WindowMaster WCC 106BT MotorController User manual
UK +44 1536 614070 [email protected]
WCC 106BT install 2006 –EN_DE_DK ©WindowMaster 2020 ®WindowMaster is a registered trademark used under license from WindowMaster International A/S
WindowMaster International A/S, Skelstedet 13, DK 2950 Vedbæk
WCC 106BT
Installation instruction
MotorController
(Version 2006)
ENGLISH
1
DEUTSCH
18
DANSK
35
Save this installation manual for the end user
2
1Safety regulations........................................................................................................................................................3
1.1 Safety................................................................................................................................................................ 3
1.2 230V AC............................................................................................................................................................ 3
1.3 Application......................................................................................................................................................... 3
1.4 Cabling and electrical connection...................................................................................................................... 3
2Introduction to WCC 106BT.........................................................................................................................................3
2.1 The MotorController’s construction.................................................................................................................... 3
2.2 MotorController variants.................................................................................................................................... 4
2.3
Max number of actuators per MotorController
....................................................................................................... 4
3Accessories..................................................................................................................................................................5
4Technical data..............................................................................................................................................................5
5Mounting.......................................................................................................................................................................6
6Installation....................................................................................................................................................................6
6.1 Cable routing..................................................................................................................................................... 6
6.2 Connecting cables in the MotorController ......................................................................................................... 6
6.3 Connecting protective earth and 230V AC........................................................................................................ 6
6.4 Installation of comfort keypad............................................................................................................................ 7
6.5 Assembly instructions........................................................................................................................................ 7
7Cable dimensioning.....................................................................................................................................................7
7.1 Max. cable length.............................................................................................................................................. 7
7.1.1 Formula for calculating max. actuator cable length.......................................................................................7
7.1.2 Max. cable length –±24V standard actuators ...............................................................................................7
7.1.3 Max cable length –actuators with MotorLink®...............................................................................................8
8Connection plan for WCC 106BT................................................................................................................................8
9Connection description...............................................................................................................................................9
10 DIP switch configuration...........................................................................................................................................13
11 Remote control...........................................................................................................................................................14
11.1 Before use........................................................................................................................................................15
11.1.1 Pairing of remote control and MotorController.............................................................................................15
12 Status and troubleshooting via LED on the MotorController.................................................................................15
13 Commissioning and test run.....................................................................................................................................16
13.1 MotorController fully installed, without operating power...................................................................................16
13.2 With network power..........................................................................................................................................17
13.3 Remote control and comfort keypad.................................................................................................................17
13.4 Wind/rain sensor ..............................................................................................................................................17
14 Maintenance ...............................................................................................................................................................17
14.1 Maintenace agreement.....................................................................................................................................17
15 Components declaration...........................................................................................................................................17
3
1 Safety regulations
1.1 Safety
Only allow correspondingly trained, qualified and skilled personnel to carry out installation work.
Reliable operation and the avoidance of damage and hazards are only guaranteed if installation and settings are carried out
carefully in accordance with these instructions.
There may be personal danger by electrically operated windows:
- the forces occurring in the automatic mode can be such that parts of the body could get crushed
- when opened, actuators (spindles) could protrude into the room
For this reason, measures have to be taken prior to starting up the actuators, which exclude the danger of injury.
For safety reasons we recommend to install opening restrictors on bottom-hung windows.
In the event that windows are subjected to rain and/or high wind loads, we recommend connecting a wind/rain sensor to the
MotorController for the automatically closing of the windows.
The MotorController is to be located in a safe place, protected from the effects of fire and smoke.
The MotorController is to be surface mounted.
The MotorController is supplied by 230V AC.
The manufacturer does not assume any liability for possible damage resulting from inappropriate use.
1.2 230V AC
230V AC can cause death, severe bodily injury or significant damage to property.
The MotorController must be disconnected from the power supply before being opened, mounted or performing any alteration of the
construction.
Power supply to the MotorController must be done via external two-pole or multi-pole circuit breaker. The MotorController is to be
supplied with Phase conductor, Neutral conductor and Earth conductor
Applicable national regulations must be complied with.
1.3 Application
The MotorController is solely designed for the automatic opening and closing of windows, flaps and doors.
Always check that the system complies with applicable national regulations.
The cable cross section will depend on wire length and power consumption. See chapter “Cable dimensioning”.
1.4 Cabling and electrical connection
WindowMaster recommends powering the MotorController from its own group.
Cable routing and connection - adhere to national regulations.
Establish the cable types, if necessary, with the local approval bodies.
Do not conceal flexible cables.
Junction box must be accessible for maintenance purposes.
Disconnect all poles of the mains voltage prior to starting maintenance work or making changes to the system.
Secure the system to prevent unintentional switching on again.
Route all low voltage cables (24VDC) separate from the power current cables. Design cable types, lengths and cross sections in
accordance with the technical information. Cable specifications is a guide only, the overall responsibility resides with the electrical
contractor on site. Installation must be in accordance with the national electrical regulations.
