CC1310 Industrial-Grade Active Temperature Sensor Module | Core Application Fields
CC1310 industrial-grade active temperature sensor module features the CC1310 industrial-grade chip as its core, integrated with the Sub-1GHz frequency band (strong anti-interference, high transmission stability). It supports an industrial wide temperature range of -40~85℃ and high-precision temperature measurement with an error of ±0.5~±1℃, adopting a DC 3.3V~5V active power supply mode. Boasting low power consumption, easy networking and flexible parameter configuration, it is suitable for industrial temperature measurement scenarios with fixed or convenient power supply conditions. Without relying on electromagnetic induction for power, it delivers more stable temperature data and continuous transmission, and is widely used for equipment temperature monitoring and preventive maintenance in power systems, industrial automation, new energy, data centers and other fields.
I. Power Systems: Temperature Measurement of Medium & Low-Voltage Distribution Equipment ⚡
Focusing on the medium and low-voltage power distribution links with power supply conditions in power systems, it makes up for the insufficient flexibility of passive modules in conventional distribution scenarios and enables real-time equipment temperature monitoring to avoid distribution faults:
- Medium & low-voltage switchgear/ring main units: Monitor the temperature of busbar joints, contactors and relay contacts inside the cabinets to prevent overheating caused by poor contact
- Distribution transformers (medium & low-voltage): Monitor the temperature of transformer windings, heat sinks and low-voltage outlet terminals to grasp equipment operation status
- Power control cabinets/distribution boxes: Adapt to conventional control cabinets in power distribution rooms and substations, monitoring the temperature of core internal components
- New energy power distribution equipment: Temperature measurement of key components of medium & low-voltage switchgear and grid-connected cabinets in photovoltaic/wind farms to ensure the stability of the power distribution link
II. Industrial Control & Automation: Temperature Measurement of Core Production Equipment 🏭
Adapting to various core production equipment with power supply conditions on industrial production lines, it is a key temperature measurement component for intelligent manufacturing and factory automation, covering the entire link from power equipment to control terminals:
- Motors and pump-valve equipment: Monitor the temperature of industrial motor windings, bearings and pump/valve drive ends to prevent insulation failure and mechanical jamming faults
- Power electronic devices: Temperature measurement of power modules and heat dissipation systems of frequency converters, soft starters and servo drives to avoid device burnout due to overheating
- Industrial control cabinets/distribution boxes: Monitor the temperature of internal wiring terminals, PLC modules and power modules of control cabinets at production line sites and workshop central control
- Assembly line production equipment: Temperature measurement of motors, transmission components and temperature control nodes of packaging, assembly and processing assembly lines to ensure continuous production line operation
III. New Energy Industry: Temperature Measurement of Energy Storage/Photovoltaic/Wind Power Equipment 🔋
Aligning with the standardized power supply characteristics of new energy industry equipment, it adapts to the temperature measurement of core equipment in photovoltaic, wind power, energy storage and other scenarios, helping new energy stations operate safely and efficiently:
- Energy storage systems: Monitor the temperature of battery management modules, contactors and busbars in energy storage cabinets, and realize interconnected early warning with battery management systems (BMS)
- Photovoltaic power stations: Temperature measurement of power devices and wiring terminals of photovoltaic inverters, combiner boxes and grid-connected cabinets to ensure power generation efficiency and equipment safety
- Wind farms: Temperature measurement of wind power converters, nacelle auxiliary equipment and power distribution components in tower tubes, adapting to the outdoor industrial environment of wind farms
- New energy charging piles: Temperature measurement of internal power modules, charging gun connectors and distribution cabinets of DC charging piles to avoid overheating risks during charging
IV. IoT & Intelligent Monitoring: Temperature Measurement of Data Centers/Smart Parks 🌐
Adapting to intelligent equipment and infrastructure with stable power supply in IoT ubiquitous sensing scenarios, it realizes real-time temperature data collection, remote transmission and platform-based management:
- Data centers: Monitor the temperature of server cabinets, UPS power supplies, precision air conditioners and power distribution rack cabinets to ensure the constant temperature operation of data centers
- Smart parks: Temperature measurement of park power distribution rooms, HVAC equipment, water supply and drainage pump stations and intelligent lighting control boxes to realize park intelligent operation and maintenance
- Cold chain warehousing: Temperature measurement of refrigeration units, temperature control probes and power distribution modules in cold chain cold storage to assist in ensuring the stable temperature of the storage environment
- Smart buildings: Temperature measurement of core components of building power distribution rooms, elevator machine rooms and central air conditioning main units to improve building operation and maintenance efficiency
V. Precision Manufacturing & High-End Equipment: Temperature Measurement of Precision Equipment 🛠️
Targeting high-end equipment and instruments in the precision manufacturing field, it meets the requirements of high-precision temperature measurement and industrial-grade anti-interference, adapting to the narrow installation space and complex electromagnetic environment of equipment:
- CNC machine tools/processing centers: Monitor the temperature of spindles, servo motors, frequency converters and hydraulic systems to ensure machining accuracy and equipment service life
- Industrial robots: Temperature measurement of robot joint motors, control cabinets and end effectors, adapting to the continuous operation needs of automated production lines
- Precision testing instruments: Temperature measurement of core components of precision analytical instruments and temperature control equipment in laboratory/industrial sites to ensure instrument measurement accuracy
- Semiconductor manufacturing equipment: Temperature measurement of low-voltage power distribution and temperature control modules of semiconductor packaging and testing equipment, adapting to the clean room industrial environment
VI. Rail Transit & Logistics: Temperature Measurement of Supporting Equipment 🚇
Adapting to ground/on-board supporting equipment with power supply conditions in the rail transit and intelligent logistics fields, it withstands complex operating environments such as outdoor and on-board conditions to ensure the stability of transportation and logistics links:
- Rail transit: Temperature measurement of ground power distribution equipment, signal control cabinets and traction converters (low-voltage side) of subway/urban rail transit
- Intelligent logistics: Temperature measurement of logistics sorting line motors, warehouse stackers and power distribution/drive equipment of automated stereoscopic warehouses
- Port machinery: Temperature measurement of low-voltage power distribution, frequency converters and motor bearings of port gantry cranes and container cranes, adapting to the port outdoor environment
Core Application Value Summary
Relying on the stability of the CC1310 industrial-grade chip and the continuity of active power supply, this module is ideally suited for industrial temperature measurement scenarios with fixed or convenient power supply conditions. Compared with passive modules, it is superior in temperature measurement accuracy, continuous data transmission and networking flexibility. Meanwhile, the Sub-1GHz frequency band can effectively penetrate complex industrial electromagnetic environments, addressing the pain points of traditional temperature measurement solutions such as low accuracy, poor anti-interference and difficult integration. It can be quickly connected to receiving modules and industrial IoT platforms to realize real-time temperature monitoring and abnormal early warning, helping enterprises upgrade their operation and maintenance mode from passive emergency repair to active prevention. It is widely applicable to the intelligent temperature monitoring of equipment in industrial production, power energy, intelligent manufacturing and other fields.
