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ENGLISH
ENGLISH
6. INPUT MANAGEMENT (requires FAACTOTUM)
The 460P is able to control the following inputs:
Table 8
No.
Input
Description
Type
1
OPEN-A
total leaf opening
N.O.
2
OPEN-B
single leaf opening
N.O.
3
STOP
stops movement
N.C.
4
FSW-CL
closure safety photocells
N.C.
5
FSW-OP
opening safety photocells
N.C.
6
CLOSE
closure command
N.O.
7
SAFE-CL
closure safety edge
N.C.
8
SAFE-OP
opening safety edge
N.C.
9
EMERG
panic device
N.C.
10/a
GC1
Gatecoder leaf 1
signal
11/a
GC2
Gatecoder leaf 2
signal
10/b
FCA1
leaf 1 opening limit switch
N.C.
11/b
FCC1
leaf 1 closing limit switch
N.C.
12
FCA2
leaf 2 opening limit switch
N.C.
13
FCC2
leaf 2 closing limit switch
N.C.
Ü
Leaf 1 is the leaf connected to motor M1
Leaf 2 is the leaf connected to motor M2
On the 460P and the MEI module the terminal block inputs are
assigned by default.
The FAACTOTUM can be used during the programming phase
to change the assigned inputs according to the rules given
below.
460P without MEI module
The 5 inputs on the 460P card available by default are given in
Fig. 24.
5)
Tighten the dowel (5).
6)
Connect the GATECODER to the 460P card.
Ü
Even if the Gatecoder is used, opening and closing mechanical
stops are required for correct operation of the automation.
Ü
Limitations in assigning of inputs:
1)
The terminal IN1 (OPEN-A) does not appear in the assigning
cycle because it cannot be changed.
2)
Terminals IN2-IN5 can be assigned different functions to the
default functions, chosen from inputs nos. 6-13 given in
table 8.
3)
Limit switches cannot be used at the same time as the
Gatecoder and vice versa.
4)
With the sole exception given below, it is not possible to
assign the same function to more than one terminal.
5)
The 460P card terminal IN2 can also be configured as a
second OPEN-A input so that if an opening control device
shorts on one of the two inputs, the devices connected to
the other input continue to control the automation as
normal.
6)
It is not possible to move an input which already has an
assigned default terminal on the 460P card (e.g. the STOP
function cannot be assigned to terminal IN5 on the 460P
card).
7)
Each terminal, with the exception of IN1 and IN2, can be
deactivated by selecting the “INACT” function in the input
assigning cycle.
460P with MEI module
The 5 inputs on the 460P card plus the 6 inputs o the MEI module
available by default are shown in Fig. 25.
The inputs IN6-IN9 are active without the need for programming
using the FAACTOTUM. Simply insert the MEI module into the
460P with the standard configuration.
Ü
Limitations in assigning of inputs:
1)
The terminal IN1 (OPEN-A) does not appear in the assigning
cycle because it cannot be changed.
2)
Terminals IN10-IN11 do not appear in the assigning cycle
because they are set directly by the FAACTOTUM according
to the selections made during programming (use of
Gatecoder or limit switches). If neither the Gatecoder or
the limit switches are used they are inactive.
3)
If the limit switches are used, terminals IN2-IN9 can be
assigned different functions to those set by default, chosen
among inputs 12-13 given in table 8.
4)
Limit switches cannot be used at the same time as the
Gatecoder and vice versa.
5)
With the sole exception given below, it is not possible to
assign the same function to more than one terminal.
6)
The 460P card terminal IN2 can also be configured as a
second OPEN-A input so that if an opening control device
shorts on one of the two inputs, the devices connected to
the other input continue to control the automation as
normal.
7)
It is not possible to move an input which already has an
assigned default terminal on the 460P card or the MEI
module (e.g. the STOP function cannot be assigned to
terminal IN5 on the 460P card).
8)
Each terminal, with the exception of IN1, IN2, IN10 and IN11,
can be deactivated by selecting the “INACT” function in the
input assigning cycle.
Fig. 24
IN1 IN2 IN3 IN4 IN5
OPEN-A
OPEN-B
STOP
FSW-CL
FSW-OP
J 2
460P
IN1 IN2 IN3 IN4 IN5
OPEN-A
OPEN-B
STOP
FSW-CL
FSW-OP
J2
460P
IN6 IN7 IN8 IN9 IN10
CLOSE
J1
MEI
IN11
Fig. 25
SAFE-CL
SAFE-OP
EMERG
GC1/FCA1
GC2/FCC1
1
2
3
4
5
6
Fig. 23
Rosso/Red/Rouge/Rot/Rojo = +24 Vdc
Nero/Black/Noir/Schwarz/Nigro = –
Blanco/White/Blanc/Weiß/Blanco = GC1/GC2
