Shelly Wave 2PM (US)
Device identification
Device: Shelly Wave 2PM (US)
US Part number/Ordering Code: QNSW-002P14US
Z-Wave Product type ID: 0x0002
Z-Wave Product ID: 0x0081
Z-Wave Manufacturer: Shelly Europe
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 (GW) - 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.
Adding/Inclusion - The process of adding Z-Wave device to a Z-Wave network - gateway. The words included, added, etc. are used in this regard.
Removing/Exclusion - The process of removing Z-Wave device from a Z-Wave network - gateway. The words excluded, removed, etc. are used in this regard.
Short description
The Device is a single product that enables remote control of two electrical devices such as bulbs, ceiling fans, and IR heaters. It switches (on/off) two independent loads (7 A per channel, 14 A total) and measures their power consumption separately and in total. The Device is compatible with switches (default) and push-buttons.
Switch/push-button 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. 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).
Switch-memory connected to input terminal SW (SW1)
If the SW (SW1) is configured as a switch-memory, than:
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.
Single 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)
Press and 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).
Switch-memory connected to input terminal SW2
If the SW2 is configured as a switch-memory, than:
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.
Single 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)
Press and 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
Device electrical interfaces
Inputs
2 switch/push-button inputs on screw terminal
3 power supply inputs on screw terminals: N (+), L (Ʇ) and 12V
Outputs
2 relay outputs with power measurement on screw terminal
Connectivity
Z-Wave - Unsecure, S0 Security, S2 Unauthenticated Security, S2 Authenticated Security
Safety features
Overheat protection
Over-current protection
Over-voltage protection
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
Settings mode:
Is required to start the desired procedure, for example: adding (inclusion), removing (exclusion), factory reset, etc. It has a limited operating time. After completing the procedure in Setting mode, the Device automatically switches to Normal mode.
Entering Setting mode:
Press and hold the S button on the Device until the LED turns solid blue.
An additional quick press on the S button changes the menu in an infinite loop.
The Menu LED status has a timeout of 10s before entering again into Normal mode.
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
LED blinking modes
Specifications
Power supply | 120 V AC 50/60 Hz |
Power consumption | < 0.3 W |
Power measurement [W] | Yes |
Max. Power per channel | 1/3 hp |
Max switching voltage AC | 120 V |
Max switching current AC | 7 A per channel, 14 A total |
Overheating protection | Yes |
Overcurrent protection | Yes |
Distance | up to 40 m indoors (131 ft.) (depends on local condition) |
Z-Wave® repeater: | Yes |
CPU | Z-Wave® S800 |
Z-Wave® frequency bands: | 908.4 MHz |
Maximum radio frequency power transmitted in frequency band(s) | < 25 mW |
Size (H x W x D) | 37x42x16 ± 0.5 mm / 1.46x1.65x0.63 ± 0.02 in |
Weight | 29 g / 1,02 in |
Mounting | Wall console |
Screw terminals max torque | 0.4 Nm / 3.5 lbin |
Conductor cross section | 0.5 to 1.5 mm² / 20 to 16 |
Conductor stripped length | 5 to 6 mm / 0.20 to 0.24 in |
Shell material | Plastic |
Color | Black |
Ambient temperature | -20°C to 40°C / -5°F to 105°F |
Humidity | 30% to 70% RH |
Max. altitude | 2000 m / 6562 ft. |
Basic wiring diagram
|
|
Legend
Device terminals:
N: Neutral terminal
L: Live terminal (110-240 V AC)
SW (SW1): Switch/push-button input terminal (controlling O (O1))
SW2: Switch/push-button input terminal (controlling O2)
O (O1): Load circuit (1) output terminal
O2: Load circuit 2 output terminal
+: 24 V DC positive terminal
ꓕ: 24 V DC ground terminal
Wires:N: Neutral wire
L: Live wire (110-240 V AC)
+: 24 V DC positive wire
GND: 24 V DC ground wire
Button:S: S button
About Z-Wave®
Adding and removing the Device to a Z-Wave® network
Z-Wave® Security and Device Specific Key (DSK)
Z-Wave® Parameters
Z-Wave® Command Classes
Z-Wave® Notifications Command Class
Z-Wave® Associations
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
Wave 2PM | functions - reports | |||||||
Gateway | On/Off 1 | On/Off 2 | SW 1 On/Off | SW 2 On/Off | W 1 | W 2 | kWh | Notes |
Home Assistant | ||||||||
Fibaro HC 3 / Z-Wave engine 3 |
| |||||||
Homey |
|
|
|
|
|
|
| Troubles with reports can be solved with this solution. |
Homee Cube Gen 7 |
|
|
|
|
|
|
| |
Homee Cube Gen 5 | P | P | P | P | P | P | P | *1 |
SmartThings |
|
|
|
|
| |||
Jeedom | ||||||||
Hubitat | ❌ | ❌ | ❌ | ❌ | ❌ | ❌ | ❌ | |
Notes | *1 - The device is configured as a single-channel device, featuring a singular switch within the application interface that enables control over both outputs simultaneously. |
Function | Meaning |
---|---|
On/Off | tested if device respond to the app UI On/Off command |
SW On/Off | tested if device reports On/Off changes by SW input |
Watts | tested if Watts are reported (unsolicited) |
kWh | tested if kWh are reported (unsolicited) |
Up/Down | tested if device respond to the app UI Up/Down command |
SW Up/Down | tested if device reports Up/Down changes by SW input |
Slats | tested if the slats respond to the app UI command |
SW Slats | tested if the slats report the changes done by SW |
Legend | ||||
Symbol | State | |||
Working / Possible | ||||
❌ | Not Working / Not Possible | |||
P | Partially | |||
N/T | Not Tested | |||
TBD | To be done |
Gateway guides
You may find useful guides on gateways in the Z-Wave Shelly Knowledge base.
Compliance
Wave 2PM multilingual EU declaration of conformity.pdf
Wave 2PM UK PSTI ACT Statement of compliance.pdf