2 Introduction to WCC 106BT
WCC 106BT is a MotorController that controls (opens/closes) 1 or more ±24V standard or MotorLink® window actuators on the
basis of a signal from the included remote control or the connected components, e.g. room sensors and weather sensors.
In addition to the supplied remote control, it is also possible to connect comfort keypads.
2.1 The MotorController’s construction
The MotorController contains a 150W primary power supply (SMPS - switched mode power supply) and a printed circuit board with
input, output and auxiliary supply (AUX).
WCC 106BT has 2 motor lines to which ±24V standard actuators or MotorLink®actuators can be connected; the number of
connected actuators depends on the actuator type; the following table lists the max number of actuators. Total power
consumption for all connected motors may not, however, exceed 6A.
4
2.2 MotorController variants
Item composing
WCC 1
06
BT
xx
xx
Version
01 = version 1
Variant
01 = Standard variant with Schuko plug
04 = UK variant with UK network adapter
Communication
BT = remote control via Bluetooth
MotorController size
06 = 6A
MotorController series 1
2.3 Max number of actuators per MotorController
The table shows the maximum number of actuators which can be connected to the WCC 106BT. The total power consumption for
all connected actuators may not exceed 6A.
Per motor line
Per MotorController
± 24V actuators
MotorLink®actuators
± 24V actuators
MotorLink®actuators
(2 motor lines)
WMD 820-1
6
4
6
6
WMD 820-2
6
2
6
4
WMD 820-3
6
3
6
6
WMD 820-4
4
4
4
4
WMS 306-1
6
4
6
6
WMS 306-2
6
2
6
4
WMS 306-3
6
3
6
6
WMS 306-4
4
4
4
4
WMS 309-1
6
4
6
6
WMS 309-2
6
2
6
4
WMS 309-3
6
3
6
6
WMS 309-4
4
4
4
4
WMS 409 xxxx 01
3
0
3
0
WMS 409-1
3
3
3
3
WMS 409-2
2
2
2
2
WMS 409-3
3
3
3
3
WMU 831 / 836 / 851-1
6
4
6
6
WMU 831 / 836 / 851-2
6
2
6
4
WMU 831 / 836 / 851-3
6
3
6
6
WMU 831 / 836 / 851-4
4
4
4
4
WMU 861-1
6
4
6
6
WMU 861-2
6
2
6
4
WMU 861-3
6
3
6
6
WMU 861-4
4
4
4
4
WMU 842 / 852 / 862 / 882-1
3
3
3
3
WMU 842 / 852 / 862 / 882-2
2
2
2
2
WMU 842 / 852 / 862 / 882-3
3
3
3
3
WMU 863 / 883-1
3
3
3
3
WMU 863 / 883-2
2
2
2
2
WMU 864 / 884-1
1
1
1
1
WMU 885 / 895-1
1
1
1
1
5
Per motor line
Per MotorController
± 24V actuators
MotorLink®actuators
± 24V actuators
MotorLink®actuators
(2 motor lines )
WMX 503 / 504 / 523 / 526-1
12
4
12
8
WMX 503 / 504 / 523 / 526-2
12
2
12
4
WMX 503 / 504 / 523 / 526-3
12
3
12
6
WMX 503 / 504 / 523 / 526-4
12
4
12
8
WMX 803 / 804 / 813 / 814 / 823 / 826-1
6
4
6
6
WMX 803 / 804 / 813 / 814 / 823 / 826-2
6
2
6
4
WMX 803 / 804 / 813 / 814 / 823 / 826-3
6
3
6
6
WMX 803 / 804 / 813 / 814 / 823 / 826-4
4
4
4
4
WML 820/825
6
0
6
0
WML 860-1
6
4
6
6
WML 860-2
6
2
6
4
WML 860-3
6
3
6
6
WML 860-4
4
4
4
4
WMB 801/802*
max. 4A connected to the WMB
WMB 811/812/815/816/817/818 */***
6
2
6
2
*do not exceed the total power consumption of the motor line
**with 2 locking actuators on the same motor line use: 1 x WMB 811 and 1 x WMB 812, 1 x WMB 815 and 1 x WMB 816 or 1 x WMB 817 and 1 x
WMB 818
3 Accessories
Accessories
Rain sensor
WLA 331
Rain / windspeed sensor
WLA 330
Comfort keypad, 1 window or 1 window group
WSK 110 0A0B
Comfort keypad, 2 windows or 2 window groups
WSK 120 0A0B 0A0B
Comfort keypad, model FUGA, surface mounting (CH version)
WSK 300
Comfort keypad, model FUGA, surface mounting
WSK 103
Room thermostat: temperature
WLA 110
4 Technical data
Technical data
Output current
6A
Secondary voltage
Voltage 24V DC (±15%)
Resting potential with 230V AC without load 24V DC @ 20°C
Ripple with full load max. 6% (3.5Vpp)
AUX
24V DC, 500mA
Motor groups / Motor lines
Up to 2 motor groups with each 1 motor line
Either ±24V standard actuators or MotorLink® actuators can be connected to the
MotorController
Primary voltage
MotorController: 100-240 VAC 1.52A 50/60Hz
Remote Control: 2 x AAA alkaline batteries (1.5V)
Power consumption
Idling < 0.5W
Full load 150W
Inrush current on primary side
50A < 5ms w. 230V
Max. 3 x WCC 106BT per 10A power supply group.
