CC1310-TC005 Temperature Measurement Receiving Module | Core Application Fields
The CC1310-TC005 Temperature Measurement Receiving Module is an industrial-grade dedicated receiving end exclusively matched with the CC1310 series temperature measurement transmitting modules. Built on the industrial-grade CC1310 chip, it is corely compatible with the full range of CC1310 temperature measurement transmitting modules including CC1310-TC008 compact-size, active, passive, W-S05 and CC1310PA+LNA modules, achieving full compatibility with the Sub-1GHz frequency band. It features high receiving sensitivity, multi-node synchronous reception, data parsing/summarization/uploading, and resistance to complex electromagnetic interference, while retaining the advantages of an industrial wide temperature range of -40~85℃, μA-level low power consumption, easy networking, and direct connection to upper computers/IoT platforms. It perfectly addresses the pain points of incompatible transmission and reception, low receiving sensitivity, complex multi-node networking, and difficult data summarization in temperature measurement systems. Highlighted by full-series compatibility, high-sensitivity reception, multi-node networking and industrial-grade stability, as the core receiving and networking component of wireless temperature measurement systems, it is widely used in all temperature measurement scenarios compatible with CC1310 series transmitting modules such as power systems, industrial automation, precision manufacturing, new energy, and IoT intelligent monitoring, meeting diverse receiving needs including wide-area networking, micro-space temperature measurement and long-distance transmission.
I. Power Systems: Reception for Temperature Measurement Systems of All Types of Power Equipment ⚡
As the core receiving end of power wireless temperature measurement systems, it is compatible with all types of CC1310 temperature measurement transmitting modules (high/medium/low-voltage, active/passive, miniaturized) in power scenarios, and can be deployed in power distribution rooms, substations, outdoor compact substations and other scenarios to achieve synchronous reception, parsing and uploading of multi-node temperature measurement data, adapting to the unattended and remote monitoring operation and maintenance needs of power systems:
- High-voltage equipment temperature measurement systems: Matched with CT power supply passive and W-S05 passive transmitting modules to receive temperature measurement data of high-voltage switchgear, GIS equipment and cable joints. High anti-interference performance adapts to the strong electromagnetic environment of power systems, and data is directly connected to the power monitoring platform.
- Medium and low-voltage distribution temperature measurement systems: Matched with CC1310 industrial-grade active transmitting modules to receive temperature measurement data of distribution cabinets, contactors and busbar joints, supporting synchronous reception of more than 100 nodes to meet the networking needs of multiple equipment in power distribution rooms.
- Miniature power equipment temperature measurement systems: Matched with CC1310-TC008 compact-size transmitting modules to receive temperature measurement data of miniature distribution boxes, power acquisition terminals and miniature relays. The compact-size design enables easy deployment and embedded integration into power monitoring terminals.
- Outdoor distribution network temperature measurement systems: Matched with CC1310PA+LNA high-power transmitting modules to receive long-distance temperature measurement data of remote pole-mounted switches, outdoor compact substations and rural power grid distribution nodes. High receiving sensitivity ensures stable data reception in occluded environments.
II. Industrial Automation: Reception for Temperature Measurement Systems of Production Line/Industrial Control Equipment 🏭
Compatible with different types of CC1310 temperature measurement transmitting modules (conventional industrial control, embedded miniature equipment, high-power long-distance) in industrial production, it can be deployed in workshop central control, beside equipment and inside industrial control cabinets to realize data summarization of temperature measurement nodes across the entire production line, facilitating intelligent and visual monitoring of industrial production:
- Conventional industrial equipment temperature measurement: Matched with CC1310 active transmitting modules to receive temperature measurement data of motors, frequency converters and pump-valve equipment. Multi-node networking adapts to the monitoring of decentralized equipment on the production line, and data is connected to industrial PLC/SCADA systems.
- Embedded industrial control temperature measurement: Matched with CC1310-TC008 compact-size transmitting modules to receive temperature measurement data of small PLCs, miniature drive modules and micro-components of industrial robots. The compact-size receiving end can be integrated with industrial control terminals as a whole.
- Wide-area temperature measurement in large industrial plants: Matched with CC1310PA+LNA high-power transmitting modules to receive long-distance temperature measurement data of cross-workshop and outdoor heavy industrial equipment, supporting wide-area multi-node networking and greatly reducing the number of receiving end deployments.
