MClimate Wireless Thermostat

General information

MClimate Wireless Thermostat is a stand-alone thermostat powered entirely by solar energy using an organic solar panel.

The device features a 2.9" e-ink screen, sensor for movement (PIR), temperature and humidity sensor, LUX sensor and 3 buttons. The user can change the target temperature and see current indoor conditions.

The device sends an uplink after any event as well as periodically. The data from the Wireless Thermostat can be used in any LoRaWAN-compatible system, incl. Building Management Systems to control different appliances in the building.

Learn more about MClimate Smart Building Solutions:

Smart Buildings - Scalable LoRaWAN & NB-IoT Solutions by MClimateMClimate

Purchase MClimate Wireless Thermostat:

MClimate Wireless Thermostat LoRaWANMClimate

Features

Solar-powered
PIR sensor
LUX sensor
E-ink display
Temperature & humitity sensor
3 buttons
Anti-theft bracket
FUOTA
Child lock
Sensing only mode
(no target temp displayed)

Power supply

Solar-powered Lithium-ion capacitor (LIC)
- AND/OR 2 or 4xAA 1.5VDC batteries
- AND/OR USB-C
Operating voltage:
- 2.5-3.8VDC powered by Solar Panel
- 2-3.6VDC powered by batteries
- 5VDC powered from USB-C
Expected battery life (depending on configuration and environment):
- Indefinite powered by solar - up to 21 days in complete darkness
- 10+ years powered by AA batteries
Device does not operate with rechargeable batteries!

Compatibility

LoRaWAN 1.0.3, class A device, EU868 - 870; Other LoRaWAN regional settings available upon request
Encryption: LoRaWAN End-to-end encryption (AES-CTR)
Activation: OTAA
Link budget: 130dB
RF Transmit Power: 14dB

Sensors

1. Temperature sensor

Resolution: 0,1°C
Accuracy: ±0,2°C (typ) - ±0,7°C (max)

2. Humidity sensor

Resolution: 2%
Accuracy: ±3% (typ) - ±3% (max)

3. PIR sensor (movement)

View of angle: X = 100° ; Y = 90°

4. LUX sensor

Resolution: 1 LUX
Accuracy: ±10%
Range: 0 - 10 000 LUX

5. Organic Solar Cell

The device uses its internal supercapacitor as its main source of power, which is directly charged via the solar cell. When its voltage drops below a certain threshold the device stops operating until it is recharged sufficiently.

In case you are using batteries/USB the following logic applies:

Supercapacitor is discharged first (no battery/USB power is utilized).
When the supercapacitor voltage drops to the voltage of the batteries/USB it starts charging from the batteries/USB. Thus, the device is effectively powered by the batteries/USB, however it is still through the supercapacitor.
If at this point the batteries discharge sufficiently or USB power is no longer supplied the supercapacitor will discharge below the operational threshold and the device will turn off.
When and if the supercapacitor recharges sufficiently, it becomes the main power source, and so on...

Mounting warning

If you have any questions, feel free to reach out to us at [email protected]

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Last updated 1 month ago

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hashtagGeneral information

hashtagFeatures

hashtagPower supply

hashtagCompatibility

hashtagSensors

hashtag1. Temperature sensor

hashtag2. Humidity sensor

hashtag3. PIR sensor (movement)

hashtag4. LUX sensor

hashtag5. Organic Solar Cell

hashtagMounting warning