Title :
Study on a Highly Stabilized Pulsed Power Supply for High Magnetic Fields
Author :
Xiao, Houxiu ; Li, Liang ; Ding, Hongfa ; Peng, Tao ; Pan, Yuan
Author_Institution :
Wuhan High Magn. Field Center, Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
This paper proposes a pulsed power supply scheme to generate highly stabilized high magnetic fields (ripple less than 10 ppm), which are needed for some kinds of scientific experiments (such as the nuclear magnetic resonance experiment). The power supply presented in this paper consists of a large-capacity pulse-forming network (PFN) power supply and a small-capacity power electronics power supply (PEPS). The PFN provides a background field, and the PEPS compensates for the flattop of the background field to get a highly stabilized magnetic field.
Keywords :
magnetic fields; power electronics; pulsed power supplies; highly stabilized magnetic field generation; highly stabilized pulsed power supply; large-capacity PFN power supply; large-capacity pulse-forming network power supply; small-capacity PEPS; small-capacity power electronics power supply; DC-DC power converters; Electricity supply industry; Magnetic fields; Nuclear magnetic resonance; Nuclear power generation; Power electronics; Power generation; Power supplies; Pulse generation; Pulsed power supplies; Compensation network; cooperation; dc/dc converter; flattop; high magnetic field; highly stabilized; pulse-forming network (PFN); ripple;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2009.2039954
