OPERATING MANUAL EN FIBARO RGBW CONTROLLER 2 FGRGBW-442 v1.
Table of contents 1: Important safety information 4 2: Description and features 5 2.1: Description 5 2.2: Main features 5 3: Specifications 6 4: Installation 7 4.1: Before installation 7 4.2: Connection with RGBW/RGB LED strip 8 4.3: Connection with one-color LED strips 9 4.4: Connection with halogen lights 9 4.5: Connection with 0-10V analog sensors 5: Adding to Z-Wave network 10 11 5.1: Adding manually 11 5.
1: Important safety information Read this manual before attempting to install the device! Failure to observe recommendations included in this manual may be dangerous or cause a violation of the law. The manufacturer, Fibar Group S.A. will not be held responsible for any loss or damage resulting from not following the instructions of operating manual. ! Do not modify! ! Do not modify this device in any way not included in this manual. Other devices The manufacturer, Fibar Group S.A.
2: Description and features 2.1: Description FIBARO RGBW Controller 2 is an universal, Z-Wave Plus compatible RGB/RGBW controller. FIBARO RGBW Controller 2 uses PWM output signal, allowing it to control LED, RGB, RGBW strips, halogen lights and other resistive loads. It can also measure active power and energy consumed by the load. Controlled devices may be powered by 12 or 24V DC.
3: Specifications Power supply Rated load current: Power output: Inputs Outputs PWM frequency: Maximum length of wires: Operating temperature Radio protocol Radio frequency Transmit power Range Dimensions (Length x Width x Height) Compliance with EU directives 12V/24V DC ±10% 6A for channel, 12A total for all outputs 144W combined for 12V 288W combined for 24V 4, 0-10V (configurable pull-up) or binary 4, PWM 244Hz 2m 0–40°C (32–104°F) Z-Wave (500 series chip) 868.4 or 869.8 MHz EU; 908.4, 908.
4: Installation 4.1: Before installation ! Connecting the device in a manner inconsistent with this manual may cause risk to health, life or material damage.
IN1 – input connector for controlling OUT1 output IN2 – input connector for controlling OUT2 output IN3 – input connector for controlling OUT3 output IN4 – input connector for controlling OUT4 output OUT1 – output connector controlled by IN1 input (red LED color recommended) OUT2 – output connector controlled by IN2 input (green LED color recommended) OUT3 – output connector controlled by IN3 input (blue LED color recommended) OUT4 – output connector controlled by IN4 input (white LED color recommended) B
4.3: Connection with one-color LED strips 1. Disconnect the power. 2. Connect with the diagram below: 12/24V DC GND 2 1 + – + – + – + – + – + – + – + – P GND IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 4 2 4 4 4 Diagram 3: Example connection with 4 one-color LED strips (1 – power supply, 2 – switch, 4 – one-color LED strip) 3. Verify correctness of connection. 4. Power the device. 5. Add the device to the Z-Wave network. 4.4: Connection with halogen lights 1. Disconnect the power. 2.
4.5: Connection with 0-10V analog sensors The 2-wire analog sensor requires pull-up resistor. You can connect up to 2 analog sensors to IN1/IN2 terminals. 1. Disconnect power. 2. Connect with the diagram below: P GND 12/24V DC GND VDD 0-10V OUT 6 GND GND 0-10V OUT GND 0-10V OUT 7 IN1 IN2 IN3 IN4 VDD 0-10V OUT 6 GND 12V 1 6 6 Diagram 5: Example connection with 4 0-10V analog sensors (1 – power supply, 2 – switch, 6 – 0-10V analog sensor, 7 – configurable pull-up resistors) 3.
5: Adding to Z-Wave network Adding (Inclusion) – Z-Wave device learning mode, allowing to add the device to existing Z-Wave network. 5.1: Adding manually To add the device to the Z-Wave network manually: 1. Power the device. 2. Set the main controller in (Security/non-Security Mode) add mode (see the controller’s manual). 3. Quickly, three times click the button. 4. If you are adding in Security S2 Authenticated, scan the DSK QR code or input the underlined part of the DSK (on the device label). 5.
6: Removing from Z-Wave network Removing (Exclusion) – Z-Wave device learning mode, allowing to remove the device from existing Z-Wave network. Removing also results in resetting the device to factory defaults. To remove the device from the Z-Wave network: 1. Power the device. 2. Set the main controller into remove mode (see the controller’s manual). 3. Quickly, three times click the button. 4. LED will start blinking yellow, wait for the removing process to end. 5.
7: Operating the device 7.1: Controlling the device using connected switches Controlling connected loads Input can control output only with the same number (e.g. switch connected to IN1 controls load connected to output OUT1).
• 3 red blinks – entering the menu (not added to a Z-Wave network) • Green – reset energy consumption memory • Magenta – start range test • Yellow – reset to factory defaults 7.3: Menu Menu allows to perform Z-Wave network actions. In order to use the menu: 1. Press and hold the button to enter the menu, device blinks to signal adding status (see 7.2: Visual indications). 2.
