METHOD OF CONTROLLING HIGH-FREQUENCY POWER SUPPLY SYSTEM

Organization Name

DAIHEN Corporation

Inventor(s)

Yuichi Hasegawa of Osaka (JP)

Yuya Ueno of Osaka (JP)

METHOD OF CONTROLLING HIGH-FREQUENCY POWER SUPPLY SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18396696 titled 'METHOD OF CONTROLLING HIGH-FREQUENCY POWER SUPPLY SYSTEM

The method described in the patent application involves searching for specific parameters in a modulation signal to optimize the performance of a power supply unit.

• Searching for the initial phase of the modulation signal to minimize the reflection coefficient or power value at the output terminal during the ON period of the power supply.
• Searching for a frequency shift to minimize the reflection coefficient or power value at the output terminal during the ON period.
• Searching for an offset frequency to minimize the reflection coefficient or power value at the output terminal during the OFF period.

Potential Applications: - This technology can be applied in the design and optimization of power supply units in various electronic devices. - It can enhance the efficiency and performance of power supply systems in telecommunications, aerospace, and automotive industries.

Problems Solved: - Optimizing the performance of power supply units by minimizing reflection coefficients and power values at specific phases of the modulation signal. - Improving the overall efficiency and stability of power supply systems in different applications.

Benefits: - Enhanced performance and efficiency of power supply units. - Reduction in power losses and improved reliability of electronic devices. - Potential cost savings in power supply design and operation.

Commercial Applications: Title: "Advanced Power Supply Optimization Technology for Enhanced Performance" This technology can be utilized in the development of high-performance power supply units for various industries, including telecommunications, aerospace, and automotive sectors. It can also be integrated into power management systems for data centers and renewable energy applications.

Questions about the technology: 1. How does this technology improve the efficiency of power supply units? - This technology optimizes the performance of power supply units by minimizing reflection coefficients and power values at specific phases of the modulation signal, leading to enhanced efficiency and stability.

2. What are the potential cost-saving benefits of implementing this technology in power supply design? - By improving the efficiency and reliability of power supply units, this technology can result in cost savings in terms of energy consumption and maintenance expenses.

Original Abstract Submitted

A method according to the present disclosure includes: searching for an initial phase of a modulation signal at which an absolute value of a reflection coefficient or a power value of a reflected wave power at an output terminal of a first power supply calculated in a second power supply ON period is minimized in a state where a first matching operation in a first matching unit is stopped; searching for a frequency shift at which the absolute value of the reflection coefficient or the power value at the output terminal calculated in the second power supply ON period is minimized in a state where the first matching operation is stopped; and searching for an offset frequency at which the absolute value of the reflection coefficient or the power value at the output terminal calculated in a second power supply OFF period is minimized in a state where the first matching operation is stopped.