MAJOR REFERENCES
A. General Power Factor Correction Techniques
[A1]
W. F. Ray and R. M. Davis, “The definition and importance of power factor for power
electronics converters,” Proc. European conference on Power Electronics and
Applications (EPE), 1988, pp. 799-805
[A2]
Electromagnetic Compatibility (EMC) – Part 3: Limits – Section 2: Limits for harmonic
current emissions (equipment input current < 16 A per phase), IEC 6000 – 3 – 2
Document, 1998
[A3]
K. H. Liu and Y. L. Lin, “Current waveform distortion in power factor correction circuits
employing discontinuous mode boost converter,” IEEE Power Electronics Specialists
Conference, 1989, pp. 825-829
[A4]
L. H. Dixon, Jr., “High power factor pre-regulator for off-line power supplies,” Unitrode
Switching Regulator Power supply Design Seminar Manual, Paper I2, SEM-700, 1990.
[A5]
E. X. Yang, G. C. Hua, Y. Jiang, and Fred C. Lee, “Isolated boost circuit for power factor
correction,” IEEE Applied power Electronics conference, 1993, pp. 196-203
[A6]
D. Maksimovic and R. Erickson, “Universal input, High Power factor boost doubler
rectifiers,” IEEE Applied Power Electronics Conference, 1995, pp.459-465
[A7]
Milan M. Jovanovic and David E. Crow, “Merits and Limitations of Full Bridge Rectifier
with LC Filter in Meeting IEC 1000-3-2 Harmonic-Limit Specifications”, IEEE Applied
Power Electronics Conference, 1995
[A8]
Daoshen Chen and Jih-Sheng Lai, “Design Consideration for Power Factor Correction
Boost Converter Operating at the Boundary of Continuous Conduction Mode and
Discontinuous Conduction Mode,” IEEE Applied Power Electronics Conference, Mar.
1993, pp. 267-273
[A9]
Jindong Zhang, Jianwen Shao, Peng Xu, Fred C. Lee and Milan Jovanovic, “Input
Current Evaluation of the Critical Mode Boost Power Factor Correction Front-End of the
Distributed Power Systems,” IEEE Applied Power Electronics Conference, Mar. 2001
Major References
272
[A10] M. S. Elmore, “Input Current Ripple Cancellation in Synchronized, Paralleled Connected
Critically Continuous Boost Converters,” IEEE Applied Power Electronics Conf., Mar.
1996, pp. 152-158
[A11] B.T. Irving, Y. Jang and M.M. Jovanovic, “A Comparative Study of Soft-Switched CCM
Boost Rectifiers and Interleaved Variable-Frequency DCM Boost Rectifier,” IEEE
Applied Power Electronics Conf., Mar. 2000, pp. 171-177
[A12] Chen Zhou, “Design and Analysis of an Active Power Factor Correction Circuit,” Master
Thesis, Virginia Power Electronics Center, Electrical Engineering Dept., Virginia Tech.,
Sept. 1989
B.
Single-Stage Power Factor Correction Techniques
[B1]
M. Madigan, R. Erickson and Ismail, “Integrated high quality rectifier-regulators,” IEEE
Power Electronics Specialists Conference, 1992, pp. 1043-1051.
[B3]
D. M. Tsang, Fred C. Lee and M.M. Jovanovic, “Improvements in the integrated high
quality rectifier-regulators,” Virginia Power Electronics Seminar, 1993, pp.115-123
[B3]
R. Redl, L. Balogh, “Design consideration for single stage isolated power factor corrected
power supplies with fast regulation of the output voltage,” IEEE Applied Power
Electronics Conference, 1995, pp.454-458
[B4]
R. Redl, L. Balogh and nathan O.sokal, “A new family of single stage isolated power
factor correctors with fast regulation of the output voltage,” IEEE Power Electronics
Specialists Conference, 1994, pp. 1137-1144
[B5]
Jinrong Qian, “Advanced single-stage power factor correction techniques,” Ph.D.
Dissertation, Virginia Power Electronics Center, Sep. 1997
[B6]
G. C. Hua, “A novel CCM single-stage power factor correction converter,” U.S. Patent
NO. 5,790,389, Aug. 4, 1998.