Circuit breaker “C” type.
±24V
Min. 500ms
6
LED signalling
3 green LEDs and 1 yellow indicate via blinking sequences failure and/or status of the
system and motor line. See paragraph on “Status and troubleshooting via LED on the
MotorController” for a detailed description and blinking sequences.
Connection cable
Actuators
Other components
flexible max. 6mm² / solid max. 10 mm²
min 0.2mm² / max. 1.5mm²
Operation range between
MotorController and remote control
The used Bluetooth technology (Bluetooth 4) has the following operation range:
- Outside: up to 50m in radius
- Inside: up to 10m in radius
Physical barriers such as walls, cabinets etc. will reduce the range.
Operating conditions
-5°C - +45°C, for indoor mounting, the MotorController must not be covered
Max actuator activation duration (duty
cycle)
ED 40% (4 min. per 10 min.)
Material
Plastic
Colour
White (RAL 9016)
Size
MotorController: 215 x 206 x 37mm (W x H x D)
Remote control: 41 x 18 x 144mm (W x H x L)
Weight
MotorController: 0.92kg
Remote control: 61g
Protection class
IP 20
Safety class
I (with PE)
Delivery
Standard version:
MotorController with 1.2 m cable with Schuko plug and a
remote control
UK version:
MotorController with 1.2 m cable with Schuko plug and UK
network adapter and a remote control
Note
We reserve the right to make technical changes
5 Mounting
The MotorController may either be mounted horizontally or vertically on a
wall.
The MotorController is fixed to the wall through the back plate’s Ø4.5 mm
mounting holes.
The MotorController should be mounted in a secure location so that it
is protected against the effects of fire and smoke.
6 Installation
6.1 Cable routing
The safety regulations in these guidelines must be closely followed. Regarding low power cable configuration we refer you to the
chapter “Cable dimensioning”. The cable cross sections listed in the table of cable lengths must not be reduced.
The cables are led into the MotorController’s cabinet via cut-outs in the bottom.
When routing cables, all applicable national regulations must be complied with.
The MotorController is supplied with a 1.2 m cable with Schuko plug.
6.2 Connecting cables in the MotorController
Cables are to be connected in accordance with the chapter “Connection plan for WCC 106BT”, the short chapters and other
relevant paragraphs in these guidelines.
Please ensure that connections are correctly executed - incorrect connection can lead to functional failure in the MotorController or
external products.
The installation must at all times adhere to the applicable regulations, standards and guidelines.
6.3 Connecting protective earth and 230V AC
WCC 106BT is factory-fitted with a power supply cable with a 230V Schuko plug with earth wire.
7
6.4 Installation of comfort keypad
Any comfort keypad should be mounted in a visible position and within easy reach.
6.5 Assembly instructions
Always have assembly, installation, repair and maintenance of ventilation systems carried out by qualified personnel
trained for this purpose.
Rules to be adhered to for setting up and installation
The following safety relevant rules have to be adhered to when planning the use of a ventilation system and its set-up and
installation:
• The Provincial Building Ordinance of the provinces
Accident prevention regulations Adhere to the general accident prevention regulations (APR), the APR for power operated
windows and doors, and the installation rules in your country.
Caution:
If internal coverings are removed the live current parts are exposed.
Guidelines for mounting / installation
•the MotorController should be mounted on the wall in such a way that there is free access for service inspections
•adhere to the installation instructions and your local energy providers
•select the place of installation such that free access is guaranteed for maintenance purposes
•select cables according to regulations in this instruction - take the calculation of the actuators supply cable lengths into account
when laying the cables
•connect the cables in accordance with the drawings provided by the manufacturer
•route the cables in the building according to the regulations in this instruction
•check all system functions
7 Cable dimensioning
Cables should be routed in compliance with applicable regulations.
7.1 Max. cable length
The maximum permitted cable lengths from the MotorController to the actuators, taking into account the cable cross-section, are
shown in the following table.
7.1.1 Formula for calculating max. actuator cable length
Max. cable length = permitted voltage drop 2V (UL) x copper’s conductivity (56) x cable cross-section in mm2(a)
Max. total actuator current per motor line in amperes (l) x 2
For ±24V standard actuators, the cable cross-section may not be less than 0.75 mm2, irrespective of the result of the above
formula.
Maximum actuator cable length: Always measured from the MotorController to the last junction box + actuator cable
Permissible max. voltage drop in the line: 2 Volt
Total actuator current: The sum of all the connected actuators max. current consumption per motor line
Note: do not use the PE wire / green/yellow wire in the actuator cable!
Example
Max. actuator cable length with cable cross-section of 0.75mm2and 2A current consumption: (2 x 56 x 0.75) : (2 x 2) = 21m
7.1.2 Max. cable length –±24V standard actuators
The actuator cable must have 2 wires minimum.
