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Shelly Wave Pro 2PM

Note: The product line known as "Shelly Qubino Wave" will now be referred to as "Shelly Wave". This name change will not impact the functionality of any devices. The only modification will be the use of the new name in all future documentation.

wave_pro_2PM_160x350.jpg

Device identification

  • Device: Wave Pro 2PM
  • EU Part number/Ordering Code: QPSW-0A2P16EU
  • Z-Wave Product type ID: 0x0002
  • Z-Wave Product ID: 0x008D
  • Z-Wave Manufacturer: Shelly Europe Ltd.
  • Z-Wave Manufacturer ID: 0x0460

Terminology

  • Device – In this document, the term “Device” is used to refer to the Shelly Qubino device that is a subject of this guide.
  • Gateway – A Z-Wave® gateway, also referred to as a Z-Wave® controller, Z-Wave® main controller, Z-Wave® primary controller, or Z-Wave® hub, etc., is a device that serves as a central hub for a Z-Wave® smart home network. The term “gateway” is used in this document.
  • S button – The Z-Wave® Service button, located on Z-Wave® devices and is used for various functions such as adding (inclusion), removing (exclusion), and resetting the device to its factory default settings. The term "S button" is used in this document.

Short description

The Device is a DIN rail mountable 2-channel smart switch with power measurement. It controls the on/off function for two independent electrical devices with a load up to 16 A per channel (25 A in total). It is compatible with switches (default) and push-buttons.

Switch/push-button connected to input terminal SW (SW1)

SW1: If the SW (SW1) is configured as a switch (default), each toggle of the switch will change the output O (O1) state to the opposite state – on, off, on, etc. If the SW (SW1) is configured as a push-button in the Device settings, each press of the push-button will change the output O (O1) state to the opposite state – on, off, on, etc.

Switch connected to input terminal SW (SW1)

If the SW (SW1) is configured as a switch (default), each toggle of the switch will change the output O (O1) state to the opposite state – on, off, on, etc.

  • Change switch position once: Change the state of the output O (O1) state to the opposite state and send the command to the associated devices in associated groups 2 and 3 (check chapter Z-Wave Association).
  • Change switch position twice: If the delay between the first and second click is less than 500ms, this is interpreted as “Change the switch position twice”. Send command to the associated devices (dimmers, shutters, ...) in associated groups 2 and 3 (check chapter Z-Wave Association).

Switch-memory connected to input terminal SW (SW1)

If the SW (SW1) is configured as a switch-memory, then:

  • Switching to Close switch-memory contact: Change the state of the output state O (O1) to the On state and send command to the associated devices in associated groups 2 and 3 (check chapter Z-Wave Association)
  • Switching to Open switch-memory contact: Change the state of the output state O (O1) to the Off state and send command to the associated devices in associated groups 2 and 3 (check chapter Z-Wave Association)

Push-button connected to input terminal SW (SW1)

If the SW (SW1) is configured as a push-button in the Device settings, each press of the push-button changes the output state O (O1) to opposite – ON, OFF, ON, etc.

  • Short press: Change the state of the output state O (O1) to the opposite one and send command to the associated devices in associated groups 2 and 3 (check chapter Z-Wave Association)
  • Hold: Send command to the associated devices in associated group 3 (check chapter Z-Wave Association)
  • Release: Send command to the associated devices in associated group 3 (check chapter Z-Wave Association)

Switch/push-button connected to input terminal SW2

If the SW2 is configured as a switch (default), each toggle of the switch will change the output O2 state to the opposite state – on, off, on, etc. If the SW2 is configured as a push-button in the Device settings, each press of the push-button will change the output O2 state to the opposite state – on, off, on, etc.

Switch connected to input terminal SW2

If the SW2 is configured as a switch (default), each toggle of the switch will change the output state O2 to the opposite state – ON, OFF, ON, etc.

  • Change switch position once: Change the state of the output state O2 to the opposite one and send command to the associated devices in associated groups 4 and 5 (check chapter Z-Wave Association)
  • Change switch position twice: If the delay between first and second click is less than 500ms, this is interpreted as Change switch position twice. Send command to the associated devices (dimmers, shutters, ...) in associated groups 4 and 5 (check chapter Z-Wave Association)

Switch-memory connected to input terminal SW2

If the SW2 is configured as a switch-memory, then:

  • Switching to Close switch-memory contact: Change the state of the output state O2 to the On state and send command to the associated devices in associated groups 4 and 5 (check chapter Z-Wave Association)
  • Switching to Open switch-memory contact: Change the state of the output state O2 to the Off state and send command to the associated devices in associated groups 4 and 5 (check chapter Z-Wave Association)

Push-button connected to input terminal SW2

If the SW2 is configured as a push-button in the Device settings, each press of the push-button changes the output state O2 to opposite – ON, OFF, ON, etc.

  • Short press: Change the state of the output state O2 to the opposite one and send command to the associated devices in associated groups 4 and 5 (check chapter Z-Wave Association)
  • Hold: Send command to the associated devices in associated group 4 (check chapter Z-Wave Association)
  • Release: Send command to the associated devices in associated group 5 (check chapter Z-Wave Association)

Switching On/Off load connected to O (O1)

Load connected to O (O1) is possible to switch On/Off by:

  • by Z-Wave command
  • Automatically switching can be enabled by proper Parameters No. 19 and 20 settings.
  • pressing the switch/push-button SW (SW1): Change the state of the connected load to the opposite one

Switching On/Off load connected to O2

Load connected to O2 is possible to switch On/Off by:

  • by Z-Wave command
  • Automatically switching can be enabled by proper Parameters No. 21 and 22 settings.
  • pressing the switch/push-button SW2: Change the state of the connected load to the opposite one

Main applications

  • Residential
  • MDU (Multi Dwelling Units - apartments, condominiums, hotels, etc.)
  • Light commercial (small office buildings, small retail/restaurant/gas station, etc.)
  • Government/municipal
  • University/college

Integrations

Shelly Qubino Wave devices are developed on the world's leading technology for smart homes – Z-Wave.

