Eltako FSB71-2x-230V User manual
Wireless actuator for shading
elements and roller shutters
FSB71-2x-230V
GB
Temperature at mounting location:
-20°C up to +50°C.
Storage temperature: -25°C up to +70°C.
Relative humidity:
annual average value <75%.
30 400 868 - 5
Only skilled electricians may install this
electrical equipment otherwise there is
the risk of re or electric shock!
valid for devices from production week
40/17 (see bottom side of housing)
Switch actuator for shading elements and
roller shutters with 2 channels for two 230V
motors. 2+2 NO contact 4 A/250V AC, not
potential free. Encrypted wireless, bi-
directional wireless and repeater function
are switchable. Only 0.8 watt standby loss.
Mounting in the 230 V power supply cord, e.g.
in false ceilings. 166 mm long, 46 mm wide
and 31 mm high.
Zero passage switching to protect contacts
and motors.
A motor is connected to 1, 2 and N; a second
motor may be connected to 3, 4 and N.
If supply voltage fails, the device is switched
off in dened mode.
The pushbuttons can be taught-in either
as direction pushbuttons or universal
pushbuttons:
Local control with universal pushbutton:
Each scanning pulse changes the switch
position in the sequence 'Up, Stop, Down,
Stop'.
Local control with direction pushbutton:
Each scanning pulse up activates the switch
position 'Up'. A scanning pulse down, on the
contrary, activates the switch position 'Down'.
The next scanning pulse in the same direciton
interrupts the sequence immediately.
How-
ever, a scanning pulse in the opposite direction
stops and then switches over to the opposite
direction after a pause of 500ms.
Central control dynamic without priority:
A control signal from a pushbutton which was
taught-in as a central control pushbutton
without priority directly activates the switch
position 'Up' with a scanning pulse up and
the switch position 'Down' with a scanning
pulse down. Without priority because this
function can be overridden by other control
signals.
Central control dynamic with priority:
A control signal of min. 2 seconds from a
pushbutton which was taught-in as a central
control pushbutton with priority directly
activates the switch position 'Up' (press top)
and the switch position 'Down' (press bottom).
With priority because these control signals
cannot be overridden by other (local) control
signals until the central control signal is
cancelled by pressing again the central
control pushbutton 'Up' or 'Down'.
The switch position 'up' or 'down' and the
priority are specically activated with a
control signal, e.g. from a FSM61 taught-in
with priority as a central pushbutton. With
priority because these control signals cannot
be overridden by other control signals until
the central command is cancelled by the
termination of the control signal.
Shading scene control: Up to 4 already stored
'Down' runtimes can be called using the con-
trol signal of a pushbutton with double rocker
taught-in as a scene pushbutton or automa-
tically using an additional taught-in wireless
brightness twilight sensor FHD60SB.
If this was not the last function anyway, the
shutter is moved until the end of the RV delay
time for 'Up' set in the top rotary switch to
ensure a safe starting position. The device
then switches over automatically to 'Down'
and stops on expiry of the saved time. If a
turning time is set for blinds, this is used to
turn the blinds.
A move command is only started for the
rst time for scenes with RV time (fully 'Up'
or 'Down').
If a wireless brightness twilight sensor
FHD60SB is also taught-in in addition to a
scene pushbutton, the taught-in scenes 1, 2
and 4 are executed automatically depending
on the outdoor brightness: Scene 1 in direct
sunlight (>25 KLux), Scene 2 in daylight
(300 Lux to 25KLux) and Scene 4 in dark-
ness (<50Lux). During the rst teach-in,
therefore, a scene pushbutton is assigned
automatically to Scenes 1 = no function, 2 =
raise fully and 4 = lower fully. Scene 1 must
be taught-in separately if the FHD60SB is to
trigger a shading system when direct sun-
light is detected. A taught-in Scene 3 is only
retrievable by means of a scene pushbutton.
Scenes 2 and 4 can be changed separately
at any time. However, this is not advisable if
the right rocker is programmed to be used
as a normal up/down shutter pushbutton or
an FHD60SB was taught-in.
FHD60SB wireless telegrams for Scenes 1 =
direct sunlight are executed immediately
and 4 = darkness. Three telegrams are re-
quired for Scene 2 = daylight in order to
mask out interference lights. To prevent
'nervous' opening and closing of a shading
element when there is rapid uctuation
between darkness and brightness, changing
FHD60SB wireless telegrams are only exe-
cuted every 2 minutes.
