01. On the control unit press and hold button P2 (Fig. 25) for at least 3 seconds then release it.
02. Wait a few seconds until the control unit has completed the device recognition procedure: led L2
switches off. If instead it flashes, it means that there is some error – see Chapter 10.
03. After adding or removing devices, the automation must be tested again (Par. 6.1).
9.2.2 - Adding optional photocell
IAdditional photocells to those supplied with the FILO can be installed
at any time. In systems for the automation of sliding gates they must be
installed as shown in fig. 26.
In order for the control unit to correctly recognise the photocells they must be
assigned with addresses using special electric jumpers. The address assign-
ment 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 photocell 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. Identify the position in which they are installed according to Figure 26
and place the jumper according to Table 4.
Unused jumpers must be placed in the special compartment for
future use (fig. 27).
03. Carry out the learning phase as described in paragraph 9.2.1
"Re c ognition of other devices".
26
Rx
Tx
Photocell
External photocell h=50cm;
A
triggered on closure
External photocell h=100 cm;
B
triggered on closure
Internal photocell h=50 cm;
C
triggered on closure
Internal photocell h=100 cm;
D
triggered on closure
11 – English
27
Tx
Tx
TABLE 4
Jumpers
External photocell triggered
E
on opening
Internal photocell triggered on
F
opening
Single photocell that covers the
G
entire automation and is triggered
on closure and opening
Note: normally there are no restrictions to the position of the two
elements that make up the photocell (TX-RX).
Only if photocell G is used with photocell B it is necessary to follow
the positions shown in fig. 26.
25
A A erial
Aerial
al
L4
L4
L3
L3
L4
P4
P3
P3
Photocell
Flash
Flash
Fuse 1.6A T
Fuse 1.6A T
ECSbus
ECSbus
Sb
L2
L2
L1
L1
L3
L2
L1
SbS
SbS
SbS
P3
P2
P1
P2
P2
P1
P1
Rx
Jumpers