BAGRAM RGB STX-1796 User manual
1
www.stairslight.com
RGB
Stairs lighting
controller
RGB
STX-1796
STX-1796 controller is used for dynamic
color (RGB) lighting of the stairs. The backli-
ght is switched on with the subsequent steps,
depending on the motion directions: ascending or descending while changing the color of lighting.
The controller is adapted to control the RGB LED strips arranged in stair steps and possibly the
staircase handrails.
The controller has 3 dierent modes of light animation programs (upwards): WAVE – stairs light
up one after another, CASCADE – the light „jumps” fast from top to bottom, lighting up the steps,
ELEVATOR – three steps are lighted slowly, towards the top of the staircase. Downwards, the direc-
tion of the animation is changed suitably. You can permanently select one of the programs or set
the options to cyclically change programs.
The controller has 27 programs of color changing including 16 special programs. Most of the
programs have the ability to set additional parameters such as the rate of change of color, brightness,
saturation, etc. You can set one of the color schemes on a permanent basis or choose cyclical change
basic programs. A full description of the programs is on the following pages.
Lights can be turned on by directly pressing a button on the wall, which is connected to the
controller, or by using an additional sensor (infrared, motion, pressure, etc.), which detects when
a person steps on the stairs. When you press the button (eg at the bottom of the stairs), illumina-
tion lights up step by step from bottom to top. During the animation the color of the stairs changes
according to the selected program (scheme) RGB. After lighting up the entire staircase the light is
stable for a short period, and then lighting of the staircase goes from the lower to the upper level,
sequentially step by step.
In case when another person steps on the stairs, the controller switches on full illumination of
stairs and switches o after a set period of time.
The controller can be used for up to 23 steps. It can also control lighting of one or two handrails.
If there is no handrail, the controller can serve to turn on ceiling lights (12V).
All the parameters of the controller can be set by the user. In the original (factory) settings, the
controller is ready for lighting up 15 steps, without lighting up the railing. It can be set up for a dierent
number of steps, from 5 to 20. It is also possible to light up one or two rails. Other parameters can
also be changed. These include: the time interval between the lightening up of successive steps (this
inuences the speed of lightening of the whole staircase), or the time after which the steps will be
faded out. If motion detectors are used, “dead” time can be set after receiving a signal from a sen-
sor, or if there is no response to one or both of the sensors, until the end of the animation program,
to prevent re-lighting the stairs while going down. It is also possible to preset a longer time to start
up the controller, so that it does not react to transient states after power is turned on. At any time,
factory settings can be restored .
2
www.stairslight.com
Specications
Maximum number of illuminated stairs — 20
Quantity of illuminated handrails — 2
Voltage — 12V
Dimensions: length — 14cm (5,5’’), width — 9cm (3,5’’), height — 7 cm (2,75’’)
Mounting on T-35 rail — the width of 8 modules.
Output capacity — up to 5A
Running — by shorting the input to ground (negative power supply)
Functions buttons and LED control
Description of buttons on the body:
TOP - button starts the animation towards the top
BOT - button starts the animation towards the bottom
CON - continuous light
PRG - button to change RGB programs
OPT - button for changing options of RGB programs
LED - LED indicator
SET - setup button
3
www.stairslight.com
List programs RGB color
In RGB controller are four colour palletes used:
Primary. A xed selection of saturated primary colours.
Vibrant. A stunning range of saturated colours.
Bright. A range of bright saturated and pastel shades.
Full Spectrum. Every colour that can be achieved from black to white.
The standard programs:
1. Morph and hold with vibrant colours. (Hold delay adjustable in 3 second increments)
2. Morph and hold with bright colours. (Hold delay adjustable)
3. Morph and hold with full spectrum colours. (Hold delay adjustable)
4. Red marker to help you nd your way through the programs.
5. Sweep continually between vibrant colours.
6. Sweep continually between bright colours.
7. Sweep continually between full spectrum colours.
8. Green marker.
9. Indie dim with each colour „rambling” independently.
10. Indie dim pastels (all colours 25% min).
11. Blue marker.
12. Rainbow. Can be stopped and started on any colour using option button.
13. Rainbow continuous. (Speed adjustable)
14. Black marker.
FX programs
Routines below can only be accessed when unit is in FX mode. To lock and unlock FX mode,
hold both PRG and OPT buttons in for about 15 seconds until the output changes from blue to either
red (locked out) or green (unlocked).