The automatic systems can be cancelled or
overridden at any time by conrming any
one of the taught-in pushbuttons. Central
pushbuttons always have priority
When controlled via the GFVS software,
Up and Down move commands can be started
at the precise move time specied. Since
the actuator reports back the precise time
moved after each action, even when the
movement is triggered by pushbutton, the
position of the sunshading is always cor-
rectly displayed in the GFVS software. When
the top or bottom end position is reached,
the position is automatically synchronised.
Encrypted sensors can be taught in.
You can switch on bidirectional wireless
and/or a repeater function.
Every change in state and incoming central
command telegrams are conrmed by a wire-
less telegram. This wireless telegram can
be taught-in in other actuators, in universal
displays FUA55 and in the GFVS software.
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 push-
button or a direction pushbutton 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 pushbuttons act static at
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 dened 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
automatically 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.
LED
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 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 ashing
at a high rate goes out.
Clear device conguration:
Set the middle rotary switch to CLR. The
red LED 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 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 Motor 1.
20 = Teach in universal pushbutton,
FTK and window handle for Motor 1.
30 = Teach in direction pushbutton
Motor 2.
40 = Teach in universal pushbutton,
FTK and window handle for Motor 2.
60 = Teach in central control push-
buttons Motors 1 and 2 without priority.
90 = Teach in central control push-
buttons Motors 1 and 2 with priority.
The rst press of the pushbutton switches
on the priority and the second press
switches it off.
120 = Teach in central command push-
button with priority.
The priority remains switched on as
long as the switch remains closed.
150 = Teach in FHD60SB Motors 1 and 2.
180 = Teach in scene pushbutton and
GFVS Motor 1.
200 = Teach in scene pushbutton and
GFVS Motor 2.
If the GFVS is taught-in, conrmation
telegrams are automatically activated
and sent.
Direction pushbuttons and Central
control pushbuttons will be automati-
cally taught-in completely: 'UP' is at
the top (O) and 'DOWN' is at the bottom (I).
Scene pushbuttons (double rocker)
are taught-in in fully automatic mode.
It can be taught-in for Channel 1 (Motor 1)
or Channel 2 (Motor 2) or identically for
both channels. Before operation, the
scenes are saved there, if required
individually, as described below.
If necessary teach- in the upper or
lower button for other pushbuttons.
Either a FHD60SB or FWS61 can be
taught-in.
On FWS61 no teach-in function need
be carried out.
2. Set the middle rotary switch to LRN.
The LED ashes at a low rate.
3. Operate the sensor to be taught-in.
The LED goes out.
To teach-in further sensors, turn the
middle rotary switch briey away from
position LRN. Continue the procedure
from pos 1.
After teaching-in, set the wiping time RV,
an eventual automatic reverse time (if not:
0) and AUTO 1, 2, 3 or 4.
You can teach in unencrypted and
encrypted sensors.
Teach in encrypted sensors:
1. Set the middle rotary switch to LRV.
The red LED ashes at a high rate.
2. Within 120 seconds, enable sensor en-
cryption. The red LED goes out.
Caution: Do not switch off the power
supply.
3. Then teach in the encrypted sensor as
described in 'Teaching-in sensors'.
To teach in other encrypted sensors, turn
the middle rotary switch briey away
from position LRV and then turn it to 1.
With encrypted sensors, use the 'rolling
code', i.e. the code changes in each tele-
gram, both in the transmitter and in the
receiver.
If a sensor sends more than 50 telegrams
when the actuator is not enabled, the
sensor is no longer recognised by the
enabled actuator and you must repeat
teach-in as 'encrypted sensor'. It is not
necessary to repeat the function teach-in.
Teaching-in shading scenes:
The following scenes are saved in scene
pushbuttons that are taught-in in fully auto-
matic mode, as described above.
1 = No function; 2 = Raise fully; 3 = No function,
and 4 = Lower fully.
Scenes 1 and 3 may have to be taught-in
separately. Scenes 2 and 4 may also be
changed separately. However, this is not
advisable if the right-hand rocker is pro-
grammed to be used as a normal up/down
shutter pushbutton or an FHD60SB was
taught-in.