±24V standard actuators
The PE wire/the green-yellow earth wire must not be used
Cable-
cross-section [a]
Total
actuator current [l]
3-wire
0.75mm²
3-wire
1.50 mm²
5-wire
1.50 mm²
2-wire
parallel
3-wire
2.50 mm²
5-wire
2.50 mm²
2-wire
parallel
3-wire
4.00 mm²
1A
42m
84m
168m
140m
280m
224m
2A
21m
42m
84m
70m
140m
112m
3A
14m
28m
56m
47m
93m
75m
4A
11m
21m
42m
35m
70m
56m
5A
8m
17m
34m
28m
56m
45m
6A
7m
14m
28m
23m
47m
37m
8
7.1.3 Max cable length –actuators with MotorLink®
The actuator supply cable must have 3 wires: 2 wires current carrying / 1 wire for communication.
When a 5 wire cable is used for MotorLink®
It is not recommended to use parallel-wire.
ML-comm = MotorLink®communication.
When using actuators with MotorLink®the max cable length is 50m regardless of the result of the above mentioned formula.
Actuators with MotorLink®
Do not use the PE wire / green/yellow wire!
cable cross
section [a]
Total
actuator current [I]
3 wire
0.75mm²
3 wire
1.50 mm²
5 wire
1.50 mm²
2 wire
parallel
3 wire
2.50
mm²
5 wire
2.50 mm²
2 wire
parallel
3 wire
4.00 mm²
1A
42m
50m
2A
21m
40m
50m
3A
14m
28m
50m
47m
50m
4A
11m
21m
42m
35m
5A
8m
17m
34m
28m
50m
45m
6A
7m
14m
28m
23m
47m
37m
8 Connection plan for WCC 106BT
The above connection plan shows a WCC 106BT MotorController
9
9 Connection description
On the WCC 106BT the
following can be connected:
±24V standard actuators,
MotorLink® actuators, comfort
keypad, thermostat and similar
plus wind / rain sensor.
X1
WCC 106BT contains two motor lines to which ±24V standard actuators or MotorLink® actuators can be
connected. The two motor lines must run with the same type of actuators, meaning either ±24V standard
actuators or MotorLink® actuators. When running MotorLink® actuators, DIP switch #5 must be set, see chapter
about DIP swithes for details.
±24V standard actuators
Data:
MotorLink®actuators
Data:
1.1 24V / 0V
1.2
1.3 0V / 24V
}motor line #1
1.1 0V
1.2 Communication
1.3 24V
}motor line #1
1.4 24V / 0V
1.5
1.6 0V / 24V
}motor line #2
1.4 0V
1.5 Communication
1.6 24V
}motorline #2
The number of permitted actuators on the motor line depends on the actuator type. The total current
consumption connected to the motor line may not exceed 6A and the total current consumption for both motor
lines may not exceed 6A. In addition to the actuators, locking actuators of type WMB 8xx may also be connected.
10
The locking actuators’ power consumption is not included in the calculated 6A as the actuators and locking
actuators do not run simultaneously.
All actuators on the same motor line run/are operated at the same time.
All actuators on a motor line must be the same type.
Connection / cable diameter: flexible max 6 mm² / solid max 10 mm².
Cable length: see the chapter "Cable dimensioning".
Standard ±24V actuators
Example with max. 3A current
consumption
a) 3 pcs. WMX 826-1
b) 2 sets of 3 pcs. WMX 504-3
c) 1 pc. WMU 883-1
d) 2 pcs. WMU 861-2
Connecting variants to standard actuators on motor line 1
MotorLink®actuators
Examples with actuators per
motor line
Ex. 1: 4 pcs. WMX 823-1
Ex. 2: 2 pcs. WMX 836-2
Ex. 3: 3 pcs. WMU 826-3
Allowed actuator combinations on a MotorLink®motor line
The two motor lines on the CP card can each be connected to one of the below shown combinations.
-1 (single): one window with one single window
actuator. Up to four windows each with one
single window actuator can be connected
-2 (double): one window with two double
window actuators.
-3 (triple): one window with three triple window
actuators.
-4 (quad): one window with four quad window
actuators.
11
X2 / X4
Input for connection of comfort keypad
Motor line 1:
Data:
2.1 Open
2.2 Close
2.3 GND / 0V
Motor line 2:
Data:
4.1 Open
4.2 Close
4.3 GND / 0V
With the factory-set values the input is:
“Active” if resistor is less than 5kΩ
“Inactive” if resistor is greater than 8kΩ.
Input has pull-up current of approx. 1mA (min. 0.9mA, max. 1.1mA)
if input short-circuits.
Example: Comfort keypad connected to input X2
Long press (>500ms): open/close actuator, actuator runs to end stop
Short press: actuator stops running
X3 / X5
Input for automatic control.
Motor line 1:
Data:
3.1 Open
3.2 Close
3.3 GND / 0V
Motor line 2:
Data:
5.1 Open
5.2 Close
5.3 GND / 0V
X3 and X5 are potential/volt free.
X3 and X5 have lower priority than X2 and X4 respectively.