This means Shelly Qubino Wave works with all certified gateways supporting Z-Wave communication protocol.

To make sure the functions of Shelly Qubino Wave products are supported on your gateway, we are regularly executing compatibility tests of our devices with different Z-Wave gateways.

Simplified internal schematics

Shelly Pro 2PM V2 internal schematics

Device electrical interfaces

Inputs

  • 2 switch/button input on screw terminal
  • 3 power supply inputs on screw terminals: N (+), L (Ʇ)

Outputs

  • 2 relay output with power measurement on screw terminal

Connectivity

Z-Wave - Unsecure, S0 Security, S2 Unauthenticated Security, S2 Authenticated Security

Safety features

Overheat protection

Device has internal Overheat protection. If the temperature exceeds predefined values 80°C for more than 5s, the Device will:

  • switch off its own relay
  • sends the Notification Report to the Gateway (Overheat detected)
  • the LED lights react as specified above (check LED blinking mode for Overheat detected)

Any of the following activities reset this alarm: power cycle, short press on the S button, press on any switch/push-button connected to any SW (SW, SW1, SW2, …) terminal.

NOTE: The Overheat protection is always active and cannot be disabled.
Additional description above under chapter Notification for Overheat detected

Over-current Protection

Device has internal Over-current protection. If the current exceeds 16A+10% (Max switching current +10%) for more than 5s, the Device will:

  • switch off its own relay
  • sends the Notification Report to the Gateway (Over-current detected)
  • the LED lights react as specified above (check LED blinking mode for Over-current detected)

Any of the following activities reset this alarm: power cycle, short press on the S button, press on any switch/push-button connected to any SW (SW, SW1, SW2, …) terminal.

NOTE: The Over-current protection is always active and cannot be disabled.
Additional description above under chapter Notification for Over-current detected

Over-voltage Protection

Device has internal Over-voltage protection. This is valid for standard power supply voltage 230 V AC. If the voltage exceeds 240 V AC +15% (278 V AC) for more than 5s, the Device will:

  • switch off its own relay
  • sends the Notification Report to the Gateway (Over-voltage detected)
  • the LED lights react as specified above (check LED blinking mode for Over-voltage detected)

Any of the following activities reset this alarm: power cycle, short press on the S button, press on any switch/push-button connected to any SW (SW, SW1, SW2, …) terminal.

NOTE: The Over-current protection is always active and cannot be disabled.
Additional description above under chapter Notification for Over-voltage detected

Supported load types

  • Resistive (incandescent bulbs, heating devices)
  • Capacitive (capacitor banks, electronic equipment, motor start capacitors)
  • Inductive with RC Snubber (LED light drivers, transformers, fans, refrigerators, air-conditioners)

User interface

S button and operating modes

  1. Normal mode
  2. Setting in progress mode
  3. Setting mode (with S button)
    • Settings mode is required to start desired procedure for example: adding (inclusion), removing (exclusion), factory reset etc. It has a limited time of operation. After the procedure in Setting mode is concluded, the Device goes automatically into Normal mode.
    • Entering to Setting mode:
      • Quickly press and hold the S button on the Device until the LED turns solid blue
      • An additional quick press on the S button means menu change in infinite loop
      • Menu LED status has a timeout of 10s before entering again into Normal state

S button’s functions

  • Manually adding the Device to a Z-Wave network
  • Manually removing the Device from a Z-Wave network
  • Factory Reset the Device

LED Signalisation

Normal mode

  • Removed/Excluded
    The LED will be blinking blue in Mode 1 for 10 min after every power cycle and 10 min after S button pressed.
    Mode1-Blue

  • Added/Included
    The LED will be blinking green in Mode 1 for 10 min after every power cycle and 10 min after S button pressed.
    Mode1-Green

Settings in progress

  • Factory reset and reboot
    During factory reset, the LED will turn solid green for approx. 1sec, then the blue and red LED will be blinking 0.1s On, 0.1s Off for about 2sec.

  • Adding / Removing
    During adding or removing, the LED will be blinking blue in Mode 2.
    Mode2Blue

  • Firmware updating OTA
    During the OTA update, the LED will be blinking blue and red in Mode 2.
    Mode2BlueRed

  • Checking power supply 230 V AC frequency or 24 V DC voltage
    During checking the power supply, the LED will be blinking blue and red in Mode 5.
    Mode5BlueRed

Settings mode with S button

  • Adding / Removing menu selected
    When the menu is selected the LED will be on blue, for maximum of 10 seconds.

  • Adding / Removing menu - while pressing S-button - Add/Remove process selected
    When the menu is executing the LED will be blinking blue in Mode 3.
    Mode3Blue

  • Factory reset menu selected
    When the menu is selected the LED will be on red, for maximum of 10 seconds.