Individual teaching-in for both channels:
Start 'Down' from the top end position with
an already taught-in universal or direction
switch.
The point of time of repressing the pushbutton
then determines the function which can then
be taught-in in the scene pushbutton:
a) Press the pushbutton immediately to
cancel another function that is saved.
b) Press the pushbutton after approx. 1s to
trigger the standard function 'Up'.
c) Press the pushbutton after more than 2s,
but shorter than the RV time setting to
trigger the function 'Stop after this time'
for shading purposes.
d) Do not press pushbutton any more and
wait until the RV time has expired. This
triggers the standard function 'Down'.
Then teach in the scene pushbutton:
Press the required double rocker end for
approx. 3s but not longer than 5s. Then open
the shading element fully by pressing the
universal or direction pushbutton and continue
as described above for other scenes.
Wireless weather data transmitter module
FWS61:
When an FWS61 is taught-in, data from the
Multisensor MS are converted by the FSB71
into switch commands (roller shutters move
to a specic position) via FWS61.
Wind: the roller shutters move up;
Frost: the roller shutters move down;
Rain: the roller shutters move up;
Sun: the selected shading scene is called up;
Twilight: the selected shading scene is
called up;
Switch on repeater:
The repeater is switched off in the factory
setting. In deenergised state, turn the middle
rotary switch to CLR and the lower rotary
switch to left stop (turn anticlockwise).
When one or several wireless window/door
contacts FTK or Hoppe window handles
are taught-in, a lock-out protection 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 ashing briey.
The green LED ashes briey when a
conrmation telegram is sent.
Technical data
Rated switching capacity 4A/250V AC
each contact
Inductive load 650 W1)
cos M= 0.6/230V AC
inrush current ≤35A
Standby loss (active power) 0.8 W
1) Sum of both contacts 1000 W max.
Typical connection
L
N
PE
4 3 2 1
MM
Teaching-in wireless sensors in
wireless actuators
All sensors must be taught-in in the
actuators so that they can detect and
execute commands.
Teaching-in actuator FSB71-2x-230V
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 rst clear the memory
contents completely:
Set the middle rotary switch to CLR. The
LED ashes at a high rate. Within the
ne t 10 seconds t rn the pper rotar
Switch on the power supply. The red LED lights
up to two seconds. The repeater is switched on.
Switch off repeater:
In deenergised state, turn the middle rotary
switch to CLR and the lower rotary switch to
right stop (turn clockwise). Switch on the
power supply. The red LED lights up to
0.5 seconds. The repeater is switched off.
Switch-on conrmation telegrams:
For deliveries ex-works the conrmation
telegrams are switched-off. Set the middle
rotary switch to CLR. The red LED ashes
nervously. Now within 10 seconds turn the
upper rotary switch 3 times to the left (anti-
clockwise) and then back away. The red LED
goes out and the green LED lights up for
2 seconds. The conrmation telegrams are
switched-on.
Switch-off conrmation telegrams:
Set the middle rotary switch to CLR. The LED
ashes nervously. Now within 10 seconds turn
the upper rotary switch 3 times to the left
(anticlockwise) and then back away. The red
LED goes out immediately. The conrmation
telegrams are switched-off.
Use the data transformer DAT71 to create a
link to a PC running the PCT14 software.
Congure FSB71:
The following points can be congured
using the PC PCT14 tool:
■
Teach in buttons and wireless Hoppe window
handles with single or double click.
■Behaviour with central commands
■Lock-out protection
■Runtimes for shading scenes
■Parameters for operating with FHD60SB
■Parameters for operation of FWS61
■Add or change sensors
When an actuator is ready for
teach-in (the LED ashes at a low
rate), the very next incoming signal
is taught-in. Therefore, make
absolutely sure that you do not
activate any other sensors during
the teach-in phase.
!Cable xation
The cable must be fastened with standard
cable ties (width <3,6mm).
Frequency 868.3MHz
Transmit power max. 10mW
Hereby, Eltako GmbH declares that the radio
equipment type FSB71-2x-230V is in com-
pliance with Directive 2014/53/EU.
The full text of the EU declaration of
conformity is available at the following
internet address: eltako.com
Must be kept for later use!
Eltako GmbH
D-70736 Fellbach
Technical Support English:
+49 711 94350025
technical-support@eltako.de
eltako.com
41/2020 Subject to change without notice.
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