X3 and X5 are blocked for 30 minutes after X2 and X4 respectively has received a command.
X6 / X8
Motor line status (open) possibility to connect to BMS
Solid state relay output. Ouput is off (infinite
resistance) when windows are assumed closed.
Motor line 1:
Data:
6.1 Output
6.2 Output
Motor line 2:
Data:
8.1 Output
8.2 Output
Solid state output for signal transmission.
Data
Max. voltage: 30 Vp (peak)
Max. current: 150 mA
Typical On-resistor: 15Ω
Max. On- resistor: 18 Ω
Max. Switching speed: 2 ms
Output circuit (simplified)
Example with solid state and relay
(polarization is not important)
Input circuit (simplified)
12
X7
AUX, power supply for weather station, for example. See “X10” for a description of connection of rain/wind
sensors.
Data:
7.1 24V
7.2 0V
Maximum 500 mA
X9
Solid state output, for transmission of fault signal
Data:
9.1 Fault –Open contact = Fault, Closed contact = OK
9.2 Fault –Open contact = Fault, Closed contact = OK
Data
Max. voltage: 30 Vp (peak)
Max. current: 150 mA
Typical On-modstand: 15Ω
Max. On-resistance: 18 Ω
Max. switching speed: 2 ms
X10
Connecting wind / rain sensors of type WLA 330 or WLA 331.
Wind / rain sensor must be connected on both X10 and X7.
Data:
10.1 24V
10.2 Rain
10.3 GND / 0V
With the factory-set values the input is:
“Active” if resistor is less than 5kΩ
“Inactive” if resistor is greater than 8kΩ.
For values between 4 and 8Ω, the result will depend on the supply voltage.
Input has pull-up of approx. 1mA (min. 0.9mA, max. 1.1mA)
Connecting wind/rain and rain sensor
WLA 330 and WLA 331–the sensors settings are set on the sensor.
DIP switches 1-3 on WLA 330 must be set in relation to windspeed tolerances. See the guideline for WLA 330 for
DIP switch settings.
DS
DIP switch block with 8 DIP switches.
1
2
3
4
5
6
7
8
Maintained action
Rain delay
Extended hand timer
Surveillance
MotorLink®
100% speed
Accumulated step
Motor line 2, motors run independently
Factory setting = OFF
See chapter “DIP switch configuration” for detail information.
Input circuit (simplified)
13
↓ ↑
Close / Open all windows
K1
Reset
K2
FW update; to be used in line with firmware updates
K5
Bluetooth pairing, used when the MotorController is to be paired with a remote control
LED 1
Yellow LED that indicates error on the MotorController. As a reference to fault output X9.
If the diode is off, there is no error/failure. Output X9 is OFF.
See chapter, “Status and troubleshooting via LED on the MotorController” for more information.
LED 2
Green LED that shows status of MotorController.
If diode lights constantly, there is no error/failure.
If the diode blinks, see chapter, “Status and troubleshooting via LED on the MotorController” for more
information.
LED 3
Green LED that shows status of the motor line 2.
The diode can light constantly or blink asynchronously.
See chapter, “Status and troubleshooting via LED on the MotorController” for more information.
LED 4
Green LED that shows status of the motor line 1.
The diode can light constantly or blink asynchronously.
See chapter, “Status and troubleshooting via LED on the MotorController” for more information.
10 DIP switch configuration
The MotorController has 8 DIP switches for easy configuration. The factory setting for the DIP switches is OFF.
DIP
switch
Description on the
MotorControlleren
DIP switch position
1
Maintained action
ON: the actuators open/close completely when the comfort keypad is pressed.
OFF: the actuators run for as long as the comfort keypad is being pressed.
2
Rain delay
ON: the rain signal must be active min. 60 sec. before the actuators begin to close.
OFF: the actuators begin to close as soon as the rain signal is activated.
3
Extended hand
timer
ON: after manuel override the actuators are locked for 2 hours (except rain/safety signals).
OFF: after manuel override the actuators are locked for 30min (except rain/safety signals).
4
Surveillance
ON: activate cable survaillance on input X10.1 (rain). The Input must be terminated with 10k
resistor.
OFF: no cable surveillance.
5
MotorLink®
ON: MotorLink® motors are connected to the MotorController.
OFF: ±24V standard motors are connected to the MotorController.
6
100% speed
ON: actuators run with 100% speed, when run manually.
OFF: actuators run with 75% speed, when run manually.
7
Accumulated step
ON: actuators open/close in steps, when a thermostat e.g. WLA 110 is connected to the
MotorController and the setpoint ist exceeded.
Opening step: 5% for every 5min
Closing step: 10% for every 10min
OFF: actuators open/close completely when a thermostat e.g. WLA 110 is connected to the
MotorController and the setpoint is exceeded
14
DIP
switch
Description on the
MotorControlleren
DIP switch position
8
ML 2, motors run
independently
ON: the actuators on motor line 2 are controlled individually via input X2, X3, X4 and X5.
Up to 4 actuators can be connected to motor line 2 and all actuators must be single / -1
actuators.