  • Factory reset - while pressing S-button - Factory reset process selected
    When the menu is executing the LED will be blinking red in Mode 3.
    Mode3Red

Alarm Mode

  • Over-current detected
    The LED will be blinking red in Mode 4: 1x – 0.2s On, 0.2s Off, 2s Off and repeating this sequence
    AlarmMode1

  • Overheat detected
    The LED will be blinking red in Mode 4: 2x – 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 2s Off and repeating this sequence
    AlarmMode2

  • Power supply fault (power supply 230 V AC frequency or 24 V DC voltage fault)
    The LED will be blinking red in Mode 4: 3x – 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 2s Off and repeating this sequence
    AlarmMode3

  • Overvoltage detected
    The LED will be blinking red in Mode 4: 7x – 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 0.2s On, 0.2s Off, 2s Off and repeating this sequence

LED blinking modes

ModeBlinking pattern
Mode 10.5s On / 2s Off
Mode 20.5s On / 0.5s Off
Mode 30.1s On / 0.1s Off
Mode 4(1x to 6x – 0.2s On / 0.2s Off) + 2s Off
Mode 50.2s On blue / 0.2s On red

Specifications

ParameterValue
Power supply110 - 240 V AC, 50/60 Hz
Power consumption< 0.3 W
Power measurement [W]Yes
Max. switching voltage AC240 V
Max. switching current AC16 A per channel, 25 A total
Max. switching voltage DCN/A
Max. switching current DCN/A
Overheating protectionYes
Overload protectionYes
Overvoltage protectionYes
DistanceUp to 40 m indoors (131 ft.) (depends on local condition)
Z-Wave® repeaterYes
CPUZ-Wave® S800
Z-Wave® frequency band868.4 MHz
Maximum radio frequency power transmitted in frequency band(s)< 25 mW
Size (H x W x D)94 x 19 x 69 ±0.5 mm / 3.70 x 0.75 x 2.71 ±0.02 in
Weight75 g / 2.65 oz.
MountingDIN rail
Screw terminals max. torque0.4 Nm / 3.54 lbin
Conductor cross section0.5 to 2.5 mm² / 20 to 14 AWG (green connector)
0.5 to 1.5 mm² / 20 to 16 AWG (white connectors)
Conductor stripped length6 to 7 mm / 0.24 to 0.28 in (green connector)
5 to 6 mm / 0.20 to 0.24 in (white connectors)
Shell materialPlastic
ColorBlack
Ambient temperature-20°C to 40°C / -5°F to 105°F
Humidity30% to 70% RH
Max. altitude2000 m / 6562 ft.

Basic wiring diagram

01_Wiring_diagram_Wave_Pro_2PM-170X300.jpg

Legend

TerminalsDescription
NNeutral terminal
LLive terminal (110–240 V AC)
SW 1Switch/push-button input terminal (controlling O1)
SW 2Switch/push-button input terminal (controlling O2)
I1Input terminal for Load circuit 1
I2Input terminal for Load circuit 2
O1Load circuit output terminal 1
O2Load circuit output terminal 2

About Z-Wave®

Adding the Device to a Z-Wave® network (inclusion)

Note! All Device outputs (O, O1, O2, etc. - depending on the Device type) will turn the load 1s on/1s off /1s on/1s off if the Device is successfully added to/removed from a Z-Wave® network.

Note! In case of Security 2 (S2) adding (inclusion), a dialog will appear asking you to enter the corresponding PIN Code (5 underlined digits) that are written on the Z-Wave® DSK label on the side of the Device and on the Z-Wave® DSK label inserted in the packaging.
IMPORTANT: The PIN Code must not be lost.

SmartStart adding (inclusion)

SmartStart enabled products can be added into a Z-Wave® network by scanning the Z-Wave® QR Code present on the Device with a gateway providing SmartStart inclusion. No further action is required, and the SmartStart device will be added automatically within 10 minutes of being switched on in the network vicinity.

  1. With the gateway application scan the QR code on the Device label and add the Security 2 (S2) Device Specific Key (DSK) to the provisioning list in the gateway.
  2. Connect the Device to a power supply.
  3. Check if the blue LED is blinking in Mode 1. If so, the Device is not added to a Z-Wave® network.
  4. Adding will be initiated automatically within a few seconds after connecting the Device to a power supply, and the Device will be added to a Z-Wave® network automatically.
  5. The blue LED will be blinking in Mode 2 during the adding process.
  6. The green LED will be blinking in Mode 1 if the Device is successfully added to a Z-Wave® network.

Adding (inclusion) with the S button

  1. Connect the Device to a power supply.
  2. Check if the blue LED is blinking in Mode 1. If so, the Device is not added to a Z-Wave® network.
  3. Enable add/remove mode on the gateway.
  4. To enter the Setting mode, quickly press and hold the S button on the Device until the LED turns solid blue.
  5. Quickly release and then press and hold (> 2s) the S button on the Device until the blue LED starts blinking in Mode 3. Releasing the S button will start the Learn mode.
  6. The blue LED will be blinking in Mode 2 during the adding process.
  7. The green LED will be blinking in Mode 1 if the Device is successfully added to a Z-Wave® network.

Note! In Setting mode, the Device has a timeout of 10s before entering again into Normal mode.

