FIBARO FBFGRGBWM442 Installation Manual

OPERATING

MANUAL

EN

FIBARO

RGBW CONTROLLER 2

FGRGBW-442

v1.1

Table of contents

1: Important safety information 4

2: Description and features 5

2.1: Description 5

2.2: Main features 5

3: Specications 6

4: Installation 7

4.1: Before installation 7

4.2: Connection with RGBW/RGB LED strip 9

4.3: Connection with one-color LED strips 10

4.4: Connection with halogen lights 10

4.5: Connection with 0-10V analog sensors 11

3

5: Adding to Z-Wave network 12

5.1: Adding manually 12

5.2: Adding using Smart Start 13

6: Removing from Z-Wave network 14

7: Operating the device 14

7.1: Operating the device using switches 14

7.2: Visual indications 16

7.3: Menu 16

7.4: Resetting to factory defaults 17

8: Activating scenes 17

9: Conguration 18

9.1: Associations 18

9.2: Advanced parameters 20

10: Z-Wave specication 32

11: Regulations 37

4

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. will not be held responsi-

!

ble for any damage or loss of warranty privileges for other con­nected devices if the connection is not compliant with their
manuals.

DANGER!

The device is powered with a secure voltage. Nevertheless, the

user should be careful or should commission the installation to
a qualied person.

DANGER!

To avoid risk of electrical shock, do not operate the device with

wet or moist hands.

This product is intended for indoor use only in dry locations.

Do not use in damp or wet locations, near a bathtub, sink,

!

shower, swimming pool, or anywhere else where water or
moisture are present.

Not a toy!

This product is not a toy. Keep away from children and

!

animals!

Important safety InformatIon

2: Description and features

2.1: Description

FIBARO RGBW Controller 2 is a 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.

Inputs support momentary/toggle switches and 0-10V analog sen­sors, like temperature sensors, humidity sensors, light sensors etc.

2.2: Main features

• Compatible with any certied Z-Wave or Z-Wave Plus controller.

5

• Allows for controlling:

» RGB/RGBW LED strip,

» one-color LED strips,

» halogen lights,

» other compliant resistive loads.

• Allows for connecting to inputs:

» switches/buttons,

» 0-10V analog sensors or potentiometers.

• Active power and energy metering.

• Supports Z-Wave network Security Modes: S0 with AES-128 en­cryption and S2 Authenticated with PRNG-based encryption.

• Works as a Z-Wave signal repeater (all non-battery operated de­vices within the network will act as repeaters to increase reliabili­ty of the network).

• May be used with all devices certied with the Z-Wave Plus cer­ticate and should be compatible with such devices produced by
other manufacturers.

The device is a Security Enabled Z-Wave Plus product

i

and a Security Enabled Z-Wave Controller must be

used in order to fully utilize the product.

DescrIptIon anD features

6

3: Specications

Power supply 12V/24V DC ±10%
Rated load current 6A for channel,

12A total for all outputs

Power output 144W combined for 12V

288W combined for 24V

Inputs 4 inputs, 0-10V (congurable pull-

up) or binary
Outputs 4 outputs, PWM
PWM frequency 244Hz
Overvoltage category OVC I
Rated impulse voltage 330V
Maximum length of wires 2m
Operating temperature 0–40°C (32–104°F)
Shipping and storage

temperature
Radio protocol Z-Wave (500 series chip)
Radio frequency 868.4 / 869.85 MHz EU

Transmit power EIRP max. +2dBm
Range up to 50m (164 ft) outdoors

Recommended wire
cross-section area

Dimensions
(Length x Width x Height)

Compliance with EU directives RoHS 2011/65/EU

Device type Type 1.C Action

-40–60°C (-40–140°F)

908.4 / 916 MHz US

919.8 / 921.4 MHz ANZ

869.0 MHz RU

up to 40m (131 ft) indoors

(depending on terrain and building

structure)

0.2–2.0mm2 (24–14 AWG)

(depending on load current)

42.35 x 36.90 x 17.5 mm

(1.67” x 1.5” x 0.69”)

RED 2014/53/EU

specIfIcatIons

Pollution degree 2
Software class Class A
Maximum phase to ground

voltage of the supply source
Protection against electric

shock class
Classication of installation

and use
Supply Connection Permanent connection

Supplied by external SELV source

up to 24V DC

Class III control

Independently, Flush Mounted op-

erating control (lighting control)

Radio frequency of individual device must be same as

i

your Z-Wave controller. Check information on the box

or consult your dealer if you are not sure.

The maximum load for one channel is 6 A. Do not ex-

i

ceed this value as it can permanently damage the

device.

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.

• The purpose of control is operating control (lighting control) for
LED, RGB, RGBW strips, halogen lights and other resistive loads.

7

• The construction of control: independently mounted control for
ush mounting.

• Connect only in accordance with one of the diagrams.

• The device is powered with secure voltage; nevertheless, the user
should be extra careful or should commission the installation to a
qualied person.

• Do not connect devices which are not compliant with the
specication.

• Every connected device should be compliant with the relevant
safety standards.

• RGBW Controller 2 and the load connected to its output must be
powered by 12VDC or 24VDC stabilized power supply (SELV) with
short circuit protection. Connecting higher voltage or voltage not
matching the load’s voltage may cause damage to the device.

• Connecting long RGBW/RGB/LED strips may cause voltage drops,
resulting in lower light brightness further from R/G/B/W outputs.
To eliminate this eect it is recommended to connect few shorter
strips in parallel connection instead of one long strip connected
serially.

