FGS 213 Single Switch Control
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Specifications
- Supported Load Types: Resistive load, Tungsten load
- Per Channel Load Capacity: 6.5 A
- Overall Load Capacity: 10 A
- IEC Certification: Applies in EU countries and most countries
using 220-240 V~
Product Usage Instructions
Installation
Follow the diagram in Figure 1 for connecting the
SingleSwitch-Control:
Device Configuration and Operation
Controlling with Momentary Switch
To control devices with a momentary switch and set parameter 20
to 0:
| Action | Response |
|---|---|
| 1 click | Set the maximum level of devices associated in the 2nd, 3rd (S1 switch), 4th, and 5th (S2 switch) group. |
| Hold | Start smooth control of devices associated in the 3rd (S1 switch) and 5th (S2 switch) group. |
To control devices with the B-button:
| Action | Response |
|---|---|
| 1 click | Enter the menu (confirmed by the LED indicator). |
| Hold | Enter the menu (confirmed by the LED indicator). |
Power and Energy Consumption
Power and Energy Consumption Measuring
Energy consumption is measured based on active power used over
time. Common unit: kilowatt-hour [kWh] = 1 kW power consumed over
one hour.
Resetting Consumption Memory
- Switch off mains voltage (disable fuse).
- Remove device from wall switch box.
- Switch on mains voltage.
- Press and hold the B-button to enter the menu.
- Wait for the LED indicator to glow green.
- Quickly release and click the B-button again.
- Energy consumption memory is erased.
FAQ
How to link devices with SingleSwitch-Control?
To link devices, ensure they are within direct range.
SingleSwitch-Control supports multichannel devices.
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SingleSwitch-Control
Turning electrical devices on or off remotely
EN – Instructions and warnings for installation and use
v3.6
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1 WARNINGS AND GENERAL PRECAUTIONS
· This manual contains important instructions and warnings for personal safety. Carefully read all parts of this manual. If in doubt, suspend installation immediately and contact Nice Technical Assistance.
· Using this product for different purposes than specified in this manual is strictly forbidden! · All installation and connection operations must be performed exclusively by suitably qualified and skilled personnel with the
unit disconnected from the mains power supply. · The product packaging materials must be disposed of in full compliance with local regulations. · Never apply modifications to any part of the device. Operations other than those specified can cause malfunctions. The manufacturer declines
all liability for damage caused by makeshift modifications to the product. · Never place the device near the sources of heat or expose to naked flames. These actions can damage the product and cause malfuntions. · This product isn’t intended for use by people (including children) with reduced physical, sensory or mental capabilities or who lack experience
and knowledge, unless they are supervised by a person responsible for their safety. · The device is designed to operate in an electrical home installation. Faulty connection or use can result in a fire or electric shock. · Even when the device is turned off, voltage can be present at its terminals. Any maintenance introducing changes to the configuration of con-
nections or the load must be always performed with a disabled fuse. · All works on the device can be performed only by a qualified and licensed electrician in complience with national regulations. · Connecting the SingleSwitch-Control in a manner inconsistent with manual may cause risk to health, life or material damage.
2 PRODUCT DESCRIPTION
NICE SingleSwitch-Control is designed for installation in a standard wall switch boxes or anywhere else where the control of electric devices is needed. NICE SingleSwitch-Control enables the control of connected devices either by the Z-Wave Plus® network or by a directly connected switch. The device has an active power and energy consumption metering functionality.
2.1 – Main features · The device is compatibile with any Z-Wave® or Z-Wave Plus® hub. · It supports protected mode (Z-Wave® network security mode) with AES-128 encryption. · It supports advanced microprocessor control. · It has an active power and energy metering functionality. · It supports various types of switches, such as momentary, toggle and three-way. · It needs to be installed in wall switch boxes of suitable dimensions, conforming to provisions of applicable regulations. · SingleSwitch-Control is an extension unit.
2.2 – Z-Wave® comaptibility The NICE SingleSwitch-Control is fully compatible with Z-Wave Plus®. This device can be used with all Z-Wave Plus® certified devices and should be compatible with such devices produced by other manufacturers. All non-battery operated devices within the network act as repeaters to increase the network reliability. The device is a Security Enabled Z-Wave Plus® product and to fully utilize it a Security Enabled Z-Wave® Controller is needed.
