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The Topology of Novel Soft Switching Boost Rectifier
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 Title & Authors
The Topology of Novel Soft Switching Boost Rectifier
Heo, Young-Hwan; Mun, Sang-Pil; Kim, Young-Mun; Park, Han-Seok;
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This paper has proposed a new boost rectifier. Adequate input current was obtained by keeping the duty ratio constant without complicated conventional control methods and the improvement of the waveform was increased. With a decrease of distortion up to 12.9[%], the scope of restriction on harmonics was set to 13.0[%]( harmonics), 1.1[%]( harmonics) and 0.6[%]( harmonics), respectively. Because complicated methods of control are avoided, the circuit configuration is simple and practical. In particular, the said effect turned out to be highly efficient in the low boosting ratio range(boosting ratio). The feasibility of these facts has been proven both theoretically and experimentally.
Input Current Waveform Improvement;Boost Rectifier;Restraint of Distortion;Highly Efficient;Harmonic Regulation Range;
 Cited by
M.C Ghanen, K. AL-Haddad and G. Roy, "Unity Power Factor Scheme Using Cascade converters", IEEE Trans. Ind. NO 3. pp 936-940. May. 1993.

Fang Zheng Peng et al, "A new approach to harmonic compensation in power system-A combined system of shunt passive and series active filters," IEEE Trans, Ind. Appl., Nov./Dec., 1990.

H.M.EL-Bolok, "A microprocessor-based firing circuit for Thyristors working under three-phase variable-frequency supply," IEEE Trans, Ind. Appl., 1990.

B.I.Baliga, "Switching lots of watts at high speed" IEEE spectrum, Vol.18, pp. 42-48, Dec., 1981.

M.Inoue, "Harmonic propagation on power system" Takaoka Review, Vol.32-1, No 105, 1985.

D.D.Shipp, "Harmonic Analysis and Suppression for Electrical System Supplying Static Power Converters and Other Nonlinear Loads" IEEE Trans, Ind. Appl, No 5, Sept./Oct., 1979.

Kuniomi Oguchi et al, "A Multilevel-Voltage Source Rectifier with a Three-Phase Diode Bridge Circuit as a Main Power Circuit" IEEE-IAS. Ann. conf., pp. 695-702, 1992.