开关电源技术发展综述
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摘要
随着电力电子技术的迅速发展,高频开关电源已被广泛应用于计算机、通信、工业自动化和航天航空等领域。从硬开关技术、软开关技术、同步整流技术、数字控制技术、复合结构技术等开关电源的五个技术发展阶段,对高频开关电源技术的发展路径进行了阐述,总结了各种技术的特点,并展望了开关电源技术的发展方向。
With the rapid development of power electronics technology,high frequency switching power supplies have been widely used in computer,communications,industrial automation,aerospace and other fields.Based on the following five developing stages of switching power supply:hard-switching technology,soft-switching technology,synchronous rectification technology,digital-control technology,and composite structure technology,the development path of high frequency switching power supply technology had been elaborated.The characteristics of the above technologies had been summarized,and the developing directions of switching power supplies were put forward.
With the rapid development of power electronics technology,high frequency switching power supplies have been widely used in computer,communications,industrial automation,aerospace and other fields.Based on the following five developing stages of switching power supply:hard-switching technology,soft-switching technology,synchronous rectification technology,digital-control technology,and composite structure technology,the development path of high frequency switching power supply technology had been elaborated.The characteristics of the above technologies had been summarized,and the developing directions of switching power supplies were put forward.
引文
[1]罗俊,徐祯,朱海,等.采用磁集成技术的有源箝位正激变换器设计[J].微电子学,2011,41(2):223-229.
[2]叶敬伟.DC/DC变换器软开关电路的仿真研究[J].电源技术运用,2012,15(7):18-24.
[3]秦岭,谢少军,周晖.一种新型ZCS-PWM Buck变换器研究[J].电力电子技术,2007,41(2):13-15.
[4]褚恩辉,金升,张化光.一种新型无源软开关变换器[J].电子学报,2010,38(8):1963-1968.
[5]张继红,王卫,徐殿国.有源箝位反激式零电压零电流开关变换器研究[J].电力电子技术,2005,39(4):30-35.
[6]梁涛.基于准谐振型软开关的高频开关电源变换器[J].现代电子技术,2011,34(24):6-17.
[7]张涛,任志良,陈光,等.改进的全相位时移相位差频谱分析算法[J].系统工程与电子技术,2011,33(7):1468-1472.
[8]贺明智,刘宏亮,王丹,等.串联负载谐振变换器的参数设计[J].大功率变流技术,2009,3:24-29.
[9]张治国,谢运祥,袁兆梅.并联谐振变换器的电路特性分析[J].华南理工大学学报,2013,41(4):33-38.
[10]张治国,谢运祥,袁兆梅.LCC谐振变换器的电路特性分析[J].电工技术学报,2013,28(4):50-57.
[11]刘福才,金书辉,赵晓娟.LC串联谐振和LCC串并联谐振在高压脉冲电容充电电源中的应用比较[J].高电压技术,2012,38(12):3347-3356.
[12]沙占友,马洪涛.准谐振式软开关变换器的设计[J].电源技术运用,2008,11(2):59-64.
[13]NAKAOKA M,NAGAI S,KIM Y J,et al.The state-of-the-art phase-shifted ZVS-PWM series¶llel resonant DC-DC power converters using internal parasitic circuit components and new digital control[C]//Proceed IEEE Power Elec Spec Conf.Toledo,Spain.1992:62-70.
[14]张建秋.零电压开关PWM变换器补偿网络的研究[J].科学技术与工程,2009,9(3):701-703.
[15]屈莉莉,张波.ZCT-PWM Boost变换器的潜电路分析及应用[J].高电压技术,2011,37(12):3107-3112.
[16]陈仲,张鑫,季飚,等.一种基于变压器串联和新型辅助网络的ZVS移相全桥变换器[J].电工技术学报,2009,24(12):95-101.
[17]段宣详,贺明智,张立伟.移相全桥变换器占空比丢失问题的研究[J].电力电子技术,2012,46(4):26-28.
