EnOcean STM 330U Module 315MHz
Technical documents
Specifications
Brand
EnOceanComponent Type
Module
Supported Frequency Bands
315MHz
Modulation Technique
ASK
Maximum RF Data Rate
125kbit/s
Dimensions
43 x 16 x 8mm
Height
8mm
Length
43mm
Maximum Operating Temperature
+60 °C
Minimum Operating Temperature
-20 °C
Width
16mm
Country of Origin
Germany
Product details
Wireless Temperature Sensor Transmitter Module STM330
The EnOcean STM 330 ISM-band transmitter module incorporates a solar cell power supply and a calibrated temperature sensor. Power is provided by either the on-board solar cell, an external energy harvester or an external 3V battery. An energy storage element is installed to bridge periods with no supply from the energy harvester. The module provides a user configurable cyclic wake up. After wake up a radio telegram will be transmitted in case of a significant change of measured temperature or set point values or if a room occupancy button is pressed. In case of no relevant input change, a redundant retransmission signal is sent after a user-configurable number of wake-ups to announce all current values.
On-board solar cell energy harvester
Temperature sensor measurement range: 0 to 40°C
Operating frequency: 868.3MHz (STM 330 RS 786-3209), 315MHz (STM 330C RS 786-3218)
Data rate: 125kbps
Modulation: ASK
Radiated output power: STM 330: 8dBm (typical EIRP), STM 330C 92dBμV/m typical
Start-up time with empty energy storage typically <2.5 min @ 400lux, 25°C
Initial operation time in darkness @25°C: typically 4 days if energy storage fully charged
Wake-up every 100s, transmission every 1000s on average
Internal input channels: temperature sensor, LRN button
External input channels: room occupancy button, set point dial, HSM 100 via 20-pin connector
LED transmission indicator
EnOcean Equipment profiles: configurable EEPs: A5-02-05, A5-10-05, A5-10-03 and with HSM 100: A5-04-01, A5-10-10, A5-10-12
Pre-installed whip or helix antenna
Dimensions: 43 x 16 x 8mm
Operating temperature range: -20 to +60°C
Applications: Room operating panels communicating with the Internet of Things (IoT)
Batteryless Wireless Applications
EnOcean manufacture a range of transmitter and receiver products that operate in the 868MHz area of the ISM band. These devices are typically very efficient in terms of the power supply requirements and are used to send short messages.,The advantages of EnOcean technology are clearly illustrated through applications such as electrical control which eliminates the need for external wired connections and batteries.,Suitable for limitless applications where maintenance free and flexible switching needs to be installed without drilling, cabling and reconstruction costs.,Power in the transmitters is also created for "FREE" using energy harvesting techniques to create energy from the push button switches or solar power for its sensors transmitters.,Radio systems based around EnOcean technology can be formed into star, mesh, or hybrid topology networks, and are a good complement to ZigBee systems, typically in building automation and remote sensor applications.
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P.O.A.
100
P.O.A.
100
Technical documents
Specifications
Brand
EnOceanComponent Type
Module
Supported Frequency Bands
315MHz
Modulation Technique
ASK
Maximum RF Data Rate
125kbit/s
Dimensions
43 x 16 x 8mm
Height
8mm
Length
43mm
Maximum Operating Temperature
+60 °C
Minimum Operating Temperature
-20 °C
Width
16mm
Country of Origin
Germany
Product details
Wireless Temperature Sensor Transmitter Module STM330
The EnOcean STM 330 ISM-band transmitter module incorporates a solar cell power supply and a calibrated temperature sensor. Power is provided by either the on-board solar cell, an external energy harvester or an external 3V battery. An energy storage element is installed to bridge periods with no supply from the energy harvester. The module provides a user configurable cyclic wake up. After wake up a radio telegram will be transmitted in case of a significant change of measured temperature or set point values or if a room occupancy button is pressed. In case of no relevant input change, a redundant retransmission signal is sent after a user-configurable number of wake-ups to announce all current values.
On-board solar cell energy harvester
Temperature sensor measurement range: 0 to 40°C
Operating frequency: 868.3MHz (STM 330 RS 786-3209), 315MHz (STM 330C RS 786-3218)
Data rate: 125kbps
Modulation: ASK
Radiated output power: STM 330: 8dBm (typical EIRP), STM 330C 92dBμV/m typical
Start-up time with empty energy storage typically <2.5 min @ 400lux, 25°C
Initial operation time in darkness @25°C: typically 4 days if energy storage fully charged
Wake-up every 100s, transmission every 1000s on average
Internal input channels: temperature sensor, LRN button
External input channels: room occupancy button, set point dial, HSM 100 via 20-pin connector
LED transmission indicator
EnOcean Equipment profiles: configurable EEPs: A5-02-05, A5-10-05, A5-10-03 and with HSM 100: A5-04-01, A5-10-10, A5-10-12
Pre-installed whip or helix antenna
Dimensions: 43 x 16 x 8mm
Operating temperature range: -20 to +60°C
Applications: Room operating panels communicating with the Internet of Things (IoT)
Batteryless Wireless Applications
EnOcean manufacture a range of transmitter and receiver products that operate in the 868MHz area of the ISM band. These devices are typically very efficient in terms of the power supply requirements and are used to send short messages.,The advantages of EnOcean technology are clearly illustrated through applications such as electrical control which eliminates the need for external wired connections and batteries.,Suitable for limitless applications where maintenance free and flexible switching needs to be installed without drilling, cabling and reconstruction costs.,Power in the transmitters is also created for "FREE" using energy harvesting techniques to create energy from the push button switches or solar power for its sensors transmitters.,Radio systems based around EnOcean technology can be formed into star, mesh, or hybrid topology networks, and are a good complement to ZigBee systems, typically in building automation and remote sensor applications.