INPUTS
Each terminal block is programmable by a configuration parameter.
E1
→
input 1
,
E2
→
input 2
,
E3
→
input 3
,
E4
→
input 4
,
E5
→
input 5
,
E6
→
input 6
, and
E7
→
input 7
.
FUNCTIONS
DESCRIPITION
TYPE
TERMINAL BLOCK INPUT
no
Disable the chosen input. The inputs
E2
,
E3
and
E4
have the
auto-enable function.
When the terminal block input is disabled
and a normally closed contact is wired to the input, the control
board sets that input equal to the
SAFETY
value. For instance, if
E2
is set to
no
and a normally closed contact is wired to input 2, the
control board sets
E2
to
5t
.
FROM INPUT 1 TO 7
E1
,
E2
,
E3
,
E4
,
E5
,
E6
,
E7
=
no
DISABLED
St
The
stop function
stops the gate movement.
N.C.
SAFETY
INPUT 2 →
E2
=
5t
STOP
tC
During the closing:
the
external photocells
stop the closing and
start the opening.
During the opening:
the
external photocells
do not have any effect.
N.C.
SAFETY
INPUT 3 →
E3
=
tC
EXTERNAL
PHOTOCELL LOGIC 1
td
Same like
tC
but
the opening starts even if the external photocell is
detecting an obstacle
.
N.C.
SAFETY
INPUT 3 →
E3
=
td
EXTERNAL
PHOTOCELL LOGIC 2
tA
D
uring the opening:
The internal photocell stops the opening and
starts the closing. After 2 seconds the closure is stopped. A start
command restore the closing.
During the closing:
the
internal photocells
does not have any effect.
N.C.
SAFETY
INPUT 4 →
E4
=
tA
INTERNAL
PHOTOCELL
Go
The
START
function begins a
STANDARD WORKING CYCLE:
The gate opens for
A1
plus
A2
(slowdown) seconds, stays open for
F0
seconds, and then closes.
N.O.
INPUT 1 →
E1
=
Go
START
PE
The
PEDESTRIAN START
function begin a
PEDESTRIAN WORKING
CYCLE
: the gate opens for
F1
seconds.
N.O.
INPUT 7 →
E7
=
PE
PEDESTRIAN
oP CL
/
The
open/close
function opens/close the gate. The close function
does not work if the gate is closed. It works even the gate closed but
only at the power on.
N.O.
INPUT 1 →
E1
=
oP CL
/
INPUT 2 →
E2
=
oP CL
/
INPUT 7 →
E7
=
oP CL
/
OPEN / CLOSE
Po PC
/
The
dead-man
functions allow the opening/closing of the gate even
if the safety inputs are activated (
I.E.
stop input) and the
programmed input is activated.
N.O.
INPUT 1 →
E1
=
Po PC
/
INPUT 7 →
E1
=
Po PC
/
DEAD-MAN
OPEN / CLOSE
FA LA
/
The
OPENING LIMIT SWITCH
terminates the opening phase.
FA
→ Normally open limit switch.
LA
→ Normally closed limit switch.
If you are using
magnetic limit switches (FNCMF5T) set
E6
=
LA
.
N.C.
/
N.O.
INPUT 6 →
E6
=
FA
/
LA
OPENING LIMIT
SWITCH
FC LC
/
The
CLOSING
LIMIT SWITCH
terminates the closing phase.
FC
→ Normally open limit switch.
LC
→ Normally closed limit switch.
If you are using
magnetic limit switches (FNCMF5T) set
E5
=
LC
.
N.C.
/
N.O.
INPUT 5 →
E5
=
FC
/
LC
CLOSING LIMIT
SWITCH
Eo
DOMUS
The
domus command
does not have any effect on the gate status. It
can be used in combination with the
domus expansion.
For instance
a light can be turned on through the key selector without starting
the gate.
N.O.
FROM INPUT 1 TO 7
E1
,
E2
,
E3
,
E4
,
E5
,
E6
,
E7
=
Eo
EL
The
ELECTRIC-LOCK function
activates the electric-lock with a push
button wired at the terminal block input. For instance It may be useful
when you want to unlock an electric-lock installed on a pedestrian gate
beside the electric gate. (Available on remote controls, too).
N.O.
INPUT 1
E1
=
EL
INPUT 4
E4
=
EL
INPUT 7
E7
=
EL
ELECTRIC-LOCK
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