• RGBW Controller 2 has 0-10V inputs. There is no 0-10V output.
Output is controlled by PWM at 244Hz.

• We recommend using momentary switches for comfortable light
control.

• Field-installed conductors must be separated from uninsulated or
bare live parts of a dierent circuit

InstallatIon

8

(W)

P(12/24V DC)

OUT4

Notes for diagrams:

GND

IN1
IN2
IN3

IN4
OUT1
OUT2
OUT3

P – 12/24V DC power supply connector

GND – ground connector

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)

(R)

(G)

(B)

FIBARO

RGBW Controller 2

B

OUT3 – output connector controlled by IN3 input (blue LED color
recommended)

OUT4 – output connector controlled by IN4 input (white LED color
recommended)

B – service button (used to add/remove the device)

InstallatIon

4.2: Connection with RGBW/RGB LED strip

We recommend connecting LED strip channels in the same order as
on the diagram (R - OUT1, G - OUT2, B - OUT3, W - OUT4).

If you want to connect RGB strip, use the same diagram, but do not
connect OUT4 channel.

1. Disconnect the power.

2. Connect with the diagram below:

9

1

12/24V DC

GND

3

12/24V

R

G

B

W

Diagram 1: Example connection with RGBW LED strip

(1 – power supply, 2 – switch, 3 – RGBW LED strip)

3. Verify correctness of connection.

4. Power the device.

5. Add the device to the Z-Wave network.

The device works in RGBW mode by default, to enable

i

HSB mode change parameter 150 to 1.

2

2

P
GND
IN1
IN2
IN3
IN4
OUT1
OUT2
OUT3
OUT4

InstallatIon

10

4.3: Connection with one-color LED strips

1. Disconnect the power.

2. Connect with the diagram below:

12/24V DC

1

+
–

+
–

+
–

+
–

GND

2

4

+
–

4

2

+
–

4

+
–

4

+
–

P
GND
IN1
IN2
IN3
IN4
OUT1
OUT2
OUT3
OUT4

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. Connect with the diagram below:

12/24V DC

GND

1

2

2

5

Diagram 4: Example connection with 4 halogen lights

(1 – power supply, 2 – switch, 5 – halogen light)

3. Verify correctness of connection.

P
GND
IN1
IN2
IN3
IN4
OUT1
OUT2
OUT3
OUT4

555

InstallatIon

4. Power the device.

5. Add the device to the Z-Wave network.

4.5: Connection with 0-10V analog sensors

The 2-wire analog sensor requires pull-up resistor.

You can connect up to 4 analog sensors to IN1/IN2/IN3/IN4 terminals.

1. Disconnect power.

2. Connect with the diagram below:

11

12/24V DC

GND

1

VDD
GND

VDD
GND

GND OUT

GND OUT

0-10V

0-10V

0-10V

6

OUT0-10V

6

OUT

7

7

P
GND

IN3

IN4

IN2

Diagram 5: Example connection with 4 0-10V analog sensors

(1 – power supply, 6 – 3-wire 0-10V analog sensor,

7 – 2-wire 0-10V analog sensor, 8 – congurable pull-up

resistors)

3. Verify correctness of connection.

4. Power the device.

5. Add the device to the Z-Wave network.

IN1

12V

8

6. Change values of parameters:

• Connected to IN1:

» Does not require pull-up: change parameter 20 to 0

» Requires pull-up: change parameter 20 to 1

• Connected to IN2:

» Does not require pull-up: change parameter 21 to 0

» Requires pull-up: change parameter 21 to 1

• Connected to IN3:

» Does not require pull-up: change parameter 22 to 0

» Requires pull-up: change parameter 22 to 1

• Connected to IN4:

» Does not require pull-up: change parameter 23 to 0

» Requires pull-up: change parameter 23 to 1

InstallatIon

12

5: Adding to Z-Wave network

Adding (Inclusion) – Z-Wave device learning mode, allowing to add

the device to existing Z-Wave network.

Full DSK code is present only on the box, make sure to

i

keep it or copy the code.

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 service button.

4. If you are adding in Security S2 Authenticated, input the underlined
part of the DSK (label on the box).

5. LED will start blinking yellow, wait for the adding process to end.

6. Adding result will be conrmed by the Z-Wave controller’s message
and the LED:

• Green – successful (non-secure, S0, S2 Unauthenticated),

• Magenta – successful (Security S2 Authenticated),

• Red – not successful.

aDDIng to Z-Wave netWork

5.2: Adding using Smart Start

SmartStart enabled products can be added into a Z-Wave network

by scanning the Z-Wave QR Code present on the product with a con­troller providing SmartStart inclusion. SmartStart product will be
added automatically within 10 minutes of being switched on in the
network range.

To add the device to the Z-Wave network using SmartStart:

1. To use SmartStart your controller needs to support Security S2
(see the controller’s manual).

2. Enter the full DSK string code to your controller. If your controller
is capable of QR scanning, scan the QR code placed on the label
on the box.

3. Power the device.

4. Wait for the adding process to start (up to few minutes), which is
signalled with yellow LED blinking.

13

5. Adding result will be conrmed by the Z-Wave controller’s message
and the LED:

• Green – successful (non-secure, S0, S2 Unauthenticated),

• Magenta – successful (Security S2 Authenticated),

• Red – not successful.

