Title :
A low ripple power supply for high-current magnet load
Author :
Liang, Rong ; Dewan, Shashi B.
Author_Institution :
Dept. of Electr. Eng., Toronto Univ., Ont., Canada
Abstract :
The magnet power supplies provide precisely controlled current to the magnets in particle accelerators. As the research in high-energy physics progresses, the required precision of the magnet current is increasing rapidly. Existing magnet power supplies for high-current applications cannot meet the present and future demands. This paper proposes a new magnet power supply for high-current magnets. The proposed system integrates a switch-mode ripple regulator with a phase-controlled rectifier. The results from this paper indicate that the proposed system can provide a magnet current with less than 10 ppm harmonic content and can be expected to have fast dynamic response. In this paper, the general description of the power circuit and system control configuration is presented. Fourier analysis is applied to investigate the harmonic content of the magnet current. The theoretical analysis is verified experimentally. A design example is given
Keywords :
Fourier analysis; Fourier transforms; beam handling equipment; electric current control; electromagnets; phase control; power supplies to apparatus; power system harmonics; rectifiers; rectifying circuits; Fourier analysis; fast dynamic response; harmonics; high-current applications; high-current magnet load; high-energy physics; low ripple power supply; magnet power supplies; particle accelerators; phase-controlled rectifier; power circuit; precisely controlled current; switch-mode ripple regulator; Linear particle accelerator; Magnetic separation; Passive filters; Physics; Power harmonic filters; Power supplies; Power system harmonics; Rectifiers; Regulators; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