Adding (inclusion) with a switch/push-button

  1. Connect the Device to a power supply.
  2. Check if the blue LED is blinking in Mode 1. If so, the Device is not added to a Z-Wave® network.
  3. Enable add/remove mode on the gateway.
  4. Toggle the switch/push-button connected to any of the SW terminals (SW, SW1, SW2, etc.) 3 times within 3 seconds (this procedure puts the Device in Learn mode*). The Device must receive on/off signal 3 times, which means pressing the momentary switch 3 times, or toggling the switch on and off 3 times.
  5. The blue LED will be blinking in Mode 2 during the adding process.
  6. The green LED will be blinking in Mode 1 if the Device is successfully added to a Z-Wave® network.

*Learn mode – a state that allows the Device to receive network information from the gateway.

Removing the Device from a Z-Wave® network (exclusion)

Note! The Device will be removed from your Z-Wave® network, but any custom configuration parameters will not be erased.

Note! All Device outputs (O, O1, O2, etc. - depending on the Device type) will turn the load 1s on/1s off /1s on/1s off if the Device is successfully added to/removed from a Z-Wave® network.

Removing (exclusion) with the S button

  1. Connect the Device to a power supply.
  2. Check if the green LED is blinking in Mode 1. If so, the Device is added to a Z-Wave® network.
  3. Enable add/remove mode on the gateway.
  4. To enter the Setting mode, quickly press and hold the S button on the Device until the LED turns solid blue.
  5. Quickly release and then press and hold (> 2s) the S button on the Device until the blue LED starts blinking in Mode 3. Releasing the S button will start the LEARN MODE.
  6. The blue LED will be blinking in Mode 2 during the removing process.
  7. The blue LED will be blinking in Mode 1 if the Device is successfully removed from a Z-Wave® network.

Note! In Setting mode, the Device has a timeout of 10s before entering again into Normal mode.

Removing (exclusion) with a switch/push-button

  1. Connect the Device to a power supply.
  2. Check if the green LED is blinking in Mode 1. If so, the Device is added to a Z-Wave® network.
  3. Enable add/remove mode on the gateway.
  4. Toggle the switch/push-button connected to any of the SW terminals (SW, SW1, SW2, ...) 3 times within 3 seconds (this procedure puts the Device in LEARN MODE). The Device must receive on/off signal 3 times, which means pressing the momentary switch 3 times, or toggling the switch on and off 3 times.
  5. The blue LED will be blinking in Mode 2 during the removing process.
  6. The blue LED will be blinking in Mode 1 if the Device is successfully removed from a Z-Wave® network.

Factory reset

Factory reset general

After Factory reset, all custom parameters and stored values (kWh, associations, routings, etc.) will return to their default state. HOME ID and NODE ID assigned to the Device will be deleted. Use this reset procedure only when the gateway is missing or otherwise inoperable.

Factory reset with the S button

Note! Factory reset with the S button is possible anytime.

  1. To enter the Setting mode, quickly press and hold the S button on the Device until the LED turns solid blue.
  2. Press the S button multiple times until the LED turns solid red.
  3. Press and hold (> 2s) S button on the Device until the red LED starts blinking in Mode 3. Releasing the S button will start the factory reset.
  4. During factory reset, the LED will turn solid green for about 1s, then the blue and red LED will start blinking in Mode 3 for approx. 2s.
  5. The blue LED will be blinking in Mode 1 if the Factory reset is successful.

Factory reset with a switch/push-button

Note! Factory reset with a switch/push-button is only possible within the first minute after the Device is connected to a power supply.

  1. Connect the Device to a power supply.
  2. Toggle the switch/push-button connected to any of the SW terminals (SW, SW1, SW2, ...) 5 times within 3 seconds. The Device must receive on/off signal 5 times, which means pressing the push-button 5 times, or toggling the switch on and off 5 times.
  3. During factory reset, the LED will turn solid green for about 1s, then the blue and red LED will start blinking in Mode 3 for approx. 2s.
  4. The blue LED will be blinking in Mode 1 if the Factory reset is successful.

Factory reset remotely with parameter with the gateway

Factory reset can be done remotely by setting Parameter No. 120.

Z-Wave® Security and Device Specific Key (DSK)

The Device supports the latest Security 2 (S2) feature. S2 is handled by the Strong AES 128 Encryption protocol, which means that the S2 makes Z-Wave® the most secure IoT (Internet of Things) security platform out there. To fully utilize the product and its Security 2 feature, a Security 2-enabled Z-Wave® gateway must be used.

  • Authenticated Control
    • Out-Of-Band DSK for inclusion
    • May be used by most implementations

The Device also supports Security 2 Authenticated, Unauthenticated, and Unsecure inclusion.

Note! When adding the Device to a Z-Wave® network with a gateway supporting Security 2 (S2), the PIN Code of the Z-Wave® Device Specific Key (DSK) is required. The unique DSK code is printed on the DSK label on the side of the Device and a copy is inserted in the packaging, which must not be lost. Do not remove the DSK label from the product. As a backup measure, use the label in the packaging.

DSKexample.png

The first five digits of the key are highlighted or underlined to help the user identify the PIN Code part of the DSK text. The DSK is additionally represented with a QR Code as shown on the image.

DSK label and QR code (example)

A joining node requesting to join the S2 Access Control Class or the S2 Authenticated Class will obfuscate its Public Key by setting the bytes 1..2 to zeros (0x00) before transferring its key via RF.

The DSK may be used for out-of-band (OOB) authentication.

  • The including gateway may use a QR code scanning device to read the entire DSK of the joining device and match it with the obfuscated public key received via RF from the joining device.

Z-Wave® Parameters

Parameter No. 1 - SW (SW1) Switch type

This parameter defines how the Device should treat the switch (which type) connected to the SW (SW1) terminal.

