Eltako RS485 Bus Actuator for Shading Elements and Roller Shutters TB-2200FSB14/12-24V DC User Guide
- June 3, 2024
- Eltako
Table of Contents
Eltako RS485 Bus Actuator for Shading Elements and Roller Shutters TB- 2200FSB14/12-24V DC
Instalaltion
Only skilled electricians may install this electrical equipment otherwise there is the risk of fi re or electric shock!
Temperature at mounting location: -20°C up to +50°C.
Storage temperature: -25°C up to +70°C.
Relative humidity: annual average value <75%.
Switch actuator for shading elements and roller shutters für einen 12-24V
DC-Motor. 1+1 NO contact 4A/12-24V DC, potential free from power supply 12V.
Bidirectional. Only 0.1 watt standby loss.
Modular device for DIN-EN 60715 TH35 rail mounting.
1 module = 18 mm wide, 58 mm deep.
Connection to the Eltako RS485 bus.
Bus cross wiring and power supply with jumper.
The DC voltage for the motor is connected toterminals – and +, the DC motor to
terminals 1 and 2.
If relays of the FSB14 are switched on, a power of 0.4 watts is required.
If supply voltage fails, the device is switched off in defi ned mode.
The pushbuttons can be taught-in either as direction switches or universal
switches:
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. However, 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:
With a control signal from a button taught in as a central control button
without priority, the switching position ‘up’ at the top or ‘down’ at the
bottom is specifi cally activated. No 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 push button 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 specifi cally
activated with a control signal, e.g. from a FSM61 taught-in with priority as
a central pushbutton. With priority because these control signals can not 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 saved ‘Down’ running times are re
trievable using the control signal of a pushbutton and double rocker taught-in
as a scene pushbutton or taught-in by a PC loaded with the GFVS software. If
this was not the last function of the two channels 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 fi rst time for scenes with RV time (fully ‘Up’ or
‘Down’).
If a wireless outdoor brightness sensor FAH60 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 (>25KLux),
Scene 2 in daylight (300Lux to 25KLux) and Scene 4 in darkness (<50Lux).
During the fi 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 FAH60 is to trigger a shading
system when direct sunlight 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 FAH60 was taught-in.
FAH60 wireless telegrams for Scenes 1 = direct sunlight are executed
immediately and 4 = darkness. Three telegrams are required 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 fl uctuation
between darkness and brightness, changing FAH60 wireless tele grams are only
executed every 2 minutes.
The automatic systems can be cancelled or overridden at any time by confi
rming any one of the taught-in pushbuttons. Central push buttons always have
priority.
With control via GFVS software
movement commands for up and down can be started with the exact movement time
indication. Since the actuator exactly reports the elapsed time after each
activity,even when triggered by pushbutton, the position of the shading in the
GFVS software is always displayed correctly. When the end position up and down
is reached, the position is automatically syncronised.
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 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 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 pushbuttons 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 FSB14 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 protection is set up while the door is
open which prevents Central down and Scene down.
The LED below the upper function rotary switch performs during the teach-in
process according to the operating instructions. It shows control commands by
short fl ickering during operation.
Technical data
| Rated switching capacity | 4 A/12-24V DC |
|---|---|
| Standby loss (active power) | 0,1 W |
Teaching-in wireless sensors in wireless actuators
All sensors must be taught-in into the actuators so that they can detect and
execute commands.
Teaching-in actuator FSB14
The teach-in memory is clear on delivery from the factory. To ensure that a
device was not previously taught-in clear the complete memory: Turn the
middle rotary switch to CLR. The LED fl ashes at a high rate. Within 10
seconds, turn the top rotary switch three times to right stop (turn clockwise)
and back again. 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 ro tary switch to CLR instead of
LRN, and operate the sensor. The LED previously fl ashing at a high rate goes
out. Teaching-in sensors
-
Set the top rotary switch to the required teach-in function:
10 = direction switch;
20 = Teach in universal switch, window/door contact FTK and window handle;
60 = central control pushbutton without priority;
90 = central control pushbutton withpriority; the fi rst short-time control command switches onthe priority, the second one switches it off.
