CC1310PA+LNA High-Power Long-Distance Module | Core Application Fields

I. Large Industrial Plants: Wide-Area Decentralized Equipment Temperature Measurement 🏭

• Large production workshops/plant clusters: Monitor high-voltage distribution cabinets, large motor units, frequency converters and other equipment across workshops, penetrate the obstruction of plant walls and metal equipment, and achieve wireless data transmission over an open distance of more than 500 meters.
• Outdoor power/ distribution equipment in plants: Cover compact substations, high-voltage branch boxes, water pump stations and air compressor stations scattered outdoors in the plant, realize unified remote transmission of temperature measurement data from wide-area equipment with a single module without dense repeaters.
• Heavy machinery clusters: Conduct temperature measurement on large rolling mills, cranes, welding equipment clusters in metallurgy/shipbuilding/engineering machinery plants, adapt to the characteristics of large equipment spacing and complex on-site electromagnetic environment, and ensure stable data transmission with strong anti-interference performance.
• Pipe rack/unit areas in chemical parks: Monitor power distribution nodes of outdoor pipe racks and high-voltage equipment supporting reaction kettles in chemical parks, penetrate steel structures of pipe racks and unit cabinets, and realize long-distance cross-regional temperature measurement networking.

II. Outdoor New Energy Stations: Wide-Area Large-Scale Equipment Temperature Measurement 🔋

• Large photovoltaic power stations: Cover combiner boxes, string inverters and compact substations in continuously arranged photovoltaic arrays, a single receiver can cover temperature measurement nodes of dozens of photovoltaic arrays, with a transmission distance of 800~1000 meters in open environments, adapting to the large-area large-scale deployment of power stations.
• Wind farms: Monitor compact substations of scattered wind turbines, tower power distribution equipment and collector line joints, penetrate the obstruction of wind turbine towers and outdoor poles, realize long-distance wireless temperature measurement between wind turbines and the central control room without deploying receiving equipment for each turbine.
• Energy storage industrial parks/energy storage power stations: Cover energy storage cabin clusters, outdoor high-voltage distribution equipment and converter stations, adapt to the characteristics of dense but cross-regional decentralized equipment in energy storage parks, and realize unified remote transmission of park temperature measurement data to the energy storage monitoring platform via high-power wide-area networking.
• Integrated wind-solar-storage-charging stations: Adapt to the cross-regional mixed layout of photovoltaic, wind power, energy storage and charging equipment in integrated stations, a single module is compatible with temperature measurement data transmission of multiple devices, realizing ultra-simplified networking of the whole station’s temperature measurement system.

III. Mines/Tunnels: Long-Distance Temperature Measurement in Underground/Narrow Spaces ⛰️

• Underground mine equipment: Monitor high-voltage distribution switches, cable joints, main fans, hoists and other equipment in coal/metal mines, penetrate the obstruction of underground rock walls and roadway equipment, and realize long-distance data transmission between underground and ground monitoring centers.
• Tunnel engineering/underground utility tunnels: Cover construction machinery and distribution equipment of highway/railway tunnels, as well as temperature measurement nodes of power and communication cabins in urban underground comprehensive utility tunnels, adapt to long-distance networking in narrow spaces without dense repeaters.
• Surface washing/ smelting areas in mines: Monitor large equipment clusters in surface washing plants and smelting workshops of mines, adapt to the characteristics of large plant areas and cross-regional decentralized equipment, and realize unified remote transmission of temperature measurement data to the mine central control room via high-power long-distance transmission.

IV. Power Systems: Wide-Area Distribution Network/Remote Power Equipment Temperature Measurement ⚡

• High-voltage lines/distribution network nodes in remote areas: Monitor high-voltage cable joints, pole-mounted switches and compact substations in mountainous/suburban remote areas, realize long-distance remote transmission of temperature measurement data to the nearest operation and maintenance station without on-site receiving terminals.
• Large substations/converter stations: Cover wide-area decentralized high-voltage equipment and outdoor distribution areas in substations, penetrate metal cabinets and building obstruction of substations, realize coverage of temperature measurement nodes in multiple areas with a single receiver, and simplify on-site temperature measurement networking.
• Continuous distribution network nodes in rural power grids: Adapt to continuously arranged distribution transformers and outdoor branch boxes in rural power grids, realize coverage of distribution equipment in multiple villages with a single receiver, and significantly reduce the deployment and operation costs of wide-area temperature measurement in rural power grids.
• Auxiliary equipment of cross-regional transmission lines: Monitor power distribution nodes and surge arresters of iron tower foundations along transmission lines, realize long-distance wireless temperature measurement, adapting to the characteristics of long-distance outdoor and unattended transmission lines.

V. Rail Transit/Transportation Hubs: Temperature Measurement in Large Hubs & Along Line Routes 🚇

• Large transportation hubs: Cover high-voltage distribution cabinets, power equipment and charging pile clusters in airports, high-speed railway stations and ports, penetrate the obstruction of hub buildings and steel structures, and realize unified remote transmission of wide-area equipment temperature measurement data to the hub monitoring center.
• Along rail transit lines: Monitor compact substations, pole-mounted switches and peripheral equipment of traction substations along high-speed railway/urban rail transit lines, realize long-distance temperature measurement networking of scattered equipment along the lines without dense repeaters along the routes.
• Heavy equipment in ports/logistics hubs: Cover gantry cranes, container cranes and heavy handling equipment clusters in ports and logistics hubs, adapt to the characteristics of large equipment spacing and open outdoor environment, and realize unified monitoring of equipment temperature measurement data via high-power long-distance transmission.

VI. Large Warehousing/Smart Parks: Wide-Area Infrastructure Temperature Measurement 🏙️

• Large cold chain/logistics warehousing: Monitor distribution cabinets, refrigeration units and cold storage outdoor units scattered in the warehousing park, penetrate the obstruction of warehousing storehouses and containers, and realize remote transmission of wide-area equipment temperature measurement data.
• Smart industrial parks/industrial new cities: Cover cross-regional switching stations, compact substations, HVAC equipment and charging pile clusters in the park, a single receiver covers multiple functional areas of the park, simplifying the intelligent temperature measurement networking of the park.
• Large data center parks: Monitor outdoor distribution equipment, energy storage cabins and cooling tower clusters in data center parks, adapt to the characteristics of wide-area decentralized equipment in the park, and realize long-distance and unattended temperature monitoring.

Core Application Value Summary