In case of problems with adding the device, please re-

i

set the device and repeat the adding procedure.

aDDIng to Z-Wave netWork

14

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 service button.

4. LED will start blinking yellow, wait for the removing process
to end.

5. Successful removing will be conrmed by the Z-Wave
controller’s message and red LED colour.

7: Operating the device

7.1: Operating the device using switches

Controlling connected loads in RGBW mode (default)

Input can control output only with the same number (e.g. switch con­nected to IN1 controls load connected to output OUT1). Perform fol­lowing actions on inputs to change state of the connected load:

• 1xclick – change to the opposite one (ON/OFF)

A single click switches between the OFF state and the

i

last non-OFF state. It means it may set the colour back,
but the light may not light up as it doesn’t change the
brigthness.

• 2xclick – set colour to 100%

• hold/release – dimm/brighten colour

removIng from Z-Wave netWork

Controlling connected loads in HSB mode

HSB mode is enabled by setting parameter 150 to 1. Inputs cor­respond to dierent components in HSB colour space: IN1 – Hue,
IN2 – Saturation, IN3 – Brightness and IN4 input controls OUT4 out­put. Perform following actions on inputs to change values of the
components:

• 1xclick when value is 0 – restore last set value

• 1xclick when value is not 0 – set value to 0

• 2xclick – set value to max

• hold/release – increase/decrease value

15

B

Remember that if the saturation is too low, you may

i

not notice any changes while holding IN1.

More information about the behaviour of the button

i

and HSB mode can be found in our knowledge base.

Other actions

• 1,2,3xclick/hold/release – activate scene in the controller for spe­cic action (requires prior conguration)

When you hold the button connected to IN1,
you revolve around the cone on the H (Hue)
axis.

When you hold the button connected to IN2,
you change the saturation (S).

When you hold the button connected to the
IN3, you change the brightness (B).

operatIng the DevIce

16

7.2: Visual indications

The built-in LED light shows current device status.

After powering the device:

• Green – device added to a Z-Wave network (without Security S2
Authenticated)

• Magenta – device added to a Z-Wave network (with Security S2
Authenticated)

• Red – device not added to a Z-Wave network

Update:

• Blinking cyan – update in progress

• Green – update successful

• Red – update not successful

Menu:

• Blinking green – entering the menu (added without Security S2
Authenticated)

• Blinking magenta – entering the menu (added with Security S2
Authenticated)

• Blinking red – entering the menu (not added to a Z-Wave network)

• Green – reset energy consumption memory

• 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 service button to enter the menu, device blinks
to signal adding status (see 7.2: Visual indications).

2. Release the service button when device signals desired position
with colour:

• GREEN - reset energy consumption memory

3. Quickly click the service button to select, 2 blinks of the same

operatIng the DevIce

• YELLOW - reset to factory defaults

colour will conrm the selection.

7.4: Resetting to factory defaults

Reset procedure allows to restore the device back to its factory set­tings, which means all information about the Z-Wave controller and
user conguration will be deleted. Resetting to factory defaults does
not reset energy consumption memory.

Resetting the device is not the recommended way of

i

removing the device from the Z-Wave network. Use re­set procedure only if the primary controller is missing or
inoperable. Certain device removal can be achieved by the
procedure of removing described.

1. Press and hold the service button to enter the menu.

2. Release service button when the device glows yellow.

3. Quickly click the service button to conrm.

4. After few seconds the device will be restarted, which is signalled
with the red colour.

17

8: Activating scenes

The device can activate scenes in the Z-Wave controller by sending
scene ID and attribute of a specic action using Central Scene Com­mand Class.

In order for this functionality to work, connect momentary or toggle
switch to the IN1-IN4 inputs and set parameters 20-23 to 2, 3 or 4
(depending on type of switch).

Scene IDs for inputs

Input Scene ID

IN1 1
IN2 2
IN3 3
IN4 4

Attributes for actions

Action Attribute

Switch clicked once Key Pressed 1 time

Switch clicked twice Key Pressed 2 times

Switch clicked thrice Key Pressed 3 times

Switch held* Key Held Down

Switch released* Key Released

* Not available

for toggle switches.

actIvatIng scenes

18

9: Conguration

9.1: Associations

Association (linking devices) – direct control of other devices with­in the Z-Wave system network.

Associations allow:

• reporting the device status to the Z-Wave controller (using Lifeline
group),

• creating simple automations by controlling other devices without
participation of the main controller (using groups assigned to ac­tions on the device).

Commands send to 2nd–10th association groups re-

i

ect inputs operation according to device congura­tion, e.g. turning the rst channel on using input will send
frame responsible for the same action.

The device provides the association of 10 groups:

1st association group – “Lifeline” reports the device status and al-

lows for assigning single device only (main controller by default).

2nd association group – “RGBW Sync” allows to synchronize state
of other FIBARO RGBW Controller devices (FGRGBW-442 and FGRGB­WM-441) - do not use with other devices.

3rd association group – “On/O (IN1)” is used to turn the associat­ed devices on/o reecting IN1 operation.

4th association group – “Dimmer (IN1)” is used to change level of
associated devices reecting IN1 operation.

5th association group – “On/O (IN2)” is used to turn the associat­ed devices on/o reecting IN2 operation.

6th association group – “Dimmer (IN2)” is used to change level of
associated devices reecting IN2 operation.

7th association group – “On/O (IN3)” is used to turn the associat­ed devices on/o reecting IN3 operation.