The actuator’s serial number determines, which input controls which actuator, the serial
number is automatically identified by the firmware in the MotorController.
X2 –controls the actuator with the highest serial number
X3 –controls the actuator with the second-highest serial number
X4 –controls the actuator with the second-lowest serial number
X5 –controls the actuator with the lowest serial number
The actuators can be identified by activating the different inputs.
The serial number can also be read on the product label on the actuator.
Actuators on motor line 1 are controlled together via input X10. Up to 4 actuators can be
connected to motor line 1. All actuators on motor line 1 must be of the same type, incl. team
size and chain length. The actuators must be either single /-1 or quad /-4.
All connected actuators on both motor lines must be MotorLink® actuators and DIP switch #5
must also be set to ON.
This DIP switch setting does not influence how the actuators on the two motor lines are
controlled via the remote control.
OFF: 2 Motor groups with a motor line each
11 Remote control
The WCC 106BT is supplied with a remote control for controlling (opening and closing) the window actuators, which are connected
to the MotorController.
The remote control has an operation range up too 50m outside and 10m inside.
Physical barriers such as walls, cabinets etc. will reduce the operation range.
The remote control has 3 buttons, each with 3 keys (functions) –
OPEN, STOP and CLOSE.
Button and key functions on the remote control
Key number
Function
#1
Open
Actuators connected to motor line #1 open
#2
Stop
Actuators connected to motor line #1 stop
#3
Close
Actuators connected to motor line #1 close
#4
Open
Actuators connected to motor line #2 open
#5
Stop
Actuators connected to motor line #2 stop
#6
Close
Actuators connected to motor line #2 close
#7
Open
All actuators connected to WCC 106BT open
#8
Stop
All actuators connected to WCC 106BT stop
#9
Close
All actuators connected to WCC 106BT close
A short blink on the remote control’s green LED indicates that the command from the remote control to the MotorController has
been received by the MotorController.
A short blink on the remote control’s red LED indicate that the command from the remote control to the MotorController has not
been received by the MotorController.
#1 #2 #3
#4 #5 #6
#7 #8 #9
Button and key function overview
15
11.1 Before use
The remote control is supplied with 2 x AAA batteries, which must be inserted before use.
Furthermore, the remote control and the MotorController must be paired with each other before the remote control can operate the
actuators connected to the MotorController.
11.1.1 Pairing of remote control and MotorController
To avoid any disturbances the remote control must be held close to the MotorController during pairing. Only activate pairing mode
on one MotorController at the time, otherwise, the remote control will pair with the MotorController with the strongest Bluetooth
signal.
A remote control can only be paired with one MotorController.
MotorController
1. Activate pairing mode on MotorControlleren by pressing K5 (Bluetooth pairing button) on the MotorControlleren.
Remote control
The remote control differs between two different presses; a short and a long press.
The short press is used for normal/daily operation, meaning control of the window actuators. The long press is used for the pairing
process. Short press: the press lasts max. 3 sec.
Long press: the press lasts min. 3 sec.
1. Activate pairing mode on the remote control, by pressing simultaneously on key #3 and #9 –see above ”Button and key
function overview”. The press must be a long press on both keys meaning min. 3 sec.
When the remote control is in pairing mode it starts blinking first red and then green double blinks.
2. As the remote control only can be paired with one MotorController, the remote control automatically deletes any previously
paired MotorControllers before it starts the pairing process with the desired MotorController.
3. The remote control starts a scanning process to identify the desired MotorController, which also must be the one closest to
the remote control.
On the remote control, the scanning is indicated by the green LED, which every second blinks two short blinks.
4. a) The LED on the remote control blinks one long green blink. The pairing process was a success, the remote control and
the MotorController is now paired.
b) The LED on the remote control blinks one long red blink. The pairing process failed.
The pairing process succeeded:
The MotorController and remote control are now ready for use. Carry out a test run, if this is the MotorController’s first pairing,
see chapter “Commissioning and test run”.
The pairing process failed:
- Ensure that the batteries are inserted correctly into the remote control.
- Ensure that the MotorControllere has been connected to 230V and that pairing mode is activated.
- Ensure that MotorController and remote control –during the pairing process –are close to each other and that there are
no disturbances between them, such as walls, furniture etc.
- Replace the batteries in the remote control.
- Repeat the pairing process.
If the pairing process continues to fail please contact your local WindowMaster office.
12 Status and troubleshooting via LED on the MotorController
In the event of failure/error of the MotorController one or more diodes will light and/or blink.
On the WCC 106BT there are 4 diodes - 3 green and 1 yellow - that can indicate errors and status on the MotorController.
Irrespective which diode lights or blinks, the indicator is based on a 3.2 second sequence that is repeated continuously. Each
sequence is defined by 32 x 0.1 second time segments.
If there are several errors on the MotorController simultaneously they are displayed by priority, i.e. error messages for the most
critical failures are shown first and repeated until the failure is remedied. Then error number two is shown, which likewise is
repeated until the error is remedied etc. The following overview shows the most frequently occurring errors, if an error other than
those listed below is indicated, contact WindowMaster.