- Temperature measurement in explosion-proof industrial scenarios: Matched with passive transmitting modules to receive temperature measurement data of explosion-proof cabinets and high-voltage distribution equipment in chemical and mining industries. The industrial-grade wide temperature range and anti-interference performance adapt to the harsh environment of explosion-proof scenarios.
III. Precision Manufacturing: Reception for Temperature Measurement Systems of High-End Instruments/Miniature Equipment 🛠️
As the dedicated receiving end of micro-space, high-precision temperature measurement systems in the precision manufacturing field, it is corely matched with CC1310-TC008 compact-size transmitting modules, and can be deployed in the central control of precision workshops, beside instruments and at test stations to achieve accurate reception and parsing of temperature measurement data of miniature precision equipment, meeting the low-interference and high-precision monitoring needs of laboratories/clean rooms:
- High-end precision instrument temperature measurement: Receives temperature measurement data of precision components of CNC machine tools, laboratory analytical instruments and semiconductor miniature equipment. High receiving sensitivity ensures stable data transmission of micro-power transmitting ends.
- Industrial testing equipment temperature measurement: Receives temperature measurement data of portable flaw detectors, miniature detection terminals and industrial sensing nodes, supporting portable deployment and real-time data display by connecting to testing terminals.
- Clean room equipment temperature measurement: Receives temperature measurement data of semiconductor packaging/testing equipment and precision temperature control instruments, and anti-interference performance adapts to the complex electromagnetic environment of clean rooms, with data uploadable to the workshop intelligent management platform.
IV. New Energy Industry: Reception for Temperature Measurement Systems of All Types of New Energy Equipment 🔋
Compatible with CC1310 temperature measurement transmitting modules with high-power long-distance, miniaturization and outdoor wide-area features in new energy scenarios such as photovoltaic, wind power, energy storage and charging piles, it can be deployed in the central control center of new energy stations, beside energy storage cabins and in charging pile monitoring rooms to achieve unified reception and summarization of temperature measurement data across the entire station link, adapting to the large-scale and unattended operation and maintenance needs of new energy stations:
- Outdoor new energy station temperature measurement: Matched with CC1310PA+LNA high-power transmitting modules to receive long-distance temperature measurement data of photovoltaic arrays, wind turbine compact substations and collector lines, and wide-area networking enables unified data transmission of the entire station to the monitoring platform.
- Energy storage equipment temperature measurement: Matched with active/compact-size transmitting modules to receive temperature measurement data of energy storage cabin high-voltage cabinets, miniature energy storage packs and battery management modules, with multi-node synchronous reception adapting to the cluster monitoring of energy storage cabins.
- Charging pile temperature measurement: Matched with CC1310-TC008/active transmitting modules to receive temperature measurement data of charging pile power modules, charging gun interfaces and miniature distribution components. The receiving end can be integrated into the charging pile monitoring platform to realize real-time early warning.
V. IoT Intelligent Monitoring: Reception for Wide-Area/Micro-Space/Portable Temperature Measurement Systems 🌐
As the core receiving component of IoT ubiquitous sensing temperature measurement systems, it is compatible with all types of CC1310 series transmitting modules, and can be flexibly deployed in smart parks, large warehousing and portable temperature measurement scenarios, supporting seamless connection with IoT platforms and cloud servers to realize remote transmission, visual management and abnormal early warning of temperature measurement data:
- Smart park/building temperature measurement: Matched with active/compact-size transmitting modules to receive temperature measurement data of park distribution cabinets, HVAC equipment and elevator machine rooms, and multi-node networking realizes unified summarization of temperature measurement data across the entire park.
- Large warehousing/cold chain temperature measurement: Matched with active/passive transmitting modules to receive data of warehousing distribution cabinets, refrigeration units and cold storage temperature measurement nodes, and the industrial-grade wide temperature range adapts to the outdoor/low-temperature environment of warehousing.
- Portable temperature measurement systems: Matched with CC1310-TC008 compact-size transmitting modules to serve as the receiving end of handheld thermometers and portable inspection instruments, achieving accurate reception and real-time display of data from miniature transmitting nodes.
VI. Rail Transit/Vehicle-Mounted: Reception for Temperature Measurement Systems of Rail/Vehicle-Mounted Equipment 🚇
Compatible with CC1310 series temperature measurement transmitting modules (active/passive/compact-size/high-power) for vehicle-mounted, track-side and outdoor line-side rail transit, it can be deployed in traction substations, subway central control and track-side monitoring boxes. High anti-interference performance adapts to the complex electromagnetic environment of rail transit, achieving stable reception and upload of temperature measurement data of rail/vehicle-mounted equipment:
- Rail high-voltage equipment temperature measurement: Matched with passive/high-power transmitting modules to receive temperature measurement data of traction substations, track-side compact substations and high-voltage lines, and long-distance reception adapts to the wide-area deployment along rail lines.