  • Value size: 1 Byte
  • Default value: 2
  • Values & descriptions:
    • 0 - momentary switch,
    • 1 - toggle switch (contact closed - ON / contact opened - OFF),
    • 2 - toggle switch (device changes status when switch changes status)

Parameter No. 2 - SW2 Switch type

This parameter defines how the Device should treat the switch (which type) connected to the SW2 terminal.

  • Value size: 1 Byte
  • Default value: 2
  • Values & descriptions:
    • 0 - momentary switch (push button),
    • 1 - toggle switch (contact closed - ON / contact opened - OFF),
    • 2 - toggle switch (device changes status when switch changes status)

Parameter No. 6 - Inputs SW1 & SW2 Swap

This parameter allows to swap the operation of switches connected to inputs SW1 and SW2 without changing the wiring.

  • Value size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - default (SW1 - O1, SW2 - O2),
    • 1 - swapped (SW1 - O2, SW2 - O1)

Parameter No. 16 - Outputs O1 & O2 swap

This parameter allows to swap the operation of outputs O1 and O2 without changing the wiring (in case of an invalid motor connection) to ensure proper operation.

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - default (O1 - OPEN, O2 - CLOSE),
    • 1 - reversed (O1 - CLOSE, O2 - OPEN)

Parameter No. 17 - Restore state of O (O1) after power failure

This parameter determines if on/off status is saved and restored for load connected to O (O1) after power failure.

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - Device saves last on/off status and restores it after a power failure
    • 1 - Device does not save on/off status and does not restore it after a power failure, it remains off

Parameter No. 18 - Restore the O2 state after a power failure

This parameter determines if the on/off status is saved and restored for the load connected to O2 after a power failure.

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - Device saves last on/off status and restores it after a power failure
    • 1 - Device does not save on/off status and does not restore it after a power failure, it remains off

Parameter No. 19 - O (O1) Auto OFF with timer

If the load O (O1) is ON, you can schedule it to turn OFF automatically after the period of time defined in this parameter. The timer resets to zero each time the Device receives an ON command, either remotely (from the gateway or associated device) or locally from the switch.

  • Values size: 2 Byte
  • Default value: 0
  • Values & their descriptions:
    • 0 - Auto OFF Disabled
    • 1 - 32535 = 1 - 32535 seconds (or milliseconds – see Parameter no. 25. Auto OFF timer enabled for a given amount of seconds (or milliseconds) resolution 100ms

Parameter No. 20 - O (O1) Auto ON with timer

If the load O (O1) is OFF, you can schedule it to turn ON automatically after the period of time defined in this parameter. The timer resets to zero each time the Device receives an OFF command, either remotely (from the gateway or associated device) or locally from the switch.

  • Values size: 2 Byte
  • Default value: 0
  • Values & their descriptions:
    • 0 - Auto ON Disabled
    • 1 - 32535 = 1 - 32535 seconds (or milliseconds – see Parameter no. 25. Auto ON timer enabled for a given amount of seconds (or milliseconds) resolution 100ms

Parameter No. 21 - O2 Auto OFF with timer

If the load O2 is ON, you can schedule it to turn OFF automatically after the period of time defined in this parameter. The timer resets to zero each time the device receives an ON command, either remotely (from the gateway or associated device) or locally from the switch.

  • Values size: 2 Byte
  • Default value: 0
  • Values & their descriptions:
    • 0 - Auto OFF Disabled
    • 1 - 32535 = 1 - 32535 seconds or milliseconds – see Parameter no. 26. Set timer units to s or ms for O2 resolution 100ms

Parameter No. 22 - O2 Auto ON with timer

If the load O2 is OFF, you can schedule it to turn ON automatically after the period of time defined in this parameter. The timer resets to zero each time the device receives an OFF command, either remotely (from the gateway or associated device) or locally from the switch.

  • Values size: 2 Byte
  • Default value: 0
  • Values & their descriptions:
    • 0 - Auto ON Disabled
    • 1 - 32535 = 1 - 32535 seconds or milliseconds – see Parameter no. 26. Set timer units to s or ms for O2 resolution 100ms

Parameter No. 23 - O (O1) contact type - NO/NC

The set value determines the relay contact type for output O (O1). The relay contact type can be normally open (NO) or normally closed (NC).

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - NO
    • 1 - NC
parameter - NO/NCcommand (switch, Z-Wave,..)Device output state
NO (0)OFFOFF (0 V)
NO (0)ONON (230 V)
NC (1)OFFON (230 V)
NC (1)ONOFF (0 V)

Parameter No. 24 - O2 contact type - NO/NC

The set value determines the type of Relay contact type for O2 output. The Relay contact type can be normally open (NO) or normally closed (NC).

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - NO
    • 1 - NC
par-NO/NCcommand (switch, zwave,..)Device output state
NO (0)OFFOFF (0V)
NO (0)ONON (230V)
NC (1)OFFON (230V)
NC (1)ONOFF (0V)

Parameter No. 25 - Set timer units to s or ms for O (O1)

Set Timer Units to Seconds or Milliseconds Choose if you want to set the timer in seconds or milliseconds in Parameters No. 19, 20.

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 – timer set in seconds
    • 1 – timer set in milliseconds

Parameter No. 26 - Set timer units to s or ms for O2

Set the timer units to seconds or milliseconds. Choose if you want to set the timer in seconds or milliseconds in Parameters No. 21, 22.