8th association group – “Dimmer (IN3)” is used to change level of
associated devices reecting IN3 operation.

confIguratIon

9th association group – “On/O (IN4)” is used to turn the associat­ed devices on/o reecting IN4 operation.

10th association group – “Dimmer (IN4)” is used to change level of
associated devices reecting IN4 operation.

Association groups 2-10 can be triggered only from

i

buttons connected to IN1-IN4 and will not work for

0-10V sensors.

The device allows to control 5 regular or multichannel devices per
an association group, with the exception of “Lifeline” that is reserved
solely for the controller and hence only 1 node can be assigned.

Assocation groups mapping

19

Root Endpoint

Association Group 1 Endpoint 1-9* Association Group 1

Association Group 2 Endpoint 1 Association Group 2

Association Group 3 Endpoint 2 Association Group 2

Association Group 4 Endpoint 2 Association Group 3

Association Group 5 Endpoint 3 Association Group 2

Association Group 6 Endpoint 3 Association Group 3

Association Group 7 Endpoint 4 Association Group 2

Association Group 8 Endpoint 4 Association Group 3

Association Group 9 Endpoint 5 Association Group 2

Association Group 10 Endpoint 5 Association Group 3

* max nodes supported: 0

Basic commands mapping:

Command Root

1-5 6-9

Association group in

endpoint

Endpoints

Basic Set = EP1

Basic Get = EP1

Basic Report = EP1

Switch

Multilevel Set

Switch

Multilevel Get

Switch

Multilevel Report

–

Sensor

Multilevel Get

Sensor

Multilevel Report

confIguratIon

20

RGBW mode: commands sent to association groups for parame­ter 150 set to 0

1,2 click Hold Release

Input

1

Input

2

Input

3

Input

4

HSB mode: commands sent to association groups for parameter
150 set to 1

Input

1, 2, 3

Basic Set: 3rd,

Multilevel Set: 4th,

Switch Color Set: 2nd

Basic Set: 5th,

Multilevel Set: 6th,

Switch Color Set: 2nd

Basic Set: 7th,

Multilevel Set: 8th,

Switch Color Set: 2nd

Basic Set: 9th,

Multilevel Set: 10th,

Switch Color Set: 2nd

1,2 click Hold Release

Switch Color Set: 2nd – Switch Color Set: 2nd

Multilevel

Start Level

Change: 4th

Multilevel

Start Level

Change: 6th

Multilevel

Start Level

Change: 8th

Multilevel

Start Level

Change: 10th

Multilevel Stop Level

Change: 4th,

Switch Color Set: 2nd

Multilevel Stop Level

Change: 6th,

Switch Color Set: 2nd

Multilevel Stop Level

Change: 8th,

Switch Color Set: 2nd

Multilevel Stop Level

Change: 10th,

Switch Color Set: 2nd

Input

4

Basic Set: 9th,

Multilevel Set: 10th,

Switch Color Set: 2nd

Multilevel

Start Level

Change: 10th

Multilevel Stop Level

Change: 10th,

Switch Color Set: 2nd

9.2: Advanced parameters

The device allows to customize its operation to user’s needs using
congurable parameters.

The settings can be adjusted via Z-Wave controller to which the de­vice is added. The way of adjusting them might dier depending on
the controller.

In the FIBARO interface parameters are presented as simple options
in Advanced Settings of the device.

Available parameters:

confIguratIon

1. Remember device status before the power failure

This parameter determines how the device will react in the event

of power supply failure (e.g. power outage or taking out from the

electrical outlet).

After the power supply is back on, the device can be restored to

previous state or remain switched o. The sequence is not remem-

bered after the power returns. After power failure, the last color

set before the sequence will be restored.

Parameter size 1B

Default value 0

0 - device remains switched o

Available

values

20. Input 1 - operating mode

1 - device restores the state from before the
power failure

21

This parameter allows to choose mode of 1st input (IN1). Change it

depending on connected device.

Parameter size 1B

Default value 2 (momentary switch)

0 – Analog input without internal pull-up (Sensor
Multilevel)

1 – Analog input with internal pull-up (Sensor
Multilevel)

Available

values

2 – Momentary switch (Central Scene)

3 – Toggle switch: switch state on every input
change (Central Scene)

4 – Toggle switch: contact closed – ON, contact
opened – OFF (Central Scene)

confIguratIon

22

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 (momentary switch)

0 – Analog input without internal pull-up (Sensor
Multilevel)

1 – Analog input with internal pull-up (Sensor
Multilevel)

Available

values

2 – Momentary switch (Central Scene)

3 – Toggle switch: switch state on every input
change (Central Scene)

4 – Toggle switch: contact closed – ON, contact
opened – OFF (Central Scene)

22. Input 3 - operating mode

This parameter allows to choose mode of 3rd input (IN3). Change it

depending on connected device.

Parameter size 1B

Default value 2 (momentary switch)

0 – Analog input without internal pull-up (Sensor
Multilevel)

1 – Analog input with internal pull-up (Sensor
Multilevel)

Available

values

2 – Momentary switch (Central Scene)

3 – Toggle switch: switch state on every input
change (Central Scene)

4 – Toggle switch: contact closed – ON, contact
opened – OFF (Central Scene)

confIguratIon

23. Input 4 - operating mode

This parameter allows to choose mode of 4th input (IN4). Change it

depending on connected device.

