 4 5 mm 01 03 05 02 04 9...
Страница 82: ...8 Polski Polski 6 mm x4 05 B 6 mm x4 05 A 2 1 aerial flash 2 1 06 07 08 09 02 03 04 01 10...