120 = central control switch with priority, the priority remains switched on as long as the switch is closed.
150 = FAH60;
180 = scene pushbutton and GFVS; At GFVS teaching-in, a confi rmation telegram is automatically sent if the actuator has a device address and the upper rotary switch of the FAM14 is on pos. 2. Direction pushbuttons and Central control pushbuttons will be automatically 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. 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 FAH60 or FWS61 can be taught-in.
On FWS61 no teach-in function need be carried out. -
Set the middle rotary switch to LRN. The LED fl ashes at a low rate.
-
Operate the sensor to be taught-in. The LED goes out. To teach-in further sensors, turn the middle rotary switch briefl y away from position LRN. Continue the procedure from pos 1.
After teaching-in, set the off delay RV, the reversal time WA (possibly 0) and AUTO 1, 2, 3 or 4.
Teaching-in shading scenes:
The following scenes are saved in scene pushbuttons that are taught-in in
fully automatic 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 programmed to be used as a normal
up/down shutter pushbutton or an FAH60 was taught in.
Teaching-in shading scenes individually:
Start ‘Down’ from the top end position with an already taught-in universal or
direction switch. The point of time of repress ing thepushbutton 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’.
The 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
switch 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
FSB14 into switch commands (roller shutters move to a specifi c 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;
Issue device address for the FSB14:
Turn the rotary switch on the FAM14 to Pos. 1 and its lower LED lights up red.
Turn the middle rotary switch on the FSB14 to LRN and the LED fl ashes at a
low rate. After the address of the FAM14 is issued, its lower LED lights up
green for 5 seconds and the LED of the FSB14 goes out.
Clear device confi guration:
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 left stop
(turn anticlockwise) and away again. The LED stops fl ashing and goes out
after 5 seconds. The factory settings are restored.
Clear device confi guration and device address:
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 six times to left stop (turn anticlock wise) and away again. The
LED stops fl ashing and goes out after 5 seconds. The factory settings are
restored and the device address is cleared.
Confi gure FSB14:
The following points can be confi gured using the PC tool PCT14:
- Teach in buttons and wireless Hoppe window handles with single or double click
- Behaviour with central commands
- Lock-out protection per shading scene
- Runtimes for shading scenes
- Parameters for operating with FAH60
- Add or change sensors
- Parameters for operation of FWS61
– behavior at termination of weather alarm
– run central and driving commands from GFVS to weather alarm
– set priorities for wind, frost and rain
– lock-out protection at wind, frost and rain
– lock pushbutton at wind, frost and rain
– automatic reversal
– lamellas opening
If the automatic reversal was activated on the device, it can be deactivated
or activated by a wireless pushbutton or a timer.
The ID of the pushbutton or the FSU must be manually entered into the ID table
‘functional group 2’. Select the function 80 ‘release for automatic reversal’
and transfer data to the automatic reversal’ and transfer data to the
device.
Functional pushbutton (right half of a dual pushbutton):
Press downwards or timer command OFF (0x50) = automatic reversal off;
Press upwards or timer command ON (0x70) = automatic reversal on;
Caution: Do not forget the ‘Disconnect link to FAM’ in the PC Tool. No
wireless commands are executed while there is a link between the PC Tool PCT14
and the FAM14.
Teach in acknowledgement telegram of another BUS actuator into the
FSB14/12-24V DC:
Similar to teaching-in sensors, except the middle rotary switch is set to
LRA instead of LRN. ‘Switch-on’ and ‘Move-up’ are taught-in as ‘Central
control button ON’. ‘Switch-off’ and ‘Move-down’ are taught-in as ‘Central
control button OFF
When an actuator is ready for teach-in (the LED fl 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.
*Manuals and documents in further languages
[
](http://eltako.com/redirect/FSB1412-24V_DC)
*<http://eltako.com/redirect/FSB1412-24V_DC>
Must be kept for later use!
We recommend the housing for operating instructions GBA14.
Eltako GmbH
D-70736 Fellbach
Technical Support English:
+49 711 94350025
technical-support@eltako.deeltako.com
19/2022 Subject to change without notice