Parameter size 1B

Default value 2 (momentary switch)

0 – Analog input without internal pull-up (Sensor
Multilevel)

1 – Analog input with internal pull-up (Sensor
Multilevel)

Available

values

2 – Momentary switch (Central Scene)

3 – Toggle switch: switch state on every input
change (Central Scene)

4 – Toggle switch: contact closed – ON, contact
opened – OFF (Central Scene)

23

30. Alarm conguration - 1st slot

This parameter determines to which alarm frames and how the

device should react. The parameters consist of 4 bytes, three most

signicant bytes are set according to the ocial Z-Wave protocol

specication.

X – channels summarized: 1/2/3/4 channel are equal to values

1/2/4/8.

Y – sequence number: 1-10 (parameter 157).

Parameter size 4B

Default value [0x00, 0x00, 0x00, 0x00] (disabled)

1B [MSB] – Notication Type

2B – Notication Status

Available

values

3B – Event/State Parameters

4B [LSB] – action:

0x00 – no reaction, 0x0X – turn o selected chan-

nel, 0x1X – turn on selected channel, 0x2X – blink
selected channel, 0x3Y – activate alarm sequence

confIguratIon

24

31. Alarm conguration - 2nd slot

This parameter determines to which alarm frames and how the

device should react. The parameters consist of 4 bytes, three most

signicant bytes are set according to the ocial Z-Wave protocol

specication.

X – channels summarized: 1/2/3/4 channel are equal to values

1/2/4/8. Y – sequence number: 1-10 (parameter 157).

Parameter size 4B

[0x05, 0xFF, 0x00, 0x00]

Default value

(Water Alarm, any notication, no action)

1B [MSB] – Notication Type

2B – Notication Status

Available

values

32. Alarm conguration - 3rd slot

This parameter determines to which alarm frames and how the

device should react. The parameters consist of 4 bytes, three most

signicant bytes are set according to the ocial Z-Wave protocol

X – channels summarized: 1/2/3/4 channel are equal to values

1/2/4/8. Y – sequence number: 1-10 (parameter 157).

Parameter size 4B

Default value

3B – Event/State Parameters

4B [LSB] – action:

0x00 – no reaction, 0x0X – turn o selected chan-

nel, 0x1X – turn on selected channel, 0x2X – blink
selected channel, 0x3Y – activate alarm sequence

specication.

[0x01, 0xFF, 0x00, 0x00]

(Smoke Alarm, any notication, no action)

1B [MSB] – Notication Type

confIguratIon

Available

values

2B – Notication Status

3B – Event/State Parameters

4B [LSB] – action:

0x00 – no reaction, 0x0X – turn o selected chan-

nel, 0x1X – turn on selected channel, 0x2X – blink
selected channel, 0x3Y – activate alarm sequence

33. Alarm conguration - 4th slot

This parameter determines to which alarm frames and how the

device should react. The parameters consist of 4 bytes, three most

signicant bytes are set according to the ocial Z-Wave protocol

specication.

X – channels summarized: 1/2/3/4 channel are equal to values

1/2/4/8. Y – sequence number: 1-10 (parameter 157).

Parameter size 4B

[0x02, 0xFF, 0x00, 0x00]

Default value

(CO Alarm, any notication, no action)

1B [MSB] – Notication Type

2B – Notication Status

25

Available

values

34. Alarm conguration - 5th slot

This parameter determines to which alarm frames and how the

device should react. The parameters consist of 4 bytes, three most

signicant bytes are set according to the ocial Z-Wave protocol

X – channels summarized: 1/2/3/4 channel are equal to values

1/2/4/8. Y – sequence number: 1-10 (parameter 157).

Parameter size 4B

Default value

3B – Event/State Parameters

4B [LSB] – action:

0x00 – no reaction, 0x0X – turn o selected chan-

nel, 0x1X – turn on selected channel, 0x2X – blink
selected channel, 0x3Y – activate alarm sequence

specication.

[0x04, 0xFF, 0x00, 0x00]

(Heat Alarm, any notication, no action)

1B [MSB] – Notication Type

Available

values

2B – Notication Status

3B – Event/State Parameters

4B [LSB] – action:

0x00 – no reaction, 0x0X – turn o selected chan-

nel, 0x1X – turn on selected channel, 0x2X – blink
selected channel, 0x3Y – activate alarm sequence

confIguratIon

26

35. Duration of alarm signalization

This parameter determines the duration of alarm signaling

(ashing mode and/or alarm sequence).

Parameter size 2B

Default value 600 (10min)

Available

values

40. Input 1 - sent scenes

This parameter denes which actions result in sending scene ID

and attribute assigned to them. Parameter is relevant only if pa-

Actions can be summed up, e.g. 1+2+4+8=15 and entered as a val-

Parameter size 1B

Default value 15

Available

values

41. Input 2 - sent scenes

This parameter denes which actions result in sending scene ID

and attribute assigned to them. Parameter is relevant only if pa-

0 – innite signalization

1-32400 (1s-9h, 1s step)

rameter 20 is set to 2, 3 or 4.

ue for the parameter.

1 – Key pressed 1 time

2 – Key pressed 2 times

4 - Key pressed 3 times

8 – Key hold down and key released

rameter 21 is set to 2, 3 or 4.

confIguratIon

Actions can be summed up, e.g. 1+2+4+8=15 and entered as a val-

ue for the parameter.

Parameter size 1B

Default value 15

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 denes which actions result in sending scene ID

and attribute assigned to them. Parameter is relevant only if pa-

rameter 22 is set to 2, 3 or 4.