15. Colour burst with vibrant colours. (Speed adjustable)
16. Colour burst with bright colours. (Speed adjustable)
17. Colour burst with full spectrum colours. (Speed adjustable)
18. Cyan marker.
19. Colour plasma lightning. (Speed adjustable)
20. White plasma lightning. (Speed adjustable)
21. Colour strobe. (Speed adjustable)
22. Windswept ame eect. (3 independent.) (Speed adjustable)
23. Subtle ame eect. (3 independent.) (Speed adjustable)
24. Rainbow trail. Fast cycle of primary colours to create a colourful trailing eect on fast moving reective
objects or water droplets. The colours cycle so quickly that the output appears to be static white.
(Speed adjustable.)
25. Jewel fountain. Similar to rainbow trail but with random vibrant colours. (Speed adjustable)
26. X-Fader. A standard speed adjustable cross fading eect between the red and blue channels.
27. Peppers Ghost. An automated cross fade with hold delay adjustable in 16 3-second increments.
28. Juddermeister. A wild psychedelic eect which alternates rapidly between pairs of random colours.
29. Hazard. Specically designed for LED hazard warning lights. This eect strobes alternately between
the red and blue channel with 8 speed options in one style and 8 in another style.
30. Random xed full colour. (Reselectable with option button)
31. Random xed vibrant colour. (Reselectable with option button)
32. White marker.
If both program (PRG) and option (OPT) buttons are pressed together briey the unit will revert
to program 1. After any buttons have been pressed the changes will be stored to non volatile memory
and the unit will power up in that mode until further changes are made.
4
www.stairslight.com
Installation
The controller should be installed by someone with skills in the eld of electrical engineering,
preferably a certied specialist. The controller must be installed with the power o!
Power supply for controller and LEDs should be stabilized with an adequate current capacity
depending on the amount and length of the used LED strips or 12V LED light. Do not use a power
supply (type 12) for halogens — the controller will be damaged immediately! The controller is designed
for a voltage of 12 V DC (stabilized). Maximum current per output is 5 A. Do not exceed this value.
The rst step is to connect the lights (LED strips or spots) to the controller. When you connect
the 12V power supply, the stairs lighting should turn on with minimum brightness (so-called stairs
illumination eect). When the TOP button on the controller body is pressed, the lighting up of the steps
one by one should begin. If this does not happen, the way the LED lighting is connected should be
checked carefully. Similarly, the animation after the button BOT is pressed should be checked – in
this case , the stairs lighting should take place downwards.
It is recommended to adjust the sensor response to movements without connecting them to the
inputs of the controller. The sensor pulse time (TIME) must rst be set to extreme minimum and it
should not be changed during adjustment. The sensitivity (range) also should be set at the minimum
- but this parameter can be adjusted. In some sensors, the support function should be disabled or
properly adjusted ( triggered). Only after the proper operation is obtained of the sensors, they can
be connected to the controller.
Only after obtaining the proper light animation, you can begin to connect the motion sensor.
The last step is time intervals adjustment. The best way is to do it after a few days of using the
stairs in order to determine as accurately as possible the necessary changes. We recommend you
do not adjust the parameters without a specic reason. For greater safety, changing the parameters
are blocked by the factory (see the chapter on adjusting the controller)
5
www.stairslight.com
Diagram: LED RGB strip connected to the controller
NOTE: Arrangement of points R, G i B on the strip
may vary from shown above!
The diagram above shows the connection of the controller to the staircase consisting of 20 steps
and two handrails. Output 1 is connected to the plus (+) RGB strip from the rst, the bottom step
of the stairs, output 2 to the plus (+) RGB another (higher) step of the stairs, etc. The output 20 is
connected to the plus (+) RGB strip at last step of the stairs. The output 21 is connected, looking
from the bottom of the stairs, to the right handrail (running up), and the output 22 to the left handrail
(running down) . Points R, G and B LED strip should be connected properly to each other, ie, all the
points of R together, all the points of G together and all points B together. Then just set up collection
points should be connected to the respective outputs RGB controller.
If the staircase is smaller and there is no illuminated handrails, for example you can use exit No.
20 for ceiling lighting above the stairs (of course, if you have one). However, there must be used LED
elements with 12V power. Do not connect the lighting powered from 230V!
LED Lighting
STX-1796 can control the backlight done by LED strips and 12V LED lights (not 230V!). Strips
are usually mounted under the steps. Connections between lighting elements are shown on the
following illustrations.