8: Z-Wave range test The device has a built in Z-Wave network main controller’s range tester. To make Z-Wave range test possible, the device must be added to the Z-Wave controller. Testing may stress the network, so it is recommended to perform the test only in special cases. i To test the main controller’s range: 1. Press and hold the button to enter the menu. 2. Release button when the device glows magenta. 3. Quickly click the button to confirm. 4.
9: Activating scenes The device can activate scenes in the Z-Wave controller by sending scene ID and attribute of a specific action using Central Scene Command Class. In order for this functionality to work, connect monostable or bistable switch to the IN1-IN4 inputs and set parameters 20-23 to 3, 4 or 5 (depending on type of switch). By default scenes are not activated, set parameters 40-43 to enable scene activation for selected inputs and actions.
10: Configuration 10.1: Associations Association (linking devices) - direct control of other devices within the Z-Wave system network e.g. Dimmer, Relay Switch, Roller Shutter or scene (may be controlled only through a Z-Wave controller). Association ensures direct transfer of control commands between devices, is performed without participation of the main controller and requires associated device to be in the direct range.
10.2: Advanced parameters The device allows to customize its operation to user’s needs using configurable parameters. The settings can be adjusted via Z-Wave controller to which the device is added. The way of adjusting them might differ depending on the controller. In the FIBARO interface parameters are presented as simple options in Advanced Settings of the device. Available parameters: 1.
21. Input 2 - operating mode This parameter allows to choose mode of 2nd input (IN2). Change it depending on connected device. Parameter size 1B Default value 2 (monostable button) 0 – Analog input without internal pull-up (Sensor Multilevel) Available values 1 – Analog input with internal pullup (Sensor Multilevel) 2 – Monostable button (Central Scene) 3 – Bistable button (Central Scene) 4 – Bistable button with memory (Central Scene) 22.
30. Alarm configuration - 1st slot This parameter determines to which alarm frames and how the device should react. The parameters consist of 4 bytes, three most significant bytes are set according to the official Z-Wave protocol specification. X – channels summarized: 1/2/3/4 channel are equal to values 1/2/4/8. Y – sequence number: 1-10 (parameter 157).
32. Alarm configuration - 3rd slot This parameter determines to which alarm frames and how the device should react. The parameters consist of 4 bytes, three most significant bytes are set according to the official Z-Wave protocol specification. X – channels summarized: 1/2/3/4 channel are equal to values 1/2/4/8. Y – sequence number: 1-10 (parameter 157).
34. Alarm configuration - 5th slot This parameter determines to which alarm frames and how the device should react. The parameters consist of 4 bytes, three most significant bytes are set according to the official Z-Wave protocol specification. X – channels summarized: 1/2/3/4 channel are equal to values 1/2/4/8. Y – sequence number: 1-10 (parameter 157).
41. Input 2 - sent scenes This parameter defines which actions result in sending scene ID and attribute assigned to them. Parameter is relevant only if parameter 21 is set to 2, 3 or 4. Parameter size 1B Default value 0 (no scenes sent) 1 – Key pressed 1 time Available values 2 – Key pressed 2 times 4 – Key pressed 3 times 8 – Key hold down and key released 42. Input 3 - sent scenes This parameter defines which actions result in sending scene ID and attribute assigned to them.
61. Power reports - on change This parameter determines the minimum change in consumed power that will result in sending new power report to the main controller. For loads under 50W the parameter is not relevant and reports are sent every 5W change. Power report are sent no often then every 30 seconds. Parameter size 2B Default value Available values 15 (15%) 0 - reports are disabled 1-500 (1-500%) - change in power 62.
65. Energy reports - on change This parameter determines the minimum change in consumed energy that will result in sending new energy report to the main controller. Parameter size 2B Default value Available values 10 (0.1 kWh) 0 - reports are disabled 1-500 (0.01 - 5 kWh) - change in energy 66. Energy reports - periodic This parameter determines in what time intervals the periodic energy reports are sent to the main controller.
151. Local control - time between extreme values This parameter determines time needed to change the state between extreme values (0-100%) when controlling with connected buttons. Parameter size 2B Default value Available values 152. 3 (3s) 0 – instantly 1-127 (1s-127s, 1s step) 128-254 (1min-127min, 1min step) Remote control - time between extreme values This parameter determines time needed to change the state between extreme values (0-100%) when controlling via Z-Wave network.
154. ON frame value for single click This parameter defines value sent to devices in association groups (using Basic Command Class). The parameters consist of 4 bytes, each bite reserved for separate channel, from most significant to least significant. Parameter size 4B Default value Available values 4294967295 (0xFF FF FF FF – 255 for all channels) For every byte: 0-255 155.
11: Regulations This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions: 1. This device may not cause harmful interference 2. This device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
This device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS 102 RF exposure, users can obtain Canadian information on RF exposure and compliance. cet appareil est conforme à l'exemption des limites d'évaluation courante dans la section 2.5 du cnr - 102 et conformité avec rss 102 de l'exposition aux rf, les utilisateurs peuvent obtenir des données canadiennes sur l'exposition aux champs rf et la conformité.