Actions can be summed up, e.g. 1+2+4+8=15 and entered as a val-

ue for the parameter.

Parameter size 1B

Default value 15

1 – Key pressed 1 time

27

Available

values

43. Input 4 - sent scenes

This parameter denes which actions result in sending scene ID

and attribute assigned to them. Parameter is relevant only if pa-

Actions can be summed up, e.g. 1+2+4+8=15 and entered as a val-

Parameter size 1B

Default value 15

Available

values

62. Power reports - periodic

2 – Key pressed 2 times

4 – Key pressed 3 times

8 – Key hold down and key released

rameter 23 is set to 2, 3 or 4.

ue for the parameter.

1 – Key pressed 1 time

2 – Key pressed 2 times

4 – Key pressed 3 times

8 – Key hold down and key released

This parameter determines in what time intervals the periodic

power reports are sent to the main controller. Periodic reports do

not depend of power change (parameter 61).

Parameter size 2B

Default value 3600 (1h)

Available

values

0 - periodic reports are disabled

30-32400 (30-32400s) - report interval

confIguratIon

28

63.

This parameter denes minimal change (from the last reported) of

analog input voltage that results in sending new report and change

in the output value. Parameter is relevant only for analog inputs

Parameter size 2B

Default value 5 (0.5V)

Available

values

64. Analog inputs reports - periodic

This parameter denes reporting period of analog inputs value.

Periodical reports are independent from changes in value (param-

Parameter is relevant only for analog inputs (parameter 20, 21, 22

Parameter size 2B

Analog inputs reports and output change on input

change

(parameter 20, 21, 22 or 23 set to 0 or 1).

0 - reporting on change disabled

1-100 (0.1-10V, 0.1V step)

eter 63).

or 23 set to 0 or 1).

Default value 0 (periodical reports disabled)

Available

values

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. Energy reports are sent no often than every 30 seconds.

Parameter size 2B

Default value 10 (0.1 kWh)

Available

values

66. Energy reports - periodic

This parameter determines in what time intervals the periodic

energy reports are sent to the main controller. Periodic reports do

not depend of energy change (parameter 65)

Parameter size 2B

0 – periodical reports disabled

30-32400 (30-32400s, 1s step)

0 - reports are disabled

1-500 (0.01 - 5 kWh) - change in energy

confIguratIon

Default value 3600 (1h)

Available

values

0 - periodic reports are disabled

30-32400 (30-32400s) - report interval

150. Inputs - LED colour control mode

This parameter determines how connected switches control LED

strips.

Parameter size 1B

Default value 0 (RGBW mode)

0 – RGBW mode

(every input controls output with the same
number, IN1-OUT1, IN2-OUT2, IN3-OUT3,

Available

values

151. Local control - transition time

IN4-OUT4)

1 – HSB and White mode

(inputs works in HSB color model, IN1-H(Hue),
IN2-S(Saturation), IN3-B(Brightness),
IN4-White(OUT4)

29

This parameter determines time of smooth transition between 0%

and 100% when controlling with connected switches.

Parameter size 2B

Default value 3 (3s)

0 – instantly

Available

values

152. Remote control - transition time

This parameter determines time needed to change the state be-

tween current and target values when controlling via Z-Wave

Parameter size 2B

Default value 3 (3s)

Available

values

1-127 (1s-127s, 1s step)

128-254 (1min-127min, 1min step)

network.

0 – instantly

1-127 (1s-127s, 1s step)

128-254 (1min-127min, 1min step)

confIguratIon

30

154. ON frame value for single click

This parameter denes value sent to devices in association groups.

The parameters consist of 4 bytes, each byte reserved for separate

channel, from least signicant (IN1) to most signicant (IN4).

Applicable for Basic Set and Switch Multilevel Set commands.

Parameter size 4B

Default value 4294967295 (0xFF FF FF FF – 255 for all channels)

Available

values

155. OFF frame value for single click

This parameter denes value sent to devices in association groups.

The parameters consist of 4 bytes, each byte reserved for separate

channel, from least signicant (IN1) to most signicant (IN4).

Applicable for Basic Set and Switch Multilevel Set commands.

Parameter size 4B

Default value 0 (0x00 00 00 00 – 0 for all channels)

Available

values

156. ON frame value for double click

This parameter denes value sent to devices in association groups.

The parameters consist of 4 bytes, each byte reserved for separate

channel, from least signicant (IN1) to most signicant (IN4).

For every byte:

0-99, 255

For every byte:

0-99, 255

confIguratIon

Applicable for Basic Set and Switch Multilevel Set commands.

Parameter size 4B

Default value 0 (0x63 63 63 63 – 99 for all channels)

Available

values

For every byte:

0-99, 255

157. Start programmed sequence

Setting this parameter will start programmed sequence with select-

ed number. User can dene own sequences via controller. While

the sequence is active, the menu is unavailable.