6
www.stairslight.com
Diagram: Ceiling lighting
The next picture shows a solution where the exit No. 20 is connected to three 12V LED lights
placed on the ceiling above the stairs. The driver will be turning it on with the rst step and turn o after
about 2 seconds from the extinction of the last step. Of course, you can use any other light source
with the voltage of 12V, depending on the design of the stairs, in place of ceiling lamps.
When designing the connections between the controller and LED points, please include your
current owing in the circuit and select the appropriate type of wiring. Plus supply line for 12V LED
strips or LED lights should have a much larger cross-section than the cables between the controller
and the LED strips.
ATTENTION! You cannot connect the AC to 5V plus (+) and minus (-) outputs. These con-
tacts are used for low-voltage power sensors.
Installation must be carried out very carefully and securely to avoid loosening of wires or short
circuits between them. LED strip wires should be soldered. We do not recommend using special
sockets and plugs, because after a while, due to the movements of the stairs, they are loose and
may lose contact.
7
www.stairslight.com
Control
Controller inputs function on a short to ground basis.. Any mechanical button (not a switch) will
activate the controller after a short press. One end of the button should be connected to the controller
input, and the other should be grounded ((-) of 12V). All the above diagrams show this solution.
You can also run the controller with other elements or devices, including motion sensors. Motion
sensors can be found in two versions: a voltage of 230V voltage and a voltage of 5 or 12V. Do not
connect the sensor directly to the input of the controller, because, especially in the case of 230V
sensors, it will cause (at best) incorrect performance of the controller, and at worst the controller can
be completely damaged.
Before mounting the sensors, set their parameters. The most important is the length of the
impulse (the time for the sensor to start), which should be set to a minimum and should not exceed
15 seconds (preferable time about 1-5 seconds — this should be checked before purchase). The
second parameter which can be set on the sensor is the sensitivity and range of the sensor. This
parameter should be set experimentally in order to enable a steady connection at the proper time.
In some sensors you can choose between various modes of operation. The triggering mode should
be turned o, because in this mode the sensor provides the impulse continuously when someone is
within its range - and the impulse becomes too long in respect to the requirements of the controller.
Sensors operating at 230V network require the use of relays to separate the 230V circuit from
the controller inputs. Low voltage sensors will almost certainly need a special adapter, matching the
sensor signal to requirements of the controller. The following diagrams and descriptions explain how
to connect the most common types of sensors. If you need to use a dierent type of sensor, please
contact the manufacturer to establish how to connect the sensor.
We recommend that buttons (such as door bell ones) are installed on the top and bottom of the
stairs, besides motion sensors,.
Motion sensors with a voltage of 230 V
A typical motion sensor (230V) is
a standard size module and is con-
nected to the installation box. It has
regulatory elements (time, sensitivity,
etc.) and usually three contacts for
wires. Two are plugged into a 230V
network, and the third wire is used to
power the receiver (the lamp) and is
marked with an appropriate symbol.
Before installing the sensor, carefully
read the instructions.
The relays used to separate
230V circuit from the controller may
Motion sensor for 110-230V - CRN 5491
Some motion sensors have a built-in additional twilight sensor. Depending on the sensitivity
settings it can be inactive in strong light. Thus, illumination of the stairs does not turn on during the
day. However, this may cause problems - if it rains, the twilight sensor will lighten the stairs. By ad-
justing the sensitivity, you can try to prevent this. We can recommend our 230V sensor CRN-5491,
modied to work with our controller:
The next diagram is one of a typical motion sensor (230V) connected to the controller. Relays
must be used! Relay coil voltage must be set at 230V, because this voltage is supplied from the
motion sensor. Connect input 1 or 2 and (-) of 12V to the contacts of the relay NO (normally open)
and CO (common),. We recommend the assembly to be done very carefully. If the connections are
made erroneously, the controller will be damaged.
8
www.stairslight.com
Installation diagram: 110-230V motion sensors connected to the controller
Photo to the left shows our product STP-4811 — a
set of two relays in a single-rail case T-35. This set
makes it possible to separate 230 V voltage coming
simultaneously from two motion sensors.
Set of two relays STP-4811
9
www.stairslight.com
Assembly diagram of motion sensors CRN-5891 connected to the controller
by a set of relays STP-4811
NOTE: The knob „Time” in the sensors must be set to the minimum position!