- Vehicle-mounted equipment temperature measurement: Matched with CC1310-TC008 compact-size transmitting modules to receive temperature measurement data of subway vehicle-mounted miniature distribution and signal acquisition terminals. The compact-size receiving end can be embedded into the vehicle-mounted monitoring system.
- Rail transit hub temperature measurement: Matched with active transmitting modules to receive temperature measurement data of distribution cabinets, power equipment and charging piles in high-speed railway station/airport hubs, and multi-node networking realizes unified management of temperature measurement data across the entire hub.
VII. Medical/Civil Equipment: Reception for Miniature/Portable Temperature Measurement Systems 🏥
Compatible with the miniaturized, low-power consumption CC1310-TC008 compact-size transmitting modules in medical, smart home and civil portable equipment, it can be deployed in hospital equipment monitoring rooms, home central control and portable equipment itself to achieve accurate reception of temperature measurement data of miniature medical instruments and smart home equipment, meeting the low-interference and high-precision usage needs:
- Medical equipment temperature measurement: Receives temperature measurement data of portable medical testing instruments, miniature incubators and medical thermostats. High receiving sensitivity ensures the temperature measurement accuracy of medical equipment, and data can be connected to the hospital equipment management platform.
- Smart home temperature measurement: Receives temperature measurement data of smart distribution boxes, miniature temperature-controlled home appliances and home IoT nodes. The compact-size design enables easy deployment and integration into the smart home central control screen for real-time data display.
- Civil portable temperature measurement: Serves as the built-in receiving end of handheld thermometers and portable inspection instruments to receive temperature measurement data from the matching compact-size transmitting modules of the equipment, and the low-power design adapts to the battery power supply needs of portable equipment.
VIII. Mines/Tunnels/Chemical Industry: Reception for Temperature Measurement Systems in Harsh Environments ⛰️
Compatible with CC1310 series transmitting modules (passive/high-power/active) in harsh industrial environments such as mines, tunnels and chemical industry, the features of industrial-grade wide temperature range (-40~85℃), high anti-interference, dustproof and waterproof enable it to withstand high temperature, high humidity, strong interference and heavy occlusion environments in underground mines, tunnels and chemical parks, achieving stable reception and transmission of temperature measurement data:
- Mine/tunnel temperature measurement: Matched with high-power/passive transmitting modules to receive temperature measurement data of underground high-voltage equipment, tunnel construction machinery and utility tunnel distribution nodes. High penetration reception ensures data transmission in occluded environments.
- Chemical park temperature measurement: Matched with passive/active transmitting modules to receive temperature measurement data of chemical pipelines, reaction kettles and explosion-proof cabinets. Corrosion and interference resistance adapt to the harsh environment of chemical parks, and data is directly connected to the park monitoring platform.
Core Application Value Summary
The core value of the CC1310-TC005 Temperature Measurement Receiving Module lies in being the fully compatible dedicated receiving end of the CC1310 series temperature measurement transmitting modules, filling the gap of core receiving components in the serialized temperature measurement systems. Through the features of full Sub-1GHz frequency band compatibility, high receiving sensitivity and multi-node synchronous reception, it perfectly solves the transmission and reception adaptation problems of different types of transmitting modules, and simultaneously realizes the integration of temperature measurement data parsing, summarization and uploading, greatly simplifying the networking and construction process of wireless temperature measurement systems.
Retaining the core industrial-grade features of the CC1310 chip, the module adapts to the harsh environments and diverse temperature measurement needs in all fields such as power, industry, new energy and precision manufacturing, and can be flexibly connected to various devices including upper computers, PLCs, IoT platforms and handheld terminals, meeting different receiving scenarios such as wide-area networking, micro-space temperature measurement, long-distance transmission and portable monitoring. There is no need to match dedicated receiving ends for different types of transmitting modules, which greatly reduces the deployment and operation and maintenance costs of temperature measurement systems. As the core networking hub of the CC1310 series wireless temperature measurement systems, its features of full compatibility, high stability and easy networking provide a highly reliable receiving solution for realizing intelligent, wireless and remote temperature monitoring in various fields.