Parameter size 1B

Default value 0 (sequence inactive)

0 – sequence inactive

1-5 – user-dened sequence

6 – Fireplace sequence

Available

values

7 – Storm sequence

8 – Rainbow sequence

9 – Aurora sequence

10 – Police (red-white-blue) sequence

31

confIguratIon

32

10: Z-Wave specication

Supported Command Classes:

Command Class Version Secure

1. COMMAND_CLASS_ZWAVEPLUS_INFO [0x5E] V2

2. COMMAND_CLASS_SWITCH_MULTILEVEL [0x26] V4 YES

3. COMMAND_CLASS_ASSOCIATION [0x85] V2 YES

COMMAND_CLASS_MULTI_CHANNEL_ASSOCIA-

4.
TION [0x8E]

COMMAND_CLASS_ASSOCIATION_GRP_INFO

5.
[0x59]

6. COMMAND_CLASS_VERSION [0x86] V2 YES

COMMAND_CLASS_MANUFACTURER_SPECIFIC

7.
[0x72]

V3 YES

V2 YES

V2 YES

8. COMMAND_CLASS_MULTI_CHANNEL [0x60] V4 YES

9. COMMAND_CLASS_TRANSPORT_SERVICE [0x55] V2

10. COMMAND_CLASS_CRC_16_ENCAP [0x56] V1

11. COMMAND_CLASS_SUPERVISION [0x6C] V1

12. COMMAND_CLASS_SECURITY [0x98] V1

13. COMMAND_CLASS_SECURITY_2 [0x9F] V1

COMMAND_CLASS_DEVICE_RESET_LOCALLY

14.
[0x5A]

15. COMMAND_CLASS_APPLICATION_STATUS [0x22] V1

16. COMMAND_CLASS_POWERLEVEL [0x73] V1 YES

COMMAND_CLASS_FIRMWARE_UPDATE_MD

17.
[0x7A]

18. COMMAND_CLASS_CONFIGURATION [0x70] V1 YES

19. COMMAND_CLASS_PROTECTION [0x75] V2 YES

20. COMMAND_CLASS_NOTIFICATION [0x71] V8 YES

21. COMMAND_CLASS_COLOR_SWITCH [0x33] V3 YES

V1 YES

V4 YES

22 COMMAND_CLASS_METER [0x32] V3 YES

23. COMMAND_CLASS_CENTRAL_SCENE [0x5B] V3 YES

24. COMMAND_CLASS_SENSOR_MULTILEVEL [0x31] V11 YES

25. COMMAND_CLASS_BASIC [0x20] V1 YES

Z-Wave specIfIcatIon

Multichannel Command Class:

MULTICHANNEL CC

ROOT (Endpoint 1)

33

Generic Device

Class

Specic Device

Class

Command

Classes

GENERIC_TYPE_SWITCH_MULTILEVEL

SPECIFIC_TYPE_COLOR_TUNABLE_MULTILEVEL

COMMAND_CLASS_ZWAVEPLUS_INFO [0x5E]

COMMAND_CLASS_SWITCH_MULTILEVEL [0x26]

COMMAND_CLASS_ASSOCIATION [0x85]

COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION

[0x8E]

COMMAND_CLASS_ASSOCIATION_GRP_INFO [0x59]

COMMAND_CLASS_SUPERVISION [0x6C]

COMMAND_CLASS_SECURITY [0x98]

COMMAND_CLASS_SECURITY_2 [0x9F]

COMMAND_CLASS_APPLICATION_STATUS [0x22]

COMMAND_CLASS_PROTECTION [0x75]

COMMAND_CLASS_NOTIFICATION [0x71]

COMMAND_CLASS_COLOR_CONTROL [0x33]

COMMAND_CLASS_METER [0x32]

Description Color Controller

Endpoint 2, 3 ,4 and 5

Generic Device

Class

Specic Device

Class

Command

Classes

COMMAND_CLASS_SWITCH_MULTILEVEL [0x26]

COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION

COMMAND_CLASS_ASSOCIATION_GRP_INFO [0x59]

COMMAND_CLASS_APPLICATION_STATUS [0x22]

GENERIC_TYPE_SWITCH_MULTILEVEL

SPECIFIC_TYPE_POWER_SWITCH_MULTILEVEL

COMMAND_CLASS_ZWAVEPLUS_INFO [0x5E]

COMMAND_CLASS_ASSOCIATION [0x85]

[0x8E]

COMMAND_CLASS_SUPERVISION [0x6C]

COMMAND_CLASS_SECURITY [0x98]

COMMAND_CLASS_SECURITY_2 [0x9F]

Description

EP2 controlls directly Output 1 [Red]

EP3 controlls directly Output 2 [Green]

EP4 controlls directly Output 3 [Blue]

EP5 controlls directly Output 4 [White]

Z-Wave specIfIcatIon

34

Endpoint 6, 7, 8 and 9

Generic Device

Class

Specic Device

Class

Command

Classes

Description

GENERIC_TYPE_SENSOR_MULTILEVEL

SPECIFIC_TYPE_ROUTING_SENSOR_MULTILEVEL

COMMAND_CLASS_ZWAVEPLUS_INFO [0x5E]

COMMAND_CLASS_ASSOCIATION [0x85]

COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION

[0x8E]

COMMAND_CLASS_ASSOCIATION_GRP_INFO [0x59]

COMMAND_CLASS_SUPERVISION [0x6C]

COMMAND_CLASS_SECURITY [0x98]

COMMAND_CLASS_SECURITY_2 [0x9F]

COMMAND_CLASS_SENSOR_MULTILEVEL [0x31]

COMMAND_CLASS_APPLICATION_STATUS [0x22]

EP6 reports the Voltage measured on Input 1
EP7 reports the Voltage measured on Input 2
EP8 reports the Voltage measured on Input 3
EP9 reports the Voltage measured on Input 4

Notication Command Class:

The device uses Notication Command Class to report dierent
events to the controller (“Lifeline” group).