Installation of motion sen-
sors in order to work properly
is extremely dicult. The visu-
alization presented here may
be helpful.
We recommend the sensor
to be tilted down, so it „sees”
only a portion of the rst step.
The top of the Fresnel lens sho-
uld be covered with an opaque
material.
The motion sensor mounted on the wall
10
www.stairslight.com
Motion sensors for voltage 12V
You can also use miniature motion sensors operating at a low voltage such as 12V. We oer
a sensor with the symbol CRN-5481. Voltage of the sensor is identical to the LED supply voltage,
which greatly simplies installation of the entire system.
Sensor dimensions: plate: 32.5 x 23.5 mm, the
diameter of the bowl: 23mm. The sensor has an
adjustable impulse length and sensitivity.
The sensor can be connected directly to the
controller input. It is important that the sensor, the
adapter and the driver have been combined in the
right way, according to the following pictures and
diagrams.
Miniature motion sensor
On the back of the sensor is a connector
for connecting wires leading to the controller. To
facilitate assembly, to each sensor is added the
connector to soldering wires. You should keep the
correct order of wires according to the description
on the sensor connector.
It is recommended to use colored cables with
the smallest possible diameter, eg. telephone cable
bundles. Please note that any mistake in wiring, es-
pecially power can damage the sensor or controller.
The view of the sensor back side
Sensor socket and plug
11
www.stairslight.com
Installation diagram: 12V motion sensors connected to the controller
The diagram below shows exactly how the whole set is built with the use of 12V motion sensors.
Before mounting the sensors, please set their time of action and sensitivity to a minimum. In the
case of sensors with a jumper used to select the operating mode with or without triggering, choose
the position “non-repeatable trigger.”
These two sets of adapters with sensors should be mounted in their appropriate place by the
side of the rst and the last step.
The controller can handle additional input located on the mezzanine. In such a case, an additional
motion sensor (or an additional push button) should be placed so as to detect the entrance a person
to the staircase mezzanine, but so it does not react to people walking up the stairs.
After detecting a person entering the stairs to the mezzanine, the controller will immediately
start the lighting of the whole staircase and turn it o after approx. 20 seconds. The diagram on the
neighboring side shows such a solution.
12
www.stairslight.com
Mezzanine case.
Installation diagram shows connecting three motion sensors 12V to the controller.
An optional button is not shown.
Setting the motion sensors
This is one of the most dicult operations — it requires patience and precision. First of all, adjust
the sensitivity of the sensor in order to have it react eectively to a person entering the staircase. The
second problem to solve is that the sensor should not react to a person coming down the stairs - that it
does not re-activate the fading lighting of the stairs. The best way is to cover the sensor hemispheres
respectively. Of course, the arrangement of the sensors is also very important — usually they are
placed on the right side of the stairs looking in the direction of movement (‘right-hand trac’). Some
sensors have an additional adjustable parameter - the so-called ‘dead time’. It is the time measured
after an impulse, during which the sensor does not respond to the next person entering the eld
of its operations. When the mentioned parameters are adjusted patiently, the sensors will function
properly, providing a satisfactory lighting of the stairs.
13
www.stairslight.com
Proximity sensors CRN-5483 and Radio Frequency controller SRF-4884
Installation diagram shows connecting two proximity sensors 5V CRN-5483 to the controller.
Remote control
Controller programs can be set remotely by the transmitter SRF-4884. For the example shown
above, Abutton activates the animation upward, B button turns on continuous light, Cbutton changes
the programs, and Dbutton changes options for the selected program.
14
www.stairslight.com
Changing RGB programs
To change the RGB program briey press the CON (steady light) button to turn on the lights the
whole staircase. Now, briey pressing the PRG button, you can sequentially change RGB programs
of the controller. The eect is visible immediately on the stairs. When changing programs will be
displayed colored markers. This allows you to assess where in the list of programs just are. See a
list of RGB programs on page 3.
Most programs have additional options changed by pressing the OPT button. Most often it is the
speed of change of the color or the selection of a particular color. Set program and its options are
stored by the controller.
The controller is factory-enabled range of special programs (FX). This range can be switched on
and o. After turning o the number of programs is restricted to the basic programs and after program
14 (black marker - o), the controller will go directly to the program 1.
To lock and unlock FX mode, hold both (PRG and OPT) buttons in for about 15 seconds until the
LEDs changes from blue to either red (locked out) or green (unlocked). If both program and option
buttons are pressed together briey the unit will revert to program 1.
