The development of a new type of power supply automatic testing system called "Core Power Guardian" has been successful

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The development of a new type of power supply automatic testing system called "Core Power Guardian" has been successful

Article Source：Kinri Energy | Author：Kinri Energy | Issuing Time：2024.05.09

Recently, a research team from the School of Electronic Information Engineering at Anhui University has developed a new type of power automatic testing system. As an integrated system for automatic testing of power supply performance, this system has the advantages of complete overall functionality and simple operation steps. It can automatically detect various aspects such as input, output, and protection of power modules or switching power supplies. This system is the research result of the project "Core Electronics Defender - Leading Intelligent Monitoring System for New Generation Power Electronic Equipment". It expands the application scope and functions of the testing system, provides users with more comprehensive and accurate testing services, and is in line with the development direction of the future electronic testing industry, with broad market prospects. At present, it has been preliminarily applied in electronic manufacturing equipment, industrial machinery maintenance, and other aspects.

Currently, most power testing systems on the market can only operate normally at room temperature and cannot cope with extreme high temperature conditions. The system adopts high-temperature fixtures and high-temperature resistant ceramics, which can effectively prevent the deformation of fixtures in high-temperature working environments, thereby ensuring the stability and reliability of the power testing system under high-temperature conditions.

By improving algorithms and optimizing circuit design, the system achieved a maximum of 9 outputs, greatly improving testing efficiency and breaking the limitations of traditional power testing systems. While reducing the cost of power testing systems, it also improved system compatibility, providing strong support for the future development of the electronics industry.

In addition, the project team achieved the feature of single device meeting multiple protocols through customized algorithms, which means that the power testing system can easily meet the testing needs of different standards and protocols, providing users with the simplest and most convenient testing solution. By using common software to implement self programming techniques, the testing system has become simple, easy to learn, and highly operable.

Recently, a research team from the School of Electronic Information Engineering at Anhui University has developed a new type of power automatic testing system. As an integrated system for automatic testing of power supply performance, this system has the advantages of complete overall functionality and simple operation steps. It can automatically detect various aspects such as input, output, and protection of power modules or switching power supplies. This system is the research result of the project "Core Electronics Defender - Leading Intelligent Monitoring System for New Generation Power Electronic Equipment". It expands the application scope and functions of the testing system, provides users with more comprehensive and accurate testing services, and is in line with the development direction of the future electronic testing industry, with broad market prospects. At present, it has been preliminarily applied in electronic manufacturing equipment, industrial machinery maintenance, and other aspects.

Currently, most power testing systems on the market can only operate normally at room temperature and cannot cope with extreme high temperature conditions. The system adopts high-temperature fixtures and high-temperature resistant ceramics, which can effectively prevent the deformation of fixtures in high-temperature working environments, thereby ensuring the stability and reliability of the power testing system under high-temperature conditions.

By improving algorithms and optimizing circuit design, the system achieved a maximum of 9 outputs, greatly improving testing efficiency and breaking the limitations of traditional power testing systems. While reducing the cost of power testing systems, it also improved system compatibility, providing strong support for the future development of the electronics industry.

In addition, the project team achieved the feature of single device meeting multiple protocols through customized algorithms, which means that the power testing system can easily meet the testing needs of different standards and protocols, providing users with the simplest and most convenient testing solution. By using common software to implement self programming techniques, the testing system has become simple, easy to learn, and highly operable.

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The development of a new type of power supply automatic testing system called "Core Power Guardian" has been successful