that this system has strong interference, low energy con-sumption and high precision. This system has great valu- able, which has been applied in industrial and agricultural fields, such as greenhouse cultivation and laboratory storage. Keywords Temperature-humidity measurement Short distance microwave Wireless transmission Reverse real-time control Low energy
Customer ServiceHere, a self-powered smart wireless temperature monitoring system that uses machine learning to accurately measure the ambient temperature is developed. A position modulation-based TENG-driven transmitter enables wireless communication and real-time temperature monitoring. This machine learning-based wireless sensor can accurately monitor
Customer Servicetemperature measurement requirements of smart grid equipment. It enables online monitor-ing
Customer ServiceHigh-temperature wireless sensing is crucial for monitoring combustion chambers and turbine stators in aeroengines, where surface temperatures can reach up to 1200 °C. Surface Acoustic Wave (SAW)
Customer Servicetemperature measurement requirements of smart grid equipment. It enables online monitor-ing and remote temperature measurement within the power system, effectively preventing equipment overheating and damage. Next, this work introduces a proactive protective mecha-
Customer ServiceThis work reports a self-powered transformer intelligent wireless temperature monitoring system based on an ultra-low acceleration PVEH, which realizes an integrated PVEH, PMC, and sensing unit, offering a solution to the intelligent energy supply of
Customer ServiceN. Martiny, A. Hornungy, A. Josseny, M. Schüßlerz, A capacitively coupled data transmission system for resistance based sensor arrays for in-situ monitoring of lithium-ion battery cells, in: December, Institute of Electrical and Electronics Engineers Inc., (1)TUM CREATE, Energy Storage Systems (2)Institute for Electrical Energy Storage Technology, Technical
Customer ServiceThis paper comprehensively explores a cutting-edge approach that harnesses
Customer ServiceLow-cost wireless temperature measurement has significant value in the food industry, logistics, agriculture, portable medical equipment, intelligent wireless health monitoring, and many areas in everyday life. A wireless passive temperature sensor based on PCB (Printed Circuit Board) materials is reported in this paper. The advantages of the sensor include simple mechanical
Customer ServiceThis work introduces a temperature monitoring network tailored for IoT wireless power equipment suitable for the power environment, and conducts system debugging in the power laboratory.
Customer ServiceThis work effectively combines IoT wireless sensors with a power temperature measurement system and introduces AI and blockchain technology to design an intelligent wireless temperature measurement system tailored for power engineering. By leveraging AI technology, the system can intelligently analyze temperature data from power
Customer ServiceHere, a self‐powered smart wireless temperature monitoring system that uses machine learning to accurately measure the ambient temperature is developed. A position modulation‐based...
Customer ServiceARTM-Pn wireless temperature measurement device: ARTM-Pn wireless temperature measurement device can be installed separately in high-voltage cabinets and low-voltage drawer cabinets. Each device can receive data from 18 sensors. The sensor models can be equipped with ATE100, ATE200, and ATE300. The device has a 485 interface, which can
Customer ServiceThis work introduces a temperature monitoring network tailored for IoT wireless power equipment suitable for the power environment, and conducts system debugging in the power laboratory.
Customer ServiceWireless power transfer to the temperature sensor by an HF signal in the 2.4 GHz frequency band; Temporary energy storage in an oscillating quartz crystal; Highly accurate temperature-dependent shifting of the quartz crystal resonant frequency; Feedback of the frequency shift and temperature determination using sophisticated electronic signal
Customer ServiceThis work demonstrates a self-powered wireless IoT sensing system driven by daily ambient temperature energy harvesting. A novel approach using a thermoelectric generator (TEG) which harvests thermal energy from daily ambient temperature fluctuations into electricity as a power source for wireless IoT devices is proposed and
Customer ServiceThis work effectively combines IoT wireless sensors with a power temperature measurement system and introduces AI and blockchain technology to design an intelligent wireless temperature measurement system tailored for power engineering. By leveraging AI
Customer ServiceMeasuring the rotor temperature of an electric machine can not only safeguard the system from overheating, but can also improve the control and thermal utilization of the drive. In this contribution a novel on-rotor temperature acquisition system will be introduced, based on low cost circuitry and featuring an innovative energy harvesting system which uses power transfer
Customer ServiceHere, a self-powered smart wireless temperature monitoring system that uses machine learning to accurately measure the ambient temperature is developed. A position modulation-based TENG-driven transmitter enables wireless communication and real-time temperature monitoring.
Customer ServiceThis paper comprehensively explores a cutting-edge approach that harnesses daily ambient temperature fluctuations to generate usable energy for self-sustaining wireless Internet of Things (IoT) sensing systems. With conventional power sources like batteries present limitations in energy capacity, maintenance, and environmental impact
Customer ServiceThe surface acoustic wave (SAW) temperature sensor has received significant attention due to its wirelessly powered, battery-free, and chipless capabilities. This paper proposes a wireless sensing system comprising a one-port SAW resonator, helix antenna, and transceiver circuit. The SAW resonator used in this system is based on aluminum nitride (AlN)
Customer ServiceIn order to meet the requirements of temperature measurement and special installation position in high voltage switchgear, a modified self-powered wireless temperature measurement system powered by a compact Current Transformer (CT) is presented in this paper. A supercapacitor and a Zener diode are used to reduce the degree of core saturation
Customer ServiceIn addition, owing to their unstable output power, external energy storage systems are still required to realize wireless sensing. Therefore, piezoelectric sensors integrated with energy storage systems are extremely beneficial for their practical application. As shown in Figure 4a, coupling piezoelectric materials into supercapacitors to form piezoelectric
Customer ServiceAnother very interesting solution to extract energy and measure temperature using a To address this, an energy storage module is included with the PMU. The system harvests energy through the
Customer ServiceThis work demonstrates a self-powered wireless IoT sensing system driven by
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