After any buttons have been pressed the changes will be stored to non volatile memory and the
unit will power up in that mode until further changes are made.
When you change the program, turn o the lighting of the stairs again briey pressing the ECON.
After approx. 5 seconds, the controller will return to normal operation.
Rotation programs can be enabled by changing the parameters of the controller - see the next
chapter point: Flicker 4: Automatic switching programs RGB.
Adjusting the controller
Setting the parameters should be performed only when strictly necessary, after reading the
following description carefully. For your greater safety, changing these parameters is blocked by
the factory. They can be unblocked by the user only when he understands the method according to
which they are set.
To start the parameter setting mode, press and hold the SETUP button for about 20 seconds (it
stars lighting up the steps) until the green LED fades out. Release the button to go on to the controller
parameter setting mode. A few seconds ickering of the LED corresponds to each parameter. You
can set or change 12 parameters, and therefore there will be twelve consecutive ickers of the LED.
In order to facilitate counting them, a marker is inserted after every ve ickers – a two second LED
constant light. To select a specic parameter to be changed, you should count each icker and then,
after a suitable number of ickers, press the SETUP button. If you do not want to change a parameter,
skip the ickering without pressing the button. If at the parameter setting mode the SETUP button is
not pressed, none of the parameters will change.
The principle of setting the parameters is as follows: setting each parameter is indicated by a
rapid ickering of the green LED. If during this ickering the SETUP button is pressed and held, then,
depending on the parameter, you will see from one to several dozens of slow LED pulsees. Setting
Adjusting controller parameters diagram
15
www.stairslight.com
the parameter takes place after a release of the button after the desired number of pulsees or just
after the end of the ickering. During the ickering, if the SETUP button is not pressed, after a short
time of the LED fading out, ickering of the next parameter will appear and so on until the end of the
setting mode. If the given icker is omitted, the corresponding parameter will not be changed. This
allows you to set only one parameter, without any of the others. Notice: if the SETUP button is pres-
sed during the ickering and released immediately after it, but before the rst pulse, the parameter
will return to the factory setting.
After setting the selected parameter, the controller immediately returns to a stand-by state, waiting
for a signal from pulse sensors or push buttons. There are no ickers for other parameters. To set
another parameter, use of the SET button again.
Description of parameters
Flickering 1 – Count of stairs.
The controller is factory-set for 15 steps. This can be changed with this parameter. The range is
from 5 to 23 steps. To change the number of steps, press and hold the SET button during the rst
ickering. You should release the button after the right number of icks. Eg., to set 18 steps, release
the button after 18th ick.
Flickering 2 – Count of rails.
The controller is factory-disabled for lighting the railing. You can turn on one or two rails. Note:
two rails should be set only if in the entire staircase there are handrails on both sides. In other cases,
such as one handrail divided into two sections, set the operation to one handrail! Releasing the button
after the rst slow pulse sets the lighting for one rail, and letting go after the second pulse – sets
the lighting for two rails. Releasing the button after the end of ickering and before the rst pulse
switches o the backlight railing.
Setting a single parameter
16
www.stairslight.com
Flickering 3 – Count of stairs to a mezzanine.
The controller also can be used for a staircase with an entrance to a mezzanine. This case
supports the third detector (or button) connected to the input No. 3. The controller is factory-set to
no animation at the entrance to the mezzanine - turn on the whole staircase. However, you can start
the animation consisting of successive lighting of stairs up and down from the mezzanine. You will
need to set in this option, which is the number of stairs from the bottom to the mezzanine. To set
the number of steps, press and hold the SET button during the third ickering. You should release
the button after the right number of pulses. Eg., to set 8 steps, release the button after 8th pulse.
To re-enable lighting up stairs upon entering mezzanine you must let go o the button immediately
after the third ickering.
Flickering 4 – Animation type.
The controller has 3 dierent light animation programs (for upward direction): WAVE – stairs light
up one after another,, CASCADE – the light „jumps” fast from top to bottom, lighting up the steps,
ELEVATOR – three lighted steps slowly „move” to the top of the staircase. When descending, the
direction of the animation changes suitably. In the factory, the animation cycle is preset in the follo-
wing way:: rst WAVE, then CASCADE and nally ELEVATOR, and then the sequence is repeated.