2.3 – Supported loads
CAUTION! Applied load and SingleSwitch-Control itself may be damaged if the applied load is inconsistent with the technical specifications!
SingleSwitch-Control can operate under the following loads: · Conventional incandescent light sources · Halogen light sources · Electrical appliances whith power consumption not exceeding the limit for a specified device
SingleSwitch-Control needs to be connected according to the following rules: · Don’t connect loads greater than recommended. · Don’t connect types of loads other than resistive and incandescent.
Table 1 – SingleSwitch Control – Supported load types (IEC standards)
Resistive load
Tungsten load
Per channel
6.5 A
6.5 A
Overall
10 A
10 A
Note IEC certification applies in the EU countries and in most countries using 220-240 V~.
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3 INSTALLATION
CAUTION! Danger of electrocution! 3.1 – SingleSwitch-Control connection rules · Connect only as shown in Figure 1 below. · SingleSwitch-Control should be installed in a wall switch box compliant with a relevant national safety standards. The box should be at least
60 mm deep. · Electrical switches used in installation should be compliant with the relevant safety standards. · The length of wires used to connect the control switch shouldn’t exceed 10 m.
3.2 – SingleSwitch-Control installation 1. Switch off the mains voltage (disable the fuse). 2. Open the wall switch box. 3. Connect as shown in Figure 1 below. 4. After verifying the correctness of connection, switch on the mains voltage. 5. Add the device to the Z-Wave® network. 6. Turn off the mains voltage, then arrange the device and its antenna in a wall switch box. 7. Close the wall switch box and turn on the mains voltage.
Notes for Figure 1 S1 – 1st switch terminal (activates the learning mode) S2 – 2nd switch terminal L – live lead terminal Q1 – 1st channel output terminal N – neutral lead terminal B – service button (used to add/remove the device and navigate the menu)
Figure 1: Example connection of SingleSwitch-Control
3.3 – Tips for arranging the antenna · Locate the antenna as far from metal elements as possible (such as connecting wires, bracket rings) to prevent interferences. · Metal surfaces in the direct vicinity of the antenna (such as flush mounted metal boxes, metal door frames) can impair signal reception. · Don’t cut or shorten the antenna, its length is perfectly matched to the band in which the system operates. · Make sure no part of the antenna sticks out of the wall switch box. Notes · In case of wall-mounting, don’t place the device higher than 2 meters from the floor. · Switch connected to the S1 terminal is a master switch. It activates the basic functionality of the device (turning the first load ON/OFF) and
activates the learning mode (adding/removing). · The switch connected to the S2 terminal turns the second load in the device ON/OFF. · After switching on the mains voltage LED indicator signals Z-Wave® network inclusion state:
· Green device added · Red device not added
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4 ADDING TO AND REMOVING FROM Z-WAVE® NETWORK
· In case of problems with adding/removing the device using S1 switch, use B-button instead (located on the housing). · While adding SingleSwitch-Control to the network with connected toggle switch, ensure that the switch contact is open (off). Otherwise it
prevents adding/removing the device to/from the network. · After pressing the switch 3 times the device tires to add itself to the network for 4 minutes. · Adding the device in security mode needs to be performed up to 2 meters from the controller
4.1 – Adding device to Z-Wave® (Inclusion)
It’s the Z-Wave® device learning mode. It enables adding the device to an existing Z-Wave® network. To add the device to the Z-Wave® network: 1. Place the SingleSwitch-Control within the direct range of your Z-Wave® controller. 2. Identify the S1 switch. 3. Set the main controller in the add mode (Security/Non-Security). See the controller manual. 4. Press the S1 switch quickly, three times. 5. Wait for the adding process to end. 6. Adding is confirmed by the Z-Wave® controller message.
4.2 – Removing device from Z-Wave® (Exclusion)
It’s the Z-Wave® device learning mode. It enables removing the device from an existing Z-Wave® network.
To remove the device from the Z-Wave® network: 1. Place the SingleSwitch-Control within the direct range of your Z-Wave® controller. 2. Identify the S1 switch. 3. Set the main controller in the remove mode. See the controller manual. 4. Press the S1 switch quickly, three times. 5. Wait for the removing process to end. 6. Removing is confirmed by the Z-Wave® controller message.
Note Removing SingleSwitch-Control from the Z-Wave® network restores all the default settings of the device but doesn’t reset the power metering data.
