Focus on wireless power temperature sensors for green low-carbon IoT. Our CC1310-TC008 solution features small size, ultra-low power, 5+ year battery life and dual power supply, widely applied in smart power monitoring. Deeply engaged in high-reliability PCB assembly for wireless modules, leveraging precise processes to optimize CC1310-based solutions, empowering multi-field upgrades in industrial monitoring, smart metering and IoT applications.
The Internet of Things (IoT) is characterized by large scale, environmental friendliness, and low-carbon energy efficiency, which provides broad development space for the research, development and implementation of sensors based on new principles and processes. The high-quality development of IoT relies on the innovation-driven of basic technologies and the demand-driven of application scenarios. The development of IoT-specific sensors should focus on core key technologies, future development trends, and dynamic changes in industrial application requirements.
1. Technology Aspect
The core requirements of IoT for sensors are reflected in four dimensions: low power consumption, miniaturization, standardized output interfaces, and intelligence. This not only requires the development of new sensing and detection technologies, but also promotes their in-depth integration with microelectronics, optoelectronics, computers, communication technologies and nanotechnology. On the one hand, as microelectronics technology continues to evolve in accordance with Moore's Law, nano-scale quantum and molecular devices will become an important development direction in the field of microelectronics in the future. Nano-sensors developed based on nanotechnology have become one of the core tracks of current sensor technology. Nanotechnology can enable the development of miniaturized, low-cost, high-performance, and multi-purpose sensors. For example, the ongoing research on miniaturized implantable technology that can scan early disease signals in the human body is also the future technology direction of nano-sensors in the field of human health monitoring. On the other hand, the cross-integration of microelectronics technology with optoelectronics technology, sensitive materials, biotechnology and other multi-disciplines will give birth to various new sensing technologies, injecting strong momentum into the iterative upgrading of IoT sensors.
2. Application Aspect
With the popularization and penetration of IoT technology, the diversified application requirements of various industries will continue to promote the research, development and implementation of various sensor technologies. Sensor nodes with network communication capabilities can not only be used as independent general-purpose products in various sensor network systems to achieve accurate perception of information of various monitored objects, but also be embedded in smart devices as core components to play a role. Taking power temperature sensors as an example, they can accurately collect key data such as temperature and deformation of power equipment, providing data support for the safe operation of equipment.
3. Application Case
The sensor mode of the CC1310-TC008 module is a dedicated wireless power temperature sensor solution developed by Silicon Transmission Technology for wireless temperature measurement systems. In this power temperature measurement solution, the sensor end (master) mainly realizes accurate temperature detection and collection through AD analog input, and the data concentrator end (slave) outputs sensor temperature information through a serial port. At present, this solution has been widely adopted by many wireless temperature measurement system manufacturers. Its core advantages are small size, extremely low power consumption, a service life of more than 5 years under battery power supply, and support for CT power extraction (passive power supply) mode, which is highly flexible and adaptable to different application scenarios.