Releasing the button after the rst pulse turns the program 1 (Wave), the second pulse turns on
program 2 (Cascade), and releasing the button after the third pulse switches permanently to program
No. 3 (Elevator). To return to the cycle animation function, the button should be let go immediately
after the end of the ickering.
Flickering 5 – Lighting of the steps.
You can set the time of a slow lighting of the steps. This gives an eect which is more than
pleasing than turning on a sharp light at full power. The factory setting is 10, which corresponds to
0.5 second time of single step illumination (a total of 10 seconds for 20 steps). Releasing the button
after the end of the ickering sets the time to the default value (approx. 0.5 sec. – 10 units). However,
if the button is held on, you can set a dierent, shorter or longer period of time for the illumination a
single step. The number of pulsees is proportional to the time of illumination. Just hold the button for
the appropriate number of pulsees (default setting of 10).
Marker – Fixed light – 2 sec.
Flickering 6 – Automatic switching RGB programs
The controller can operate with a xed program selected manually by the user, or cycle through
the RGB programs each time when start the animation. The factory setting is an xed program. To
change this, press and hold the SET button during ickering 5 and release after the rst slow pulse.
From this point RGB programs will be cyclically changing programs, but only within the basic programs
(programs without FX). To restore an xed RGB program should berelease button immediately after
the end of the ickering.
17
www.stairslight.com
Flickering 7 – Time interval between lighting consecutive steps.
Releasing the button after the end of the ickering sets the time at the minimum, so that the
speed of the staircase lighting depends on the time of steps illumination. However, if the illumination
time (parameter 4) is set at a low or zero value (for example, when lamp lights are used), set the
value of the experimental time interval so that the steps will light up at the right speed. Number of
pulsees is proportional to the time interval and is approximately 0.5 seconds per unit (impulse). This
parameter is factory-set to 0 (minimum value), which makes the next step is lightened immediately
after the previous one.
Flickering 8 – Time of illumination for a second person.
If another person enters the staircase, the illumination of all steps will be turned on. It is measu-
red from zero at each entry of another person; the light will turn o after a set time measured from
the entry of the last person. This time is pre-set to 20 seconds, which equates to 20 impulses (1
impulse = 1 second).
Flickering 9 – Controller blockade time.
If the sensor detects more than one impulse, for example, due to the movement of other people
on the stairs, the controller can react by turning on the lights over all of the stairs, just like during the
entrance of another person. To avoid this, you can set the so-called blockade time counted from the
end of the rst impulse, during which the controller will not respond to further impulses. Blockade
time is pre-set for 2 seconds, which corresponds to 2 impulses (1 impulse = 1 second).
Flickering 10 – Sensors lock.
This is an important parameter when installing motion sensors. In some cases, motion sensors
cannot be placed in an ideal direction. This happens when a person starts going down the stairs,
and turns on all the lights, as if another person walked the stairs. This can be prevented by blocking
the sensors in two ways. When you release the button after the rst impulse, the sensor opposite to
the one that started the animation is blocked. When released after the second impulse, both sensors
are blocked. The lock lasts for the duration of the animation to the end of lighting time of the stairs or
turning on the backlight. From that point on the two sensors are again active and animation can be
run in either directions. You can disable the lock by releasing the button immediately after the end of
the ickering. In a new controller, the lock is turned o.
Marker – Fixed light – 2 sec.
Flickering 11 – Delayed start of the controller.
Some motion sensors, after the power is turned on, transmit a long impulse,often lasting dozens
of seconds.. It can cause an incorrect operation of the controller (eg a constant light). In this case, you
can set a delayed start of the controller — about 1 minute. At that time, after powering of the whole
system, the controller does not respond to the buttons or sensors. This is indicated by the blinking of
all steps. Normally, the delayed start function is on. Releasing the button immediately after ickering
turns delayed start o, and after one impulse – turns it on.
18
www.stairslight.com
Flickering 12 – Reset of the controller.
You can reset the controller, or restore it to factory settings (for example, after an erroneous setting
of the parameters) by pressing and holding the SET button during the twelfth ickering and releasing
it immediately after the fth slow impulse. A successful reset is conrmed by ve pulses of the LED.
Turn on stairs on permanently.
To turn the light of the stairs on permanently, press a CON button or push-button connected to
the Input No. 4. To turn o the permanent light, press again the same push-buttons. The controller
then switches to normal functioning.
Table of contents
Other BAGRAM Controllers manuals