5 DEVICE CONFIGURATION AND OPERATION
5.1 – Controlling device with momentary switch and parameter 20 set to 0
Table 2 – SingleSwitch Control – Responses to momentary switch
Action Response
1 click
· Change the state of the connected load to the opposite (S1 switches the 1st channel, S2 switches the 2nd channel). · Change the state of the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) association group to the opposite one.
2 clicks Set the maximum level of devices associated in the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) group.
Hold
Start the smooth control of devices associated in the 3rd (S1 switch) and 5th (S2 switch) group.
Release Stop smooth change the channel state to the opposite one.
5.2 – Controlling device with toggle switch and parameter 20 set to 1 · Close switch contact:
· Turn ON the connected load (S1 switches the 1st channel, S2 switches the 2nd channel), · Turn ON the devices associated in the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) group. · Open switch contact: · Turn OFF the connected load (S1 switches the 1st channel, S2 switches the 2nd channel). · Turn OFF the devices associated in the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) group.
5.3 – Controlling device with toggle switch and parameter 20 set to 2 · Change the switch position once:
· Change the state of the connected load to the opposite one (S1 switches the 1st channel, S2 switches the 2nd channel), · Change the state of the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) association group to the opposite one. · Change the switch position twice: · Set the maximum level of devices associated in the 2nd, 3rd (S1 switch), 4th and 5th (S2 switch) group.
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5.4 – Controlling device with B-button
Table 3 – SingleSwitch Control – Controlling device with B-button
Action Response
1 click
· Cancel alarm mode (flashing alarm). · Select the desired menu position (if menu is active). · Exit the range test. · Turn the 1st channel ON/OFF.
3 clicks Send the Node Info Z-Wave® command frame (adding/removing).
Hold
Enter the menu (confirmed by the LED indicator)
5.4 – Using menu to perform Z-Wave® netowrk actions 1. Switch off the mains voltage (disable the fuse). 2. Remove the SingleSwitch-Control from the wall switch box. 3. Switch on the mains voltage. 4. Press and hold the B-button to enter the menu. 5. Wait for the LED to indicate the desired menu position with colour:
· Green reset energy consumption memory · Violet start range test · Yellow reset the device 6. Quickly release and click the B-button again.
5.5 – Controlling device with NICE controller After adding the SingleSwitch-Control to the network, it is represented in the interface by two similar icons, one for each channel. The icon for the second channel is hidden for SingleSwitch-Control. For turning the device ON/OFF the ON and OFF icons are used for operating the load.
5.6 – Resetting SingleSwitch-Control Use this procedure only when the network primary controller is missing or otherwise inoperable. 1. Switch off the mains voltage (disable the fuse). 2. Remove the SingleSwitch-Control from the wall switch box. 3. Switch on the mains voltage. 4. Press and hold the B-button to enter the menu. 5. Wait for the visual LED indicator to glow yellow. 6. Quickly release and click the B-button again. 7. After a few seconds the device is restarted, which is signalled with the red LED indicator light.
Notes · Momentary switch after releasing the switch, a spring automatically pushes it back and disconnects it. · Toggle switch it operates as a two-position switch, it has no spring to set the position. · Toggle switch and parameter 20 set to 1 the state of the device is synchronized with the state of the external toggle switches. · Toggle switch and parameter 20 set to 2 the state of the device is reversed with every change in the state of the external toggle switch. · Resetting the device isn’t the recommended way of removing the device from the Z-Wave® network. Use the reset procedure only if the
primary controller is missing or inoperable. Certain device removal can be achieved by the procedure of removing described in section 4.2 Removing device from Z-Wave® (Exclusion).
5.7 – Additional functionality 5.7.1 – Overheat and overcurrent protection After detecting overheat or overcurrent the device: · Switches off its relay/relays. · Sends the information about switching off the relay/relays to the controller. · Sends the Notification Report to the controller (Heat Alarm for overheat, Power Management for overcurrent).
5.7.2 – Activating scenes SingleSwitch-Control can activate scenes in the Z-Wave® controller by sending a scene ID and attribute of a specific action using Central Scene Command Class. By default the scenes aren’t activated, set parameters 28 and 29 to enable scene activation for selected actions.