  • Values size: 1 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 – timer set in seconds
    • 1 – timer set in milliseconds

Parameter No. 36 - O (O1) Power report on change - percentage

This parameter determines the minimum change in consumed power that will result in sending a new report to the gateway.

  • Values size: 1 Byte
  • Default value: 50
  • Values & descriptions:
    • 0 - reports are disabled
    • 1-100 (1-100%) - change in power

NOTE: Regardless of the power consumption change in percentage, the report will not be sent more frequently than defined by Parameter No. 39.

Parameter No. 37 - O2 Power report on change - percentage

This parameter determines the minimum change in consumed power that will result in sending new report to the gateway.

  • Values size: 1 Byte
  • Default value: 50
  • Values & descriptions:
    • 0 - reports are disabled
    • 1-100 (1-100%) - change in power

NOTE: Regardless of the power consumption change in percentage, the report will not be sent more frequently than defined by Parameter No. 40.

Parameter No. 39 - Minimal time between reports (O) O1

This parameter determines the minimum time that must elapse before a new power report on O (O1) is sent to the gateway.

  • Values size: 1 Byte
  • Default value: 30
  • Values & descriptions:
    • 0 - reports are disabled
    • 1-120 (1-120s) - report interval

NOTE: This Parameter is in relation with Parameter No. 36
NOTE: Setting the value to less than 30s can cause the Z-Wave network congestion state (slow Device response and decreased network stability).

Parameter No. 40 - Minimum time between reports O2

This parameter determines the minimum time that must elapse before a new power report on O2 is sent to the gateway.

  • Values size: 1 Byte
  • Default value: 30
  • Values & descriptions:
    • 0 - reports are disabled
    • 1-120 (1-120s) - report interval
    • 10-120 (10-120s) - report interval, remark

NOTE: This Parameter is in relation with Parameter No. 37
NOTE: Setting the value to less than 30s can cause the Z-Wave network congestion state (slow Device response and decreased network stability).

Parameter No. 91 - Water Alarm

This parameter determines which alarm frames the Device should respond to and how. The parameters consist of 4 bytes, the three most significant bytes are set according to the official Z-Wave protocol specification.

  • Values size: 4 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 no action
    • 1 open relay
    • 2 close relay

Parameter No. 92 - Smoke Alarm

This parameter determines which alarm frames the Device should respond to and how. The parameters consist of 4 bytes, the three most significant bytes are set according to the official Z-Wave protocol specification.

  • Values size: 4 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 no action
    • 1 open relay
    • 2 close relay

Parameter No. 93 - CO Alarm

This parameter determines which alarm frames the Device should respond to and how. The parameters consist of 4 bytes, the three most significant bytes are set according to the official Z-Wave protocol specification.

  • Values size: 4 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 no action
    • 1 open relay
    • 2 close relay

Parameter No. 94 - Heat Alarm

This parameter determines which alarm frames the Device should respond to and how. The parameters consist of 4 bytes, the three most significant bytes are set according to the official Z-Wave protocol specification.

  • Values size: 4 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 no action
    • 1 open relay
    • 2 close relay

Parameter No. 120 - Factory Reset

Reset to factory default settings and removed from the z-wave network

  • Values size: 4 Byte
  • Default value: 0
  • Values & descriptions:
    • 0 - Don’t do Factory reset
    • 1431655765 - Do the Factory reset (hex 0x55555555)

Note: After reset is performed, the parameter value is automatically set to 0.

Parameter No. 201 - Serial Number 1

This parameter contains a part of device’s serial number.

  • The parameter is Read-Only and cannot be changed.
  • The parameter is Advanced and may be hidden under the Advanced tag.
  • Values size: 4 Byte
  • Default value: Device specific
  • Values & descriptions: 0x00000000 - 0x7FFFFFFF

Parameter No. 202 - Serial Number 2

This parameter contains a part of device’s serial number.

  • The parameter is Read-Only and cannot be changed.
  • The parameter is Advanced and may be hidden under the Advanced tag.
  • Values size: 4 Byte
  • Default value: Device specific
  • Values & descriptions: 0x00000000 - 0x7FFFFFFF

Parameter No. 203 - Serial Number 3

This parameter contains a part of device’s serial number.

  • The parameter is Read-Only and cannot be changed.
  • The parameter is Advanced and may be hidden under the Advanced tag.
  • Values size: 4 Byte
  • Default value: Device specific
  • Values & descriptions: 0x00000000 - 0x7FFFFFFF

Z-Wave® Command Class

  1. ASSOCIATION_V2 [S0, S2]*
  2. ASSOCIATION_GRP_INFO_V3 [S0, S2]*
  3. BASIC_V2 [S0, S2]*
  4. SWITCH_BINARY_V2 [S0, S2]*
  5. CONFIGURATION_V4 [S0, S2]*
  6. DEVICE_RESET_LOCALLY_V1 [S0, S2]*
  7. FIRMWARE_UPDATE_MD_V5 [S0, S2]*
  8. INDICATOR_V3 [S0, S2]*
  9. MANUFACTURER_SPECIFIC_V2 [S0, S2]*
  10. METER_V6 [S0, S2]*
  11. MULTI_CHANNEL_V4 [S0, S2]*
  12. MULTI_CHANNEL_ASSOCIATION_V3 [S0, S2]*
  13. NOTIFICATION_V8 [S0, S2]*
  14. POWERLEVEL_V1 [S0, S2]*
  15. SECURITY_V1
  16. SECURITY_2_V1
  17. SUPERVISION_V1
  18. TRANSPORT_SERVICE_V2
  19. VERSION_V3 [S0, S2]*
  20. ZWAVEPLUS_INFO_V2