16
Yellow diode –LED 1
If the yellow diode lights, this indicates an error on the MotorController.
Black = diode off
Error indicator on the yellow diode is a total errors indicator. Detailed information on the error type can be decoded on the green
diode.
Green diode –LED 2
If the green diode LED 2 (closest to X10) blinks, this indicates the error on the MotorController.
Black = diode off
Green diode –LED 3
The green diode LED 3 (furthest away from X8) indicates status of or error on the motor line #2.
Black = diode off
Green diode –LED 4
The green diode LED 4 (closest to X8) indicates status of or error on the motor line #1.
Black = diode off
13 Commissioning and test run
In the event of error messages, refer to chapter “Status and troubleshooting via LED on the MotorController”.
13.1 MotorController fully installed, without operating power
1. Check all mechanical and electrical components for damage.
2. Check all screw and plug connections for tightness and/or firm seating.
3. Check that all external components are installed; check polarity for the ±24V actuators
17
13.2 With network power
Adhere to the relevant regulations!
Connect the mains cables and reapply the mains voltage.
13.3 Remote control and comfort keypad
Look closely at the actuators as they open and close - there must not be any obstacles in any position and the actuator connection
wires must not be overstrained with pulling or pinching.
Test the remote control and every single comfort keypad if installed.
13.4 Wind/rain sensor
1. Open the actuators with the comfort keypads.
2. Dampen the rain sensor, the actuators close completely.
3. While the actuators are running, press Open button on the comfort keypad. The actuators must neither open nor stop.
If commissioning proceeds correctly, the lid of the MotorController may be fitted.
If commissioning does not proceed correctly, i.e. there is an error in one of the test points, refer to chapter “Connection description”
If necessary, re-test the cable routing in accordance with chapter “Connection plan for WCC 106BT”.
14 Maintenance
Control and maintenance should only be done by the manufacturer or an authorized partner.
Remove all soiling from the MotorController. Check fastening and clamping screws for firm seating.
Carry out a test run of the entire system (see chapter 19 ‘Commissioning and test run).
Only have defective units repaired in our factory. Only install original spare parts.
The expected minimum lifetime for the MotorController is 10 years.
14.1 Maintenace agreement
WindowMaster offers a maintenance agreement for MotorController. Contact our service department for further information:
15 Components declaration
The MotorController has been produced and tested in compliance with European guidelines.
The “Declaration of Conformity” is supplied with the MotorController as a separate document.
DE
+49 40 87 409 -560 Vertrieb/ -484 Technik
info.de@windowmaster.com
www.windowmaster.com
CH
+41 62 289 22 22
info.ch@windowmaster.com
Others
+45 45 670 300
info.dk@windowmaster.com
WCC 106BT install 2006 –EN_DE_DK ©WindowMaster 2020 ®WindowMaster is a registred trademark used under the license by WindowMaster International A/S
WindowMaster International A/S, Skelstedet 13, DK 2950 Vedbæk 18
WCC 106BT
Installationsanleitung
MotorController
(Version 2006)
ENGLISH
1
DEUTSCH
18
DANSK
35
Bewahren Sie diese Installationsanleitung für den Endbenutzer auf
19
1Sicherheitsvorschriften.............................................................................................................................................20
1.1 Sicherheit.........................................................................................................................................................20
1.2 230 V AC..........................................................................................................................................................20
1.3 Anwendungsbereich.........................................................................................................................................20
1.4 Leitungsverlegung und elektrischer Anschluss ................................................................................................20
2Einführung zum WCC 106BT.....................................................................................................................................20
2.1 Der Aufbau des MotorControllers.....................................................................................................................20
2.2 MotorController-Varianten................................................................................................................................21
2.3 Maximale Anzahl Motoren pro MotorController................................................................................................21
3Zubehör.......................................................................................................................................................................22
4Technische Daten ......................................................................................................................................................22
5Montage ......................................................................................................................................................................23
6Installation..................................................................................................................................................................23
6.1 Leitungsverlegung............................................................................................................................................23
6.2 Anschluß von Leitungen im MotorController ....................................................................................................23
6.3 Anschluss von Schutzerdung und 230 V AC....................................................................................................23
6.4 Installation des Lüftungstasters........................................................................................................................24
6.5 Montage...........................................................................................................................................................24
7Leitungsdimensionierung .........................................................................................................................................24
7.1 Max. Leitungslänge..........................................................................................................................................24
7.1.1 Max. Leitungslänge –± 24V Standardmotoren ...........................................................................................24
7.1.2 Max. Leitungslänge –Antriebe mit MotorLink®............................................................................................25
8WCC 106BT-Anschlussplan......................................................................................................................................25
9Anschlussbeschreibung............................................................................................................................................26
10 DIP-Schalter Konfiguration .......................................................................................................................................30
11 Fernbedienung...........................................................................................................................................................31
11.1 Vor der Verwendung ........................................................................................................................................32
11.1.1 Kopplung von Fernbedienung und MotorController.....................................................................................32
12 Status und Fehlersuche mittels LED‘s auf dem MotorController ..........................................................................32
13 Inbetriebnahme und Testlauf ....................................................................................................................................34
13.1 MotorController komplett installiert, ohne Betriebsspannung...........................................................................34
13.2 Mit Netzspannung ............................................................................................................................................34
13.3 Fernbedienung und Lüftungstaster...................................................................................................................34
13.4 Wind-/Regenmelder .........................................................................................................................................34
14 Wartung.......................................................................................................................................................................34
14.1 Servicevereinbarung ........................................................................................................................................34
15 Komponentendeklaration..........................................................................................................................................34
20
1 Sicherheitsvorschriften
1.1 Sicherheit
Montage, Installation, Reparatur und Wartung dürfen nur von Fachleuten durchgeführt werden.