[18]JAIN P K,KANG W,SOIN H,et al.Analysis and design considerations of a load and line independent zero voltage switching full bridge DC/DC converter topogy[J].IEEE Trans Power Elec,2002,17(5):649-657.
[19]曹伟杰,任小永,阮新波.同步整流技术在正激变换器中的应用研究[J].电力电子,2010(3):39-44.
[20]成晶晶,谢小高,彭方正,等.基于准谐振及同步整流的反激变换器效率的研究[J].电力电子技术,2009,43(3):34-44.
[21]邓荣,江国栋.基于单片机的数字电源设计[J].微计算机信息,2008,24(26):66-67.
[22]金影梅.基于DSP的软开关电源的研究[J].科技广场,2010,5:198-200.
[2]叶敬伟.DC/DC变换器软开关电路的仿真研究[J].电源技术运用,2012,15(7):18-24.
[3]秦岭,谢少军,周晖.一种新型ZCS-PWM Buck变换器研究[J].电力电子技术,2007,41(2):13-15.
[4]褚恩辉,金升,张化光.一种新型无源软开关变换器[J].电子学报,2010,38(8):1963-1968.
[5]张继红,王卫,徐殿国.有源箝位反激式零电压零电流开关变换器研究[J].电力电子技术,2005,39(4):30-35.
[6]梁涛.基于准谐振型软开关的高频开关电源变换器[J].现代电子技术,2011,34(24):6-17.
[7]张涛,任志良,陈光,等.改进的全相位时移相位差频谱分析算法[J].系统工程与电子技术,2011,33(7):1468-1472.
[8]贺明智,刘宏亮,王丹,等.串联负载谐振变换器的参数设计[J].大功率变流技术,2009,3:24-29.
[9]张治国,谢运祥,袁兆梅.并联谐振变换器的电路特性分析[J].华南理工大学学报,2013,41(4):33-38.
[10]张治国,谢运祥,袁兆梅.LCC谐振变换器的电路特性分析[J].电工技术学报,2013,28(4):50-57.
[11]刘福才,金书辉,赵晓娟.LC串联谐振和LCC串并联谐振在高压脉冲电容充电电源中的应用比较[J].高电压技术,2012,38(12):3347-3356.
[12]沙占友,马洪涛.准谐振式软开关变换器的设计[J].电源技术运用,2008,11(2):59-64.
[13]NAKAOKA M,NAGAI S,KIM Y J,et al.The state-of-the-art phase-shifted ZVS-PWM series¶llel resonant DC-DC power converters using internal parasitic circuit components and new digital control[C]//Proceed IEEE Power Elec Spec Conf.Toledo,Spain.1992:62-70.
[14]张建秋.零电压开关PWM变换器补偿网络的研究[J].科学技术与工程,2009,9(3):701-703.
[15]屈莉莉,张波.ZCT-PWM Boost变换器的潜电路分析及应用[J].高电压技术,2011,37(12):3107-3112.
[16]陈仲,张鑫,季飚,等.一种基于变压器串联和新型辅助网络的ZVS移相全桥变换器[J].电工技术学报,2009,24(12):95-101.
[17]段宣详,贺明智,张立伟.移相全桥变换器占空比丢失问题的研究[J].电力电子技术,2012,46(4):26-28.
[18]JAIN P K,KANG W,SOIN H,et al.Analysis and design considerations of a load and line independent zero voltage switching full bridge DC/DC converter topogy[J].IEEE Trans Power Elec,2002,17(5):649-657.
[19]曹伟杰,任小永,阮新波.同步整流技术在正激变换器中的应用研究[J].电力电子,2010(3):39-44.
[20]成晶晶,谢小高,彭方正,等.基于准谐振及同步整流的反激变换器效率的研究[J].电力电子技术,2009,43(3):34-44.
[21]邓荣,江国栋.基于单片机的数字电源设计[J].微计算机信息,2008,24(26):66-67.
[22]金影梅.基于DSP的软开关电源的研究[J].科技广场,2010,5:198-200.
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