Function rotary switches
Function rotary switch below
AUTO 1
= In this position, the local
advanced automatic reversing system
for Venetian blinds
is activated. When a
universal pushbutton or a direction
push button are used for control a double
impulse activates a slow rotation in the
opposite direction, which can be stopped
with a further impulse.
AUTO 2
= In this
position, the local advanced automatic
reversing system for Venetian blinds is
completely switched off.
AUTO 3
= In
this position, the local push buttons act
static at fi rst, thus, allow
reversal of
Venetian blinds
by operating pushbuttons.
They only switch to dynamic after
0.7 seconds continuous operation.
AUTO 4
= In this position, the local push-
buttons act only static (ER function). The
time delay RV (wiping time) of the upper
rotary switch is active. Central control is
not possible.
▲▼
=
▲
(UP) and
▼
(DOWN) of the
lower rotary switch are the positions for
manual control.
Manual control has
priority over all other control commands.
WA
=
Automatic reversal
for Venetian
blinds and awnings is controlled by the
middle rotary switch. 0 = OFF, otherwise
from 0.3 to 5 seconds ON with the
selected reversal time. In this case, it is
only for DOWN that the direction is
reversed on time-out of the time lag
selected by the top rotary switch, e.g. to
extend awnings or set Venetian blinds to
a defi ned position. A LED is located
behind the RV-rotary switch to show the
reversal time.
RV
= The
time delay
(delay time RV) is
set by the top rotary switch. If the FSB is
in the UP or DOWN position the selected
delay time runs (elapses); at time-out the
device changes auto matically to STOP.
Therefore, the time delay must be chosen
at least as long as the shading element
or roller shutter will need to move from
one limit position to the other. The LED
indication for the delay time RV is located
behind the rotary switch RV.
When one or several wireless window/
door contacts FTK or Hoppe window
handles are taught-in,
a lock-out pro-
tection is set up while the door is open
which prevents Central down and Scene
down.
The red LED
accompanies the teach-in
process and indicates control commands
in operation by flashing briefly.
The green LED
flashes briefly when a
confirmation telegram is sent.
Technical data
Rated switching capacity
4 A/24 V DC
each contact
Standby loss (active power)
0.9 W
Typical connection
Teaching-in actuator FSB71-24 V DC
Before starting the teach-in pro-
cess, connect the device and plug
in the power supply unit.
The teach-in memory is empty on delivery
from the factory. If you are unsure whether
the teach-in memory contains something
or not,
you must fi rst clear the memory
contents completely:
Set the middle rotary switch to CLR. The
LED fl ashes at a high rate. Within the
next 10 seconds, turn the upper rotary
switch three times to the right stop (turn
clockwise) and then turn back away from
the stop. The LED stops fl ashing and
goes out after 2 seconds. All taught-in
sensors are cleared.
Clear individual taught-in sensors
in the
same way as in the teach-in procedure,
except that you set the middle rotary
switch to CLR instead of LRN, and
operate the sensor. The LED previously
fl ashing at a high rate goes out.
Clear device confi guration:
Set the middle rotary switch to CLR. The
red LED fl ashes at a high rate. Within the
next 10 seconds, turn the upper rotary
switch six times to the left stop (turn
anticlockwise) and away again. The red
LED stops fl ashing and goes out after
5 seconds. The factory settings are
restored.
Teaching-in sensors:
1. Set the top rotary switch to the
required teach-in function:
10
= Teach in direction pushbutton.
20
= Teach in universal pushbutton
and FTK.
60
= Teach in central control push-
buttons without priority.
90
= Teach in central control push-
buttons with priority.
The fi rst press of the pushbutton switches
on the priority and the second press
switches it off.
120
= Teach in central command
pushbutton with priority.
The priority remains switched on as
long as the switch remains closed.
150
= Teach in FAH60.
!
Teaching-in wireless sensors in
wireless actuators
All sensors must be taught-in in the
actuators so that they can detect and
execute commands.