Endpoint 1

  1. ASSOCIATION_V2 [S0, S2]*
  2. ASSOCIATION_GRP_INFO_V3 [S0, S2]*
  3. BASIC_V2 [S0, S2]*
  4. SWITCH_BINARY_V2 [S0, S2]*
  5. METER_V6 [S0, S2]*
  6. MULTI_CHANNEL_V4 [S0, S2]*
  7. NOTIFICATION_V8 [S0, S2]*
  8. SECURITY_V1
  9. SECURITY_2_V1
  10. SUPERVISION_V1
  11. ZWAVEPLUS_INFO_V2

Endpoint 2

  1. ASSOCIATION_V2 [S0, S2]*
  2. ASSOCIATION_GRP_INFO_V3 [S0, S2]*
  3. BASIC_V2 [S0, S2]*
  4. SWITCH_BINARY_V2 [S0, S2]*
  5. METER_V6 [S0, S2]*
  6. MULTI_CHANNEL_V4 [S0, S2]*
  7. NOTIFICATION_V8 [S0, S2]*
  8. SECURITY_V1
  9. SECURITY_2_V1
  10. SUPERVISION_V1
  11. ZWAVEPLUS_INFO_V2

[S2]* Security S2 Command Class

Z-Wave® Notifications Command Class

Overheat detected

CommentOverheat detected
Z-Wave Notification Type NameHeat Alarm
Z-Wave Notification type - Value0x04
Z-Wave Notification type - EventState
Z-Wave Notification NameOverheat detected
Z-Wave Notification Name - Value0x02
Z-Wave Notification Name - VersionV2
Z-Wave Device specificYes
LED signalisationCheck LED signalisation table
Device reaction - Switch OFF all outputs and send notificationYes
Action to restore - power cycleYes
Action to restore - short press on S buttonYes
Action to restore - press any switch-push button connected to any SW (SW, SW1, SW2, …) terminalYes

Over-current detected O

CommentOver-current detected O (O1)
Z-Wave Notification Type NamePower management
Z-Wave Notification type - Value0x08
Z-Wave Notification type - EventState
Z-Wave Notification NameOver-current detected
Z-Wave Notification Name - Value0x06
Z-Wave Notification Name - VersionV3
Z-Wave Device specificYes
LED signalisationCheck LED signalisation table
Device reaction - Switch OFF the output O (O1) and send a notificationYes
Action to restore - power cycleYes
Action to restore - short press on S buttonYes
Action to restore - press any switch-push button connected to any SW (SW, SW1, SW2, …) terminalYes

AC mains disconnected

CommentAC mains disconnected (valid for AC and DC power supply)
Z-Wave Notification Type NamePower management
Z-Wave Notification type - Value0x08
Z-Wave Notification type - EventState
Z-Wave Notification NameAC mains disconnected
Z-Wave Notification Name - Value0x02
Z-Wave Notification Name - VersionV2
Z-Wave Device specificYes
LED signalisationCheck LED signalisation table
Device reaction - Switch OFF all outputs and send notificationYes
Action to restore - power cycleYes
Action to restore - short press on S buttonYes
Action to restore - press any switch-push button connected to any SW (SW, SW1, SW2, …) terminalYes

Over-voltage detected

CommentOver-voltage detected
Z-Wave Notification Type NamePower management
Z-Wave Notification type - Value0x08
Z-Wave Notification type - EventState
Z-Wave Notification NameOver-voltage detected
Z-Wave Notification Name - Value0x07
Z-Wave Notification Name - VersionV3
LED signalisationCheck LED signalisation table
Device reaction - Switch OFF all outputs and send notificationYes
Action to restore - power cycleYes
Action to restore - short press on S buttonYes
Action to restore - press any switch-push button connected to any SW (SW, SW1, SW2, …) terminalYes

Z-Wave® Associations

Root Device

Association group 1 – Lifeline Group reports the Device status and allows for assigning single Device only (Gateway by default), 1 node allowed only. Supports the following command classes:

  1. INDICATOR_REPORT : LED status
  2. DEVICE_RESET_LOCALLY_NOTIFICATION : triggered upon request
  3. SWITCH_BINARY_REPORT : status change report for all outputs O (O, O1, O2, …) - common
  4. NOTIFICATION_REPORT : triggered on Overheat
  5. NOTIFICATION_REPORT : triggered on Overcurrent detected sum of all outputs O (O1+O2+…)
  6. NOTIFICATION_REPORT : triggered on Overvoltage detected
  7. NOTIFICATION_REPORT : triggered on AC mains disconnected
  8. METER_REPORT : triggered by the load power consumption of all connected loads to all outputs O (O1+O2+…) (according to the settings of Parameters from No. 36 to 43)

Association Group 2
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses Basic command class).
Triggered by SW (SW1). The device sends according to the state of SW (SW1) (switch or push-button) the command BASIC_SET ON or BASIC_SET OFF to the associated device. This command is reflected to the output of associated device. Supports the following command classes:

  • BASIC_SET : set On / Off state at the associated device

Association Group 3
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses multilevel start / stop command class).
Triggered by SW (SW1). The device sends according to the state of SW (SW1) (switch or push-button) the command SWITCH_MULTILEVEL_START_LEVEL_CHANGE or SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE to the associated device. Supports the following command classes:

  • SWITCH_MULTILEVEL_START_LEVEL_CHANGE : initiate a transition to a new level
  • SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE : stop an ongoing transition

Association Group 4
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses Basic command class).
Triggered by SW (SW1). The device sends according to the state of SW (SW1) (switch or push-button) the command BASIC_SET ON or BASIC_SET OFF to the associated device. This command is reflected to the output of associated device. Supports the following command classes:

  • BASIC_SET : set On / Off state at the associated device

Association Group 5
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses multilevel start / stop command class).
Triggered by SW (SW1). The device sends according to the state of SW (SW1) (switch or push-button) the command SWITCH_MULTILEVEL_START_LEVEL_CHANGE or SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE to the associated device. Supports the following command classes:

  • SWITCH_MULTILEVEL_START_LEVEL_CHANGE : initiate a transition to a new level
  • SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE : stop an ongoing transition

Endpoint 1

Endpoint 1 - Association Group 1 - Lifeline

  • SWITCH_BINARY_REPORT : status change report for output O (O1)
  • NOTIFICATION_REPORT : triggered on Overcurrent detected O (O1)
  • METER_REPORT : triggered by load power consumption connected to output O(O1) (according to the settings of Parameters No. 36 and 39)

Association Group 2
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses Basic command class).
Triggered by SW (SW1). The device sends according to the state of SW (SW1) (switch or push-button) the command BASIC_SET ON or BASIC_SET OFF to the associated device. This command is reflected to the output of associated device. Supports the following command classes:

  • BASIC_SET : set On / Off state at the associated device

Association Group 3
Allowed nodes: 9
It is assigned to switch connected to the SW (SW1) terminal (uses Switch Multilevel command class). Triggered by SW (SW1).
It is recommended to use push buttons for this association. Supports the following command classes:

  • SWITCH_MULTILEVEL_START_LEVEL_CHANGE : initiate a transition to a new level (increase or decrease light intensity in case of dimmer, or move shutter up or down, …)
  • SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE : stop an ongoing transition (stop increase or decrease light intensity in case of dimmer, or stop moving shutter up or down, …)

Endpoint 2

Endpoint 2 - Association Group 1 - Lifeline

  • SWITCH_BINARY_REPORT : status change report for output O2
  • NOTIFICATION_REPORT : triggered on Overcurrent detected O2
  • METER_REPORT : triggered by load power consumption connected to output O2 (according to the settings of Parameters No. 37 and 40)

Association Group 2
Allowed nodes: 9
It is assigned to switch connected to the SW2 terminal (uses Basic command class).
Triggered by SW2. The device sends according to the state of SW2 (switch or push-button) the command BASIC_SET ON or BASIC_SET OFF to the associated device. Supports the following command classes:

  • BASIC_SET : set On / Off state at the associated device

Association Group 3
Allowed nodes: 9
It is assigned to switch connected to the SW2 terminal (uses Switch Multilevel command class). Triggered by SW2.
It is recommended to use push buttons for this association. Supports the following command classes:

  • SWITCH_MULTILEVEL_START_LEVEL_CHANGE : initiate a transition to a new level (increase or decrease light intensity in case of dimmer, or move shutter up or down, …)
  • SWITCH_MULTILEVEL_STOP_LEVEL_CHANGE : stop an ongoing transition (stop increase or decrease light intensity in case of dimmer, or stop moving shutter up or down, …)

Z-Wave® Important disclaimer

Z-Wave® wireless communication may not always be 100% reliable. This Device should not be used in situations in which life and/or valuables are solely dependent on its functioning. If the Device is not recognized by your gateway or appears incorrectly, you may need to change the Device type manually and ensure that your gateway supports Z-Wave Plus™ multi-level devices.

Troubleshooting

For troubleshooting please visit our support portal: Support

Compatibility with gateways

GatewayOn/Off 1On/Off 2SW 1 On/OffSW 2 On/OffW 1W 2kWhNotes
Home Assistant
Fibaro HC 3 / Z-Wave engine 3
Homey*H
Homee Cube Gen 7
Homee Cube Gen 5P *1P *1⭐ *2⭐ *2⭐ *2*1, *2
Smart Thingswith the Shelly Wave edge driver
Vera Ezlo
Cozify

*1 The output change state however, the corresponding user interface state fails to reflect the updates.
*2 The W and kWh are not reported to the user interface.
*H Troubles with reports can be solved with this solution.

Function meanings

FunctionMeaning / tested
On/Offif device respond to the app UI On/Off command
SW On/Offif device reports On/Off changes by SW input
Dimmingif device respond to app UI dimming command
SW Dimmingif device report dimming state change by SW input
Wattsif Watts are reported (unsolicited)
kWhif kWh are reported (unsolicited)
Up/Downif device respond to the app UI Up/Down command
SW Up/Downif device reports Up/Down changes by SW input
Slatsif the slats respond to the app UI command
SW Slatsif the slats report the changes done by SW
D controldetached mode if device reports scene commands single press, double press,…
D Binarydetached mode if the device reports binary On/Off by SW input
Sensor #Is the sensor report visualized in the gateway, type of sensor in the notes.

Legend

SymbolState
Working / Possible
Not Working / Not Possible
PPartially
N/TNot Tested
TBDTo be done

Gateway guides

You may find useful guides on gateways in the Z-Wave Shelly Knowledge base.

Compliance

Compliance archive

Printed User Guide