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Table 4 – SingleSwitch-Control – Activating scenes
Switch
Action
Scene ID
Switch clicked once
1
Switch clicked twice
1
Switch connected to S1 terminal
Switch clicked thrice
1
Switch held
1
Switch released
1
Switch clicked once
2
Switch clicked twice
2
Switch connected to S2 terminal
Switch clicked thrice
2
Switch held
2
Switch released
2
Attribute Button pressed 1 time Button pressed 2 times Button pressed 3 times
Button held down Button released Button pressed 1 time Button pressed 2 times Button pressed 3 times Button held down Button released
6 POWER AND ENERGY CONSUMPTION
6.1 – Power and energy consumption measuring
· SingleSwitch-Control requires the power consumption of connected load equal to 5 W or greater to correctly measure the power and energy. · Power measurement can contain mains voltage fluctuations within +/- 10%. · SingleSwitch-Control stores periodically (every hour) the consumption data in the device memory. Disconnecting the module from the power
supply doesn’t erase stored energy consumption data. SingleSwitch-Control allows for the active power and energy consumption monitoring. Data is sent to the main Z-Wave® controller, for example, Yubii Home. Measuring is carried out by the most advanced micro-controller technology, ensuring the maximum accuracy and precision (+/- 1% for loads greater than 5 W). · Electric active power power that energy receiver is changing into work or heat. The unit of active power is Watt [W]. · Electric energy energy consumed by a device through a time period. Consumers of electricity in households are billed by suppliers on the
basis of active power used in a given unit of time. The most common unit is kilowatt-hour [kWh]. One kilowatt-hour is equal to one kilowatt of power consumed over the period of one hour, 1 kWh = 1000 Wh.
6.2 – Resetting consumption memory
SingleSwitch-Control enables erasing stored consumption data in three ways: A. Using functionality of a Z-Wave® controller (see the controller manual). B. By resetting the device. C. Manually, clearing the data using the following procedure:
1. Switch off the mains voltage (disable the fuse). 2. Remove the device from the wall switch box. 3. Switch on the mains voltage. 4. Press and hold the B-button to enter the menu. 5. Wait for the visual LED indicator to glow green. 6. Quickly release and click the B-button again. 7. Energy consumption memory is erased.
7 ASSOCIATIONS
7.1 – Association (linking devices)
Assocations enable: · Direct control of other devices within the Z-Wave® system network using the wall switch connected to SingleSwitch-Control. · Direct control of a device included in the Z-Wave® network, such as other Dimmer, Relay Switch, Roller Shutter or scene (may be controlled
only through a Z-Wave® controller). · Direct transfer of control commands between devices is performed without participation of the main controller and requires the associated
device to be in the direct range. SingleSwitch-Control supports the operation of multichannel devices. Multichannel devices are devices that include two or more circuits inside one physical unit.
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7.2 – Association groups
Table 5 – RGBW-Control – Association groups
Association group
Name
Description
1st
Lifeline
Reports the device status and enables assigning a single device, the hub by default. Only one node can be assigned.
2nd
On/Off (S1) Assigned to the switch connected to the S1 terminal (uses Basic command class)
3rd
Dimmer (S1) Assigned to the switch connected to the S1 terminal (uses Switch Multilevel command class)
4th
On/Off (S2) Assigned to the switch connected to the S2 terminal (uses Basic command class).
5th
Dimmer (S2) Assigned to the switch connected to the S2 terminal (uses Switch Multilevel command class)
SingleSwitch-Control in the 2nd to 5th group allows to control 5 regular or multichannel devices per one association group, with the exception of Lifeline that is reserved for the controller and only 1 node can be assigned.
It’s not recommended to associate more than 10 devices in general, as the response time to control commands depends on the number of associated devices. In extreme cases the system response can be delayed.
7.3 – Adding association using NICE controller 1. Go to Settings > Devices. 2. Select the appropriate device from the list. 3. Select the Associations tab. 4. Specify to which group and what devices are to be associated. 5. Save the changes. 6. Wait for the configuration process to end.
Table 6 – SingleSwitch-Control – Association groups mapping
Root
Endpoint
Association group in endpoint
Association Group 2 (On/Off (S1))
Endpoint 1
Association Group 2
Association Group 3 (Dimmer (S1)) Endpoint 1
Association Group 3
Association Group 4 (On/Off (S2))
Endpoint 1
Association Group 4
Association Group 5 (Dimmer (S2)) Endpoint 1
Association Group 5
8 Z-WAVE® RANGE TESTING
8.1 – Z-Wave® range test The device has a built in Z-Wave® network main controller range tester. To perform a Z-Wave® range test, the device needs to be added to the Z-Wave® hub. Testing is recommended only in special cases, as it can stress the network. Communication mode of SingleSwitch-Control can switch between direct and the one using routing, especially if the device is on the limit of the direct range.