[B7]
J. Sebastian, M. M. Hernando, P. Villegas, J. Diaz and A. Fontam, “Input current shaper
based on the series connection of a voltage source and a loss-free resistor,” IEEE Applied
Power Electronics Conf. (APEC) Proc. 1998, pp. 461-467
273
Major References
[B8]
J. Sebastian, M. M. Hernando, P. Villegas, J. Diaz and A. Fontam, “A new input current
shaping technique using converters operating in continuous conduction mode,” IEEE
Power electronics Specialists Conference, 1998, pp. 1330-1336
[B9]
Laszlo Huber and Milan M. Jovanovic, “Singe-stage, single-switch, isolated power
supply technique with input-current shaping and fast output-voltage regulation for
universal line input-voltage-range application,” IEEE Applied Power Electronics
Conf(APEC) Proc. 1997, pp.272-280.
[B10] F. Tsai, P. Markowski, and E. Whitcomb, “Off-line flyback converter with input
harmonic correction,” IEEE International Telecommunications Energy Conference, 1996,
pp. 120-124
[B11] J. Qian, F. C. Lee, “A high efficiency single-stage single-switch high power factor
AC/DC converter with universal line input,” IEEE Applied Power Electronics
Conference, 1997, pp. 281-287
[B12] H. Watanabe, Y. Kobayashi and Y. Sekine, “The suppressing harmonic currents, MS
(Magnetic-Switch) power supply,” IEEE International Telecommunications Energy
Conference, 1995, pp. 281-287
[B13] S. Teramoto, M. Sekine, R. Saito, “High power factor AC/DC converter,” U.S. Patent
No. 5,301,095, Apr. 5, 1994
[B14] I. Takahashi and R. Y. Igarashi, “A switching power supply of 99% power factor by
dither rectifier,” International Telecommunication Energy Conference Proceedings, 1991,
pp. 714 - 719
[B15] Jinrong Qian, Qun Zhao and Fred C. Lee, “Single-stage single-switch power factor
correction AC/DC converters with DC bus voltage feedback for universal line
applications,” IEEE Applied Power Electronics Conf. (APEC) Proc. 1998. pp.223-229
[B16] M. M. Jovanovic, D. M. C. Tsang and F. C. Lee, “Reduction of voltage stress in
integrated high-quality rectifiers-regulators by variable-frequency control,” IEEE Applied
Power Electronics Conference (APEC) Proc., 1994, pp. 569-575
[B17] R. N. Do Prado, S. A. Bonaldo, M. C. Moreira, D. L. Vidor, “Electronic ballast with a
high power factor for fluorescent lamps,” IEEE Power Electronics Specialists
Conference, 1996, pp. 1215-1219
Major References
274
[B18] J. Qian, Fred C. Lee, “Investigation of charge pump controller high power factor AC/DC
converter,” Virginia Power Electronics Seminar, 1996, pp.15-21
[B19] Y. Jiang and Fred. C. Lee, “Single-stage single-phase parallel power factor correction
scheme,” IEEE Applied Power Electronics Conf. (APEC), 1994, pp.1145-1151
[B20] J. Zhang, F.C. Lee and M.M. Jovanovic, “Interleaved DCM single-stage PFC converter
with universal-line input,” CPES Seminar Proc., Sept. 2000
[B21] M. Daniele, P. Jain, and G. Joos, “A Single Stage Single Switch Power Factor Corrected
ac/dc Converter,” IEEE Power Electronics Specialist Conf., 1996, pp. 216-222
C.
General study and design analysis of single-stage PFC converters
[C1]
J. Zhang, “Study and Improvement of Single-Stage PFC Techniques,” Master Thesis,
Electrical Engineering Dept., Virginia Polytechnics Inst. and State Univ., Aug. 1998
[C2]
J. Zhang, A. Uan-Zo-li, F.C. Lee and M. M. Jovanovic, “General study on the singlestage power factor correction techniques”, Annual seminar proceeding, Center for Power
Electronics Systems (CPES), Sept. 1999
[C3]
L. Huber, J. Zhang, M.M. Jovanovic and F.C. Lee, “Generalized topologies of singlestage input-current-shaping techniques”, to be published on IEEE Power Electronics
Specialists Conference, June, 2000
[C4]
C. Qian and K. M. Smedly, “A topology survey of single-stage power factor correction
with a boost type input-current shaper,” IEEE Applied Power Electronics Conf. Feb.
