PARAMETER
VALUE
t.inv
0.5" - 1'00
no
t.PrE
0.5" - 1'00
no
Pot1
30 - 100
Pot2
30 - 100
Po.r1
0 - 70
Po.r2
0 - 70
P.bAt
Si
no
SPUn
Si
no
rAM
0 - 10
DESCRIPTION
Backlash time
It could be useful to give a closing command to motors, to help the
electric lock release. The control unit controls the motors in reduced power
in closing direction for the setup time
Function deactivated
Pre-blinking time
Before any gate movement, blinker will be activated for
warn about the incoming motion
Function deactivated
Motor 1 power
The displayed value is the percentage of max. motor power
Motor 2 power
The displayed value is the percentage of max. motor power
Power motor 1 during slow-down phase
The displayed value is the percentage of max. motor power
Power motor 2 during slow-down phase
The displayed value is the percentage of max. motor power
Maximum motor power during battery operation
During battery operation, the controller is powered with a lower voltage
compared to mains power. For this reason, the power of the motors is
reduced compared to normal operation and may not be sufficient to move
the gate panels effectively.
This menu allows you to activate the motors at their maximum power
during battery operation.
Function activated
Function deactivated
Start off
When the gate is standstill and it begins moving, the initial inertia must be
faced, therefore, if your gate is quite heavy, its doors could not move.
SPUn
In case the
(pickup) function is activated, for the first 2 seconds of
motion of each door, the control unit will ignore both
values and it will give motors the maximum power command in order to
overcome the gate inertia.
Function activated
Function deactivated
Starting ramp
In order not to stress too much the motor, when the motion starts the
power is gradually increased, until reached the set value or 100% if the
take-off is enabled.
Higher is the set value, longer the length of time of the ramp, that is the
time necessary to reach the value of nominal power.
t.PrE
Pot1
- 38 -
DEFAULT
no
1.0"
time, to
80
80
50
50
Si
Si
Pot2
and
4
MEMO