8.2 – Main hub range test 1. Switch off the mains voltage (disable the fuse). 2. Remove the SingleSwitch-Control from the wall switch box. 3. Switch on the mains voltage. 4. Press and hold the B-button to enter the menu. 5. Wait for the LED indicator to glow violet. 6. Quickly release and press the B-button again. 7. Visual indicator indicates the Z-Wave® network range (range signaling modes are described in section 8.3 below). 8. To exit the Z-Wave® range test, press the B-button.
Table 7 – SingleSwitch-Control – Z-Wave® range tester signaling modes
Color Status
Description
Green
Pulsing
The device attempts to establish a direct communication with the main controller. If such attempt fails, the device tries to establish a routed communication through other modules, which is signaled by the LED indicator light pulsing yellow.
Glowing The device communicates with the main controller directly.
Pulsing The device tries to establish a routed communication with the main controller through other modules (repeaters).
Yellow
Glowing
The device communicates with the main controller through other modules. After 2 seconds the device retries to establish a direct communication with the main controller, which is signaled by the LED indicator light pulsing green.
Violet
Pulsing
The device communicates at the maximum distance of the Z-Wave® network. If connection proves successful it’s confirmed with the LED indicator light glowing yellow. It’s not recommended to use the device at the range limit.
Red Glowing The device isn’t able to connect to the main controller directly or through another Z-Wave® nework device (repeater).
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9 ADVANCED PARAMETERS
The device operation can be customized according to the user needs. The settings are available in the NICE interface. They are simple options that can be chosen by selecting the appropriate box. To configure the SingleSwitch-Control: 1. Go to Settings > Devices. 2. Select the appropriate device from the list. 3. Select the Parameters tab. 4. Change the values of selected parameters. 5. Save your changes.
Table 8 – SingleSwitch-Control – Advanced parameters
Parameter
Description
Available setting
Default Parameter
setting
size
9. Restore state after power failure
This parameter determines whether the device returns to a state prior to the power failure after the power is restored.
0 the device doesn’t save the state prior to the power failure and returns to the OFF position
1 the device restores its state prior to the power failure
1
1 [byte]
10. First channel operating mode
This parameter allows to choose the operating mode for the 1st channel controlled by the S1 switch.
0 standard operation 1 delay ON 2 delay OFF 3 auto ON 4 auto OFF 5 flashing mode
0
1 [byte]
11. First channel reaction to switch for delay/auto ON/ OFF modes
This parameter determines how the de- 0 cancel mode and set target state vice reacts to pushing the switch con- 1 no reaction to switch, mode runs until it ends nected to the S1 terminal in timed mode. 2 reset timer, start counting from the beginning
0
1 [byte]
12. First channel time parameter for delay/auto ON/OFF modes
time parameter
This parameter allows to set the time parameter used in timed modes.
0 (0.1 s)
1–32000 (0.1–3200.0 seconds, in 1 s steps)
50 (50 s)
2 [bytes]
13. First channel – This parameter allows to set the time of time parameter
pulse time for flash- switching to the opposite state in flash- 0 (0.1 s)
ing mode
ing mode.
1–32000 (0.1–3200.0 seconds, in 1 s steps)
5 (0.5 s)
2 [bytes]
15. Second channel – operating mode
This parameter allows to choose the operating mode for the 1st channel controlled by the S2 switch.
0 standard operation 1 delay ON 2 delay OFF 3 auto ON 4 auto OFF 5 flashing mode
0
1 [byte]
16. Second channel reaction to switch for delay/auto ON/OFF modes
This parameter determines how the device reacts to pushing the switch connected to the S2 terminal in timed mode.
0 cancel mode and set target state 1 no reaction to switch, mode runs until it ends 2 reset timer, start counting from the beginning
0
1 [byte]
17. Second channel – time parameter for delay/auto ON/OFF modes
time parameter
This parameter allows to set time parameter used in timed modes.
0 (0.1 s)
1–32000 (0.1–3200.0 seconds, in 1 s steps)
50 (50 s)
2 [bytes]
18. Second channel – pulse time for flashing mode
This parameter allows to set time of time parameter
switching to the opposite state in flash- 0 (0.1 s)
ing mode.
