In modern solar power generation systems, efficient data collection and seamless communication between devices are critical for stable operation and intelligent management. The BE113 Protocol Conversion Gateway is designed to meet this need by bridging industrial protocols with IoT platforms, ensuring reliable integration of field sensors and cloud applications.
Protocol Conversion Support:
IEC 60870-5-104
Modbus RTU
Modbus TCP
Converts seamlessly to MQTT for cloud integration.
Flexible Interfaces:
1 WAN port + 1 LAN port for networking.
2× RS485 or 6× RS485 options for serial devices.
Industrial Design:
Compact and robust structure.
Suitable for long-term operation in outdoor solar applications.
In solar farms, monitoring environmental and operational conditions is essential for efficiency and safety. The BE113 is deployed to collect data from various field sensors and forward it to centralized monitoring platforms.
Typical sensor connections include:
High-temperature sensors – monitor equipment and panel safety.
Anemometers (wind speed) – protect turbines and solar trackers during storms.
Rain sensors – detect precipitation for environmental monitoring.
Wind direction sensors – optimize solar tracking systems.
By converting IEC104, Modbus RTU, or Modbus TCP data into MQTT, the BE113 enables direct integration with cloud-based SCADA systems, EMS (Energy Management Systems), or IoT platforms.
Seamless Cloud Connectivity: Native MQTT ensures smooth integration with cloud platforms.
Interoperability: Supports multiple industrial protocols for maximum compatibility.
Scalability: Easily expandable with multiple RS485 ports for sensor-rich environments.
Reliability: Industrial-grade design ensures stability in demanding solar farm conditions.
The BE113 Protocol Conversion Gateway empowers solar power plants with reliable data acquisition and protocol conversion. By connecting environmental sensors to cloud applications through IEC104, Modbus, and MQTT, it ensures real-time monitoring, higher operational safety, and improved efficiency in renewable energy projects.
