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

OTA - Over-The-Air firmware update.
FW - Firmware
ZAF - Z-Wave® protocol
NIF - Node Information Frame; the frame that is sent at every adding (inclusion) to present/advertise the Device’s capability to the gateway, so that it may adjust its operating ability.
CC - Command Class (ZAF centerpiece of interoperability). The files/processes that determine how data is sent and handled/received. Command Classes include their signatures while sending data to allow recognition of which process is sending data for the destination device.
Switch - A toggle switch or a bi-stable switch.
Push-button - A momentary switch or a monostable switch.
Switch/push-button - It can be a switch or a push-button.
Double press - If the delay between the first and the second press on the switch/push-button is less than 500 ms, this is interpreted as a double press.
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.
Mesh network - devices can communicate with each other in addition to the gateway. Devices (only mains powered) can act as repeaters to extend network.
Long range network - devices can communicate only with gateway (no repeater function).
S button - The Z-Wave® Service button, located on Z-Wave® devices and is used for various functions such as adding (inclusion), removing (exclusion), resetting the device to its factory default settings and to switch power output on/off (valid only for Wave Plugs). The term "S button" is used in this document.
Device - In this document, the term “Device” is used to refer to the Shelly Wave device that is a subject of this guide.
End device - Z-Wave end devices are nodes in a Z-Wave network that are not gateways, such as switches, door locks, sensors, etc.
Node ID - The Z-Wave Node ID is a unique identifier assigned at the adding (inclusion) to each device in a Z-Wave network, allowing the network to identify and communicate with this device.
HOME ID - The Z-Wave Home ID is a unique identifier assigned to each Z-Wave network and each device in that network. It distinguishes your Z-Wave network from other networks and ensures that your Z-Wave devices only communicate with devices in your own network.
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.
Factory reset - After Factory reset, all custom parameters and stored values (kWh, associations, routings, etc.) will return to their default state. The 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.
Normal mode - Is the state of the device which refers to the operational state of a device when it is functioning under regular conditions (switching on/off, dimming, etc.) either during active usage or while in standby mode but still powered.
SmartStart - SmartStart enabled devices can be added (included) to a Z-Wave network by scanning the Z-Wave QR code on the device with a Gateway that supports SmartStart inclusion. The SmartStart enabled device will be automatically added within 10 minutes of being switched on in the vicinity of the Z-Wave network.
MUST - MUST be implemented
OPTIONAL - implement it if time/budget allows
Associations - Associations are used for direct communication between the Device and other devices within your Z-Wave network without the need of the Z-Wave gateway.
Power cycle - Reboot the Device/power supply On/Off of the Device
Blind - Refers to any kind of window treatment, such as venetian blinds, roller blinds (screens), roller shutters, vertical window blinds, curtains, integral venetian blinds, pleated blinds, awnings, etc. Additionally, Wave Shutter can also control window motors, projector screens, or any type of bi-directional AC motor.
Power consumption (W) - refers to the rate at which energy is consumed or used by an electrical device or system. It is measured in watts (W).
Energy consumption (kWh) - refers to the total amount of electrical energy consumed by a device or system over a specific period of time. It is measured in kilowatt-hours (kWh).
Ordering code - The ordering code is the same as the Part number (PN). Where there is not enough space to write the Ordering code, abbreviation PN is used. The PN is written on the DSK label on each device.

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.

Basic functions

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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)
Double press: If the delay between first in second press is less then 500ms, this is interpreted as double press. Send command to the associated devices (dimmers, shutters,….) 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)
Double press: If the delay between first in second press is less then 500ms, this is interpreted as double press. Send command to the associated devices (dimmers, shutters,….) 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

Power consumption measurement

It measures Power consumption (W) of the all connected loads. The measured values are sent to Gateway according to Parameters No. 36 and 39 settings. In case there is no changes in measured value, the Device will sent to Gateway measured value every 60 minutes independent of Parameter No. 36 and No. 39 setting. This is done as most of gateways do not support pull function, so in case gateway is off, after getting power, it will not request data from Z-Wave devices and there will not be power change on the Z-Wave devices, on the gateway will never been updated status of power.
"It measures Power consumption (W) of the connected load to the output O (O1). The measured value is sent to Gateway according to Parameters No. 36 and 39 settings.
"It measures Power consumption (W) of the connected load to the output O2. The measured value is sent to Gateway according to Parameters No. 37 and 40 settings.
"It measures sum of the Power consumption (W) of the connected loads to the outputs O1 and O2. The measured value is sent to Gateway always with reporting of O1 (according to Parameter No. 36 and No. 39) and with reporting of O2 (according to Parameter No. 37 and No. 40).

Energy consumption measurement

Energy consumption (kWh) the Device calculate based on measured Power (W) during the time. Energy consumption measurement value is sent to the Gateway when the value increase for 0,1 kWh as unsolicited report. In case there is no changes in measured value, the Device will sent to Gateway measured value every 60 minutes anyhow. This is done as most of gateways do not support pull function, so in case gateway is off, after getting power, it will not request data from Z-Wave devices and there will not be power change on the Z-Wave devices, on the gateway will never been updated status of power.

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

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

To make sure the functions of Shelly 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)

Outputs

2 relay outputs with power measurement on screw terminal

Connectivity

Unsecure, S0 Security, S2 Unauthenticated Security, S2 Authenticated Security

Safety features

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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 output
send the Notification Report to the gateway (Overheat detected)
the LED lights react as specified above (check LED blinking mode for Overheat detected)

NOTE: The Overheat protection is always active and cannot be disabled.

Additional description above under chapter Notification for Overheat detected.

Overcurrent Protection

Device has internal Overcurrent protection. If the current exceeds 7A +10 % for more than 5s on O1, or if the current exceeds 7A+10% for more than 5s on O2, or if the current exceeds 14A +10 % for more than 5s on O1 + O2, the Device will:

switch off its own output
sends the Notification Report to the gateway (Overcurrent detected)
the LED lights react as specified above (check LED blinking mode for Overcurrent detected)

NOTE: The Over-current protection is always active and cannot be disabled.

Additional description above under chapter Notification for Over-current detected.

Overvoltage Protection

Device has internal Overvoltage protection. This is valid for standard power supply voltage 110 V AC. If the voltage exceeds 120 V AC+15% (138 V AC) for more than 5s, the Device will:

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

NOTE: The Over-voltage 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

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

Click to see LED signalisation

General rules

Switching between Normal and Settings mode is done by press and hold the S button.
Solid LED means that you are in the Settings mode (this is not valid for Plugs). Once in settings mode, switch to normal mode goes automatically after 10s.
If the LED is not in Alarm mode, it will turn off after a timeout of 30min. Pressing the S button or power cycling the Device will wake the LED for 30min.

Normal mode LED status: Normal mode is defined by stable device function that can remain for an infinite time.

LED type: RGB dimmable

Normal mode

Removed/Excluded

The LED will be blinking blue in Mode 1 for 30min after every power cycle and 10min after S button pressed.

Added/Included

The LED will be blinking green in Mode 1 for 30min after every power cycle and 10min after S button pressed.

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.

OTA firmware updating

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

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.

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.

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.