1–32000 (0.1–3200.0 seconds, in 1 s steps)
5 (0.5 s)
2 [bytes]
20. Switch type
0 momentary switch
This parameter defines the type as which 1 toggle switch synchronized (contact closed –
the device should treat the switch con- ON, contact opened – OFF)
2
nected to the S1 and S2 terminals.
2 toggle switch with memory (device changes
status when switch changes status)
1 [byte]
21. Flashing mode reports
This parameter enables defining whether the device sends reports during the flashing mode.
0 the device doesn’t send reports 1 the device sends reports
0
1 [byte]
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Table 8 – SingleSwitch-Control – Advanced parameters
Parameter
27. Associations in Z-Wave® network security mode
Description
Available setting
This parameter defines the way of sending commands in specified association groups: secure or non-secure. Parameter is active only in the Z-Wave® network security mode. This parameter doesn’t apply to the 1st Lifeline group. Parameter 27 values may be combined, for example: 1+2=3 means that the 2nd and 3rd groups are sent as secure.
0 none of the groups are sent as secure 1 the 2nd group sent as secure 2 the 3rd group sent as secure 4 the 4th group sent as secure 8 the 5th group sent as secure
28. S1 switch scenes sent
This parameter determines which actions 1 button pressed 1 time
result in sending scene IDs assigned to them. Parameter 28 values may be combined, for example: 1+2=3 means that scenes
2 button pressed 2 times 4 button pressed 3 times
for single and double click are sent.
8 button held down released
Default Parameter
setting
size
15 (all) 1 [byte]
0
1 [byte]
29. S2 switch scenes sent
This parameter determines which actions 1 button pressed 1 time
result in sending scene IDs assigned to them. Parameter 29 values may be combined, for example: 1+2=3 means that scenes
2 button pressed 2 times 4 button pressed 3 times
for single and double click are sent.
8 button held down released
0
1 [byte]
This parameter determines which
30. S1 switch –
actions are ignored when sending commands to devices associ- 1 ignore turning ON with 1 click of the switch
associations sent to ated in the 2nd and 3rd association 2 ignore turning OFF with 1 click of the switch 2nd and 3rd associa- group. All actions are active by default. 4 ignore holding and releasing the switch*
0
tion groups
Parameter 30 values may be combined, 8 ignore double click of the switch** for example: 1+2=3 means that associa-
tions for turning ON and OFF aren’t sent.
1 [byte]
31. S1 switch Switch ON value sent to 2nd and 3rd association groups 32. S1 switch Switch OFF value sent to 2nd and 3rd association groups 33. S1 switch Double Click value sent to 2nd and 3rd association groups
40. Reaction to General Alarm
41. Reaction to Flood Alarm
42. Reaction to CO/ CO2/Smoke Alarm
43. Reaction to Heat Alarm
44. Flashing alarm duration
50. First channel power reports
This parameter defines the value sent with Switch ON command to devices associ- 0–255 sent value ated in 2nd and 3rd association group
This parameter defines value sent with Switch OFF command to devices associ- 0–255 sent value ated in 2nd and 3rd association group.
This parameter defines value sent with Double Click command to devices asso- 0–255 sent value ciated in 2nd and 3rd association group.
0 ignore the alarm frame This parameter determines how the de- 1 turn ON after receiving the alarm frame vice reacts to the General Alarm frame. 2 turn OFF after receiving the alarm frame
3 flash after receiving the alarm frame
0 ignore the alarm frame
This parameter determines how the de- 1 turn ON after receiving the alarm frame
vice reacts to the Flood Alarm frame.
2 turn OFF after receiving the alarm frame
3 flash after receiving the alarm frame
This parameter determines how the device reacts to the CO, CO2 or Smoke frame.
0 ignore the alarm frame 1 turn ON after receiving the alarm frame 2 turn OFF after receiving the alarm frame 3 flash after receiving the alarm frame
0 ignore the alarm frame
This parameter determines how the de- 1 turn ON after receiving the alarm frame
vice reacts to the Heat Alarm frame.
2 turn OFF after receiving the alarm frame
3 flash after receiving the alarm frame
This parameter allows to set duration of duration
flashing alarm mode.
1–32000 (1–3200.0 seconds, in 1 s steps)
This parameter determines the minimum change in consumed power that results 0 reports are disabled
in sending new power report to the main 1–100 (1–100%) change in power controller.