Um einen zuverlässigen Betrieb zu gewährleisten und Schäden und Unfälle zu vermeiden, müssen Montage und Installation
gemäß dieser Anleitung durchgeführt werden.
Bei elektrisch gesteuerten Fenstern können Personenschäden vorkommen:
1. Die aus dem automatischen Betrieb der Fenster resultierenden Kräfte können so stark sein, dass Körperteile eingeklemmt
werden können
2. Fensterantriebe (Spindeln) können in den Raum ragen. Vor Inbetriebnahme der Fensterantriebe sind daher Maßnahmen zu
treffen, die die Verletzungsgefahr für Personen ausschließen.
Wenn Fenster, Regen oder hohen Windgeschwindigkeiten ausgesetzt sind, empfehlen wir, einen Regen- und/oder Windsensor an
den MotorController anzuschließen, damit die Fenster bei der Komfortlüftung bei Regen oder hohen Windgeschwindigkeiten
automatisch geschlossen werden.
Der MotorController muss an einem sicheren Ort installiert werden, wo er vor Feuer und Rauch geschützt ist.
Der MotorController muss auf einer Oberfläche montiert werden.
Der MotorController muss mit 230 V AC versorgt werden.
Der Hersteller haftet nicht für Schäden, die durch unsachgemäßen Gebrauch entstehen.
1.2 230 V AC
230 V Wechselspannung kann zum Tod, schweren Körperschäden oder erheblichen Sachschäden führen.
Der MotorController muss vor dem Öffnen, Installieren oder Ändern des Aufbaus von der Versorgungsspannung getrennt werden.
Die Versorgungsspannung für den MotorController muss über einen externen zwei- oder mehrpoligen Gruppenschalter erfolgen.
Der MotorController muss mit Phasen-, Null- und Schutzleiter versorgt werden.
VDE-Vorschriften beachten.
1.3 Anwendungsbereich
Der MotorController dient ausschließlich zum Öffnen und Schließen von Fenstern, Klappen und Türen.
Überprüfen Sie immer, ob das System den geltenden nationalen Vorschriften entspricht.
Der Leitungsquerschnitt ist abhängig von der Leitungslänge und der Leistungsaufnahme. Siehe Kapitel „Leitungsdimensionierung“.
1.4 Leitungsverlegung und elektrischer Anschluss
WindowMaster empfiehlt, den MotorController über eine eigene Sicherung aus mit Spannung zu versorgen.
Bei der Installation DIN-und VDE-Vorschriften beachten. Flexible Leitungen dürfen nicht eingeputz werden. Abzweigdosen müssen
für Wartungsarbeiten zugänglich sein. Vor jeder Wartungsarbeit oder Veränderung der Anlage ist die Netzspannung allpolig
abzuklemmen. Alle Niederspannungsleitungen (24V DC) getrennt von den Starkstromleitungen verlegen. Leitungstypen, -längen
und -querschnitte gemäß den technischen Angaben ausführen. Die Leitungsspezifikation ist unverbindlich. Die
Gesamtverantwortung liegt bei dem Installateur. Die Installation muss in Übereinstimmung mit den nationalen elektrischen
Bestimmungen ausgeführt werden. Gegen unbeabsichtigtes Wiedereinschalten ist die Anlage abzusichern.
2 Einführung zum WCC 106BT
Die WCC 106BT ist ein MotorController, der einen oder mehrere ±24V-Standard- oder MotorLink® Fensterantriebe anhand des
Signals der mitgelieferte Fernbedienung oder angeschlossenen Komponente(n), z. B. Raumsensor und Wettersensor, steuert
(öffnet/schließt).
Zusätzlich zur mitgelieferten Fernbedienung können auch Lüftungstaster angeschlossen werden.
2.1 Der Aufbau des MotorControllers
Der MotorController enthält ein 150-W-Hauptnetzteil (SMPS) sowie eine Platine mit Eingang, Ausgang und einer
Hilfsstromversorgung (AUX).
Die WCC 106BT verfügt über zwei Motorlinien, an die ± 24-V-Standard- oder MotorLink® Motoren angeschlossen werden
können. Die Anzahl der angeschlossenen Motoren hängt vom Motortyp ab. Die Tabelle unten zeigt die maximale Anzahl der
Motoren. Die Gesamtstromaufnahme aller angeschlossenen Motoren darf jedoch 6A nicht überschreiten.
Table of contents
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