ROOT (Endpoint 1)

Notication

Type

Power Manage-

ment [0x08]

System [0x09]

Over-current detected

System hardware fail-

ure with manufactur­er proprietary failure

Event Status Parameter

0xFF – enable

[0x06/V3]

code [0x03]

(non-change-

able)

0xFF – enable

(non-change-

able)

Device Over-

heat [0x01]

—

Z-Wave specIfIcatIon

Protection CC:

Protection Command Class allows to prevent local (via inputs) or re­mote control of the outputs.

Type State Description Hint

35

Unprotected - The device is not

Local 0

Local 2*

RF 0

RF 1

* only Central Scene Notications can be triggered in this state.

Meter CC:

Meter Type Scale Rate Type Precision Size

protected, and may be operated

normally via the user interface.

No operation possible – state of

outputs cannot be changed by any

of the Inputs

Unprotected - The device accept

and respond to all RF Commands.

No RF control – command class

Basic, Switch Multilevel and Color

Switch are rejected, every other

command class will be handled

Inputs connected

with outputs.

Inputs discon-

nected from

outputs.

Outputs can be

controlled via

Z-Wave.

Outputs cannot

be controlled via

Z-Wave.

Electric

[0x01]

Electric

[0x01]

ROOT (Endpoint 1)

Electric_kWh

[0x00]

(default)

Electric_W

[0x02]

Import

[0x01]

Import

[0x01]

2 4B

1 2B

Z-Wave specIfIcatIon

36

Sensor Multilevel CC:

Endpoint 6, 7, 8 and 9

Sensor Type Scale Precision Size Description

VOLTAGE V 1 2B Analog input 1-4

Lifeline reports:

ROOT

COMMAND_CLASS_DEVICE_RESET_LOCALLY [0x5A]

DEVICE_RESET_LOCALLY_NOTIFICATION [0x01]

COMMAND_CLASS_SWITCH_MULTILEVEL [0x26]

SWITCH_MULTILEVEL_REPORT [0x03]

COMMAND_CLASS_COLOR_SWITCH [0x33]

COLOR_SWITCH_REPORT [0x04]

COMMAND_CLASS_CENTRAL_SCENE [0x5B]

CENTRAL_SCENE_NOTIFICATION [0x03]

COMMAND_CLASS_METER [0x32]

METER_REPORT [0x02]

COMMAND_CLASS_NOTIFICATION [0x71]

NOTIFICATION_REPORT [0x05]

COMMAND_CLASS_CONFIGURATION [0x70]

CONFIGURATION_REPORT [0x06]

Endpoint 1

COMMAND_CLASS_SWITCH_MULTILEVEL [0x26]

SWITCH_MULTILEVEL_REPORT [0x03]

COMMAND_CLASS_METER [0x32]

METER_REPORT [0x02]

COMMAND_CLASS_NOTIFICATION [0x71]

NOTIFICATION_REPORT [0x05]

COMMAND_CLASS_COLOR_SWITCH [0x33]

COLOR_SWITCH_REPORT [0x04]

Z-Wave specIfIcatIon

Endpoints 2–5

COMMAND_CLASS_SWITCH_MULTILEVEL [0x26]

SWITCH_MULTILEVEL_REPORT [0x03]

Endpoints 6–9

COMMAND_CLASS_SENSOR_MULTILEVEL [0x31]

SENSOR_MULTILEVEL_REPORT [0x05]

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. These limits are
designed to provide reasonable protection against harmful interfer­ence in a residential installation. This equipment generates, uses and
can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to
radio communications. However, there is no guarantee that interfer­ence will not occur in a particular installation. If this equipment does
cause harmful interference to radio or television reception, which
can be determined by turning the equipment o and on, the user is
encouraged to try to correct the interference by one or more of the
following measures:

37

• Reorient or relocate the receiving antenna.

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit dierent from
that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

Changes and modications not expressly approved by the manufac­turer or registrant of this equipment can void your authority to op­erate this equipment under Federal Communications Commission’s
rules.

Industry Canada (IC) Compliance Notice

This device complies with Industry Canada license-exempt RSSs. Op­eration is subject to the following two conditions: (1) this device may
not cause interference, and (2) this device must accept any interfer­ence, including interference that may cause undesired operation of
the device.

Cet appareil est conforme aux normes d’exemption de licence RSS
d’Industry Canada. Son fonctionnement est soumis aux deux condi­tions suivantes : (1) cet appareil ne doit pas causer d’interférence et
(2) cet appareil doit accepter toute interférence, notamment les in­terférences qui peuvent aecter son fonctionnement.

Legal Notices

All information, including, but not limited to, information regarding

regulatIons

38

the features, functionality, and/or other product specication are
subject to change without notice. Fibaro reserves all rights to revise
or update its products, software, or documentation without any obli­gation to notify any individual or entity.

FIBARO and Fibar Group logo are trademarks of Fibar Group S.A. All
other brands and product names referred to herein are trademarks
of their respective holders.

Declaration of conformity

Hereby, Fibar Group S.A. declares that the device is in com­pliance with the essential requirements and other relevant

provisions of Directive 2014/53/EU. The full text of the EU
declaration of conformity is available at the following internet ad­dress: www.manuals.baro.com

WEEE Directive Compliance

Device labelled with this symbol should not be disposed with
other household wastes. It shall be handed over to the applica­ble collection point for the recycling of waste electrical and

electronic equipment.

regulatIons