255
2 [bytes]
0
2 [bytes]
99
2 [bytes]
3
1 [byte]
2
1 [byte]
3
1 [byte]
1
1 [byte]
600 (10min)
2 [bytes]
20 (20%) 1 [byte]
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Table 8 – SingleSwitch-Control – Advanced parameters
Parameter
Description
51. First channel – minimal time between power reports
53. First channel energy reports
58. Periodic power reports
59. Periodic energy reports
60. Measuring energy consumed by the device itself
This parameter determines minimal time that has to pass before sending a new power report to the main controller.
This parameter determines the minimum change in consumed energy that results in sending new energy report to the main controller.
This parameter determines in what time interval the periodic power reports are sent to the main controller.
This parameter determines in what time interval the periodic energy reports are sent to the main controller.
This parameter determines whether energy metering should include the amount of energy consumed by the device itself. Results are being added to energy reports for the first endpoint.
Available setting
0 reports are disabled 1–120 (1–120 s) report interval
0 reports are disabled 1–32000 (0.01–320 kWh) change in energy
0 periodic reports are disabled 1–32000 (1–32000 s) report interval
0 periodic reports are disabled 1–32000 (1–32000 s) report interval
0 function inactive 1 function active
Default Parameter
setting
size
10 (10 s) 1 [byte]
100 (1 kWh)
2 [bytes]
3600 (1 h) 2 [bytes]
3600 (1 h) 2 [bytes]
0
1 [byte]
*Hold and release is inactive when parameter 20 is set to 1 or 2. **Double click is inactive when parameter 20 is set to 1.
Notes · Setting parameters 31-33 to appropriate value should result in:
· 0 turning OFF the associated devices. · 1-99 forcing level of associated devices. · 255 setting associated devices to the last remembered state or turning them ON.
10 RADIO TRANSCEIVER PARAMETERS
Table 9 – SingleSwitch-Control – Radio transceiver parameters
Feature Radio protocol Radio signal power
Frequency band
Transceiver range Compliance with the EU directives
Description
Z-Wave® (500 series chip)
up to 5 dBm
868.4 or 869.8 MHz EU 908.4 or 916.0 MHz US 921.4 or 919.8 MHz ANZ
869.0 MHz RU 920.9, 921.7 or 923.1 MHz TW
up to 50 m outdoors up to 40 m indoors (depending on the terrain and building structure)
RoHS 2011/65/EU RED 2014/53/EU
(*) The transceiver range is strongly influenced by other devices operating at the same frequency with continuous transmission, such as alarms and radio headphones which interfere with the control unit transceiver.
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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 beentested
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 off and on, the user is encouraged to try to correct the interference by one or more of the following measures: · Reorient or relocate the receiving antenna. · Increase the separation between the equipment and receiver. · Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. · Consult the dealer or an experienced radio/TV technician for help. Note Changes and modifications 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 affecter son fonctionnement.
112 PRODUCT DISPOSAL
This product is an integral part of the automation and therefore must be disposed together with the latter. At the end of the product lifetime, the disassembly and scrapping operations must be performed by qualified personnel. This product is made of various types of material, some of which can be recycled while others must be scrapped. Seek information on the recycling and disposal systems envisaged by the local regulations in your area for this product category.
As indicated by the symbol alongside, disposal of this product in domestic waste is strictly prohibited. Separate the waste into categories for disposal, according to the methods envisaged by current legislation in your area, or return the product to the retailer when purchasing a new version.
CAUTION! · Some parts of the product may contain pollutant or hazardous substances which, if disposed of into the environment, may cause serious dam-
age to the environment or physical health. · Local legislation may envisage serious fines in the event of abusive disposal of this product.
113 DECLARATION OF CONFORMITY
Hereby, Nice S.p.A., declares that the radio equipment type SingleSwitch-Control (FGS-213-US) is in compliance with Directive 2014/53/EU. The full text of the EU Declaration of Conformity is available at: http://www.niceforyou.com/en/support.
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Nice SpA
Oderzo TV Italia
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info@niceforyou.com
www.niceforyou.com
IS0914A00EN_10-06-2025
Documents / Resources
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Yubii Ecosystem FGS 213 Single Switch Control [pdf] Instruction Manual FGS 213, FGS 213 Single Switch Control, FGS 213, Single Switch Control, Switch Control, Control |