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10
Functional instructions for synchronised and interlocked automations
10.1 INTRODUCTION
Installation description for synchronised and/or interlocked automation modes
10.2 CONNECTION WIRING
The interlock and synchronisation functions use the communication bus identified on the board by the terminal board '[L H +24 -24]'.
First of all, the automations that you want to synchronise or interlock must be connected by wiring the 'L H +24' signals
Example of wiring two automations:
S
TS
+24V
OS-R
+24V
- 24V
- 24V
L
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
TS
CS-I
OP-I
+24V
USB
- 24V
Example of wiring 4 automations (case of two synchronized and interlocked automation groups):
S
TS
OS-R
+24V
+24V
- 24V
- 24V
L
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
TS
CS-I
OP-I
+24V
S
USB
- 24V
KO
+24V
IO2
- 24V
IO1
+24V
L
- 24V
H
10.3 SYNCHRONISATION OF TWO AUTOMATIONS
+24V
- 24V
Once the communication bus has been correctly wired, the following settings must be carried out to activate the synchronisation of two automations:
- menu ADV>SYNC:
Set an automation on MST1, master automation. In the case of overlapping doors these are usually swing-leaf automations, it is the one that
PP
ENTER
overlaps (blocking the other leaf)
Set the other automation to SLV1, slave automation. In the case of overlapping doors, it is the one that is blocked by the other leaf
USB
ESC
NOTE: it is possible to define a maximum of 2 units of synchronised doors. The doors that make up unit '1' are identified by [MST1, SLV1], while the doors
that make up unit '2' are identified by setting [MST2, SLV2].
- If you need to activate a second unit of doors, repeat the ADV/SYNC settings by selecting MST2 and SLV2 on the automations that will form unit '2'
To adjust the delay in the case of overlapping doors:
- menu ADV>SDLY, choose:
NO if there is no overlapping
MIN, MED or MAX based on the delay you want to have between the two doors
10.3.1 Synchronisation operation
When the system is switched on, at the first opening manoeuvre, the doors will open one at a time, first the master, then the slave. Once the manoeuvring
space has been acquired, the movement will be synchronised according to the selected settings.
22
S
TS
KO
+24V
OS-R
IO2
+24V
- 24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
ENTER
TS
CS-I
OP-I
+24V
USB
ESC
TS
- 24V
KO
OS-R
IO2
+24V
IO1
- 24V
+24V
- 24V
TS
OS-L
+24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
ENTER
PP
TS
CS-I
OP-I
+24V
USB
ESC
- 24V
TS
KO
OS-R
+24V
IO2
+24V
- 24V
IO1
- 24V
+24V
- 24V
TS
OS-L
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
ENTER
PP
TS
CS-I
OP-I
+24V
S
USB
ESC
TS
- 24V
KO
OS-R
+24V
IO2
+24V
- 24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
ENTER
TS
CS-I
OP-I
+24V
USB
ESC
- 24V
S
TS
KO
+24V
OS-R
IO2
+24V
- 24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
ENTER
TS
CS-I
OP-I
+24V
S
USB
ESC
- 24V
KO
+24V
IO2
- 24V
IO1
+24V
L
- 24V
H
+24V
- 24V
ENTER
ESC
S
TS
KO
OS-R
IO2
+24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
ENTER
TS
CS-I
OP-I
+24V
S
ESC
TS
- 24V
OS-R
+24V
+24V
- 24V
- 24V
L
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
ENTER
TS
CS-I
OP-I
+24V
USB
ESC
- 24V
S
KO
+24V
IO2
- 24V
IO1
+24V
L
- 24V
H
+24V
- 24V
PP
ENTER
S
USB
ESC
TS
KO
OS-R
+24V
IO2
+24V
- 24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
TS
CS-I
OP-I
+24V
USB
- 24V
S
TS
KO
OS-R
+24V
IO2
+24V
- 24V
IO1
- 24V
+24V
L
- 24V
TS
H
OS-L
+24V
+24V
- 24V
- 24V
TS
CS-E
OP-E
+24V
- 24V
PP
ENTER
TS
CS-I
OP-I
+24V
USB
ESC
- 24V
KO
IO2
IO1
+24V
- 24V
ENTER
ESC
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