2000, pp. 460-467
[C5]
Q. Zhao, F.C. Lee and F. Tsai, “Design optimiation of an off-line input current corrected
flyback converter”, IEEE Applied Power Electronics Conf. (APEC) Proc., Mar. 1999
[C6]
L. Huber and M. M. Jovanovic, “Design optimization of single-stage, single-switch
input-current shaper,” IEEE Power electronics Specialists Conference, 1997, pp.519-526
[C7]
J. Sebastian, A. Fernandez, P. Villegas, M.M. Hernando and S. Ollero, “Design of an
AC-to-DC Converter Based on a Flyback Converter with Active Input Current Shaper,”
IEEE Applied Power Electronics Conf., Mar. 1999, pp. 84-90
275
Major References
[C8]
J. Sebastian, A. Fernandez, P. Villegas and A.M. Pernia, “Steady-State Analysis of ACto-DC Converters with Active Input Current Shaper Based on Delayed Forward Output,”
IEEE Power Electronics Specialist Conf., Jun. 1999
[C9]
J. Zhang, F.C. Lee and M. M. Jovanovic, “Analysis and study of a high-frequency current
source single-stage PFC converter”, IEEE Power Electronics Specialists Conference,
June, 2000
[C10] A. Uan-Zo-li, J. Zhang, F.C. Lee and J. Noon, “Study and design of a high-frequency
voltage source single-stage PFC converter”, IEEE IAS Conference, Sept. 2000
D.
[D1]
Evaluation and comparison of different PFC techniques
B. Sharifipour, J. S. Huang, P. Liao, L. Huber and M. M. Jovanovic, “Manufacturing and
cost analysis of power-factor-correction circuits,” IEEE Applied Power Electronics Conf.
(APEC) Proc., 1997, pp.490-494
[D2]
J. Zhang, M.M. Jovanovic, and F.C. Lee, “Comparison between CCM boost PFC and
single-stage PFC techniques”, IEEE Applied Power Electronics Conf. (APEC) Proc.,
Mar. 1999
E.
Single-Stage / Two-Stage PFC Techniques with Voltage-Doubler Front-End
[E1]
J. Zhang, L. Huber, M.M. Jovanovic and F.C. Lee, “Single-stage input current shaping
techniques with voltage-doubler rectifier front-end”, IEEE Applied Power Electronics
Conf. (APEC) Proc., Mar. 1999; U.S. patent 6147882
[E2]
J. Zhang, F.C. Lee and M.M. Jovanovic, “Design and Evaluation of a 450W Single-Stage
Power-Factor-Correction Converter with Universal-Line Input”, IEEE Applied Power
Electronics Conf. (APEC) Proc., Mar. 2001
[E3]
J. Salmon, “Circuit Topologies for PWM Boost Rectifiers Operated from 1-Phase and 3Phase AC Supplies and Using Either Single or Split DC Rail Voltage Output,” IEEE
Applied Power Electronics Conference, Mar. 1995, pp. 473-479
[E4]
D. Maksimovic and R. Erickson, “Universal-Input, High Power Factor, Boost Doubler
Rectifier,” IEEE Applied Power Electronics Conference, Mar. 1995, pp. 459-465
Major References
276
[E5]
R. Srinivasan and R. Oruganti, “ A Unity Power Factor Converter Using Half-Bridge
Boost Topology,” IEEE Transaction on Power Electronics, Vol. 13. No. 3, May 1998
F.
Other References
[F1]
V. Vlatkovic, D. Borojevich and F. C. Lee, “Input Filter Design for Power Factor
Correction Circuits,” IECON’93, Vol. I., pp. 954-958
[F2]
J. C. Crebier, M. Brunello, J. P. Ferrieux, “Differential Mode Current Harmonics
Forecast for DCM Boost Rectifiers Design,” EPE’99, Lausanne
[F3]
A. I. Zverev, “Handbook of Filter Design Synthesis,” New York, Wiley, 1967
[F4]
V. Vorperian, “Simplified Analysis of PWM Converters Using the Model of the PWM
switch, Part I: Continuous Conduction Model,” Virginia Power Electronics Center
Seminar, Sept. 1989, pp. 1-9
[F6]
Keith Billings, Switchmode Power Supply Handbook. New York, NY: McGraw-Hill,
1989. (pp. 1.55)
277
Major References