基于PSM高压开关电源控制策略的研究
|
摘要
随着世界经济的发展和科学技术的进步,对高压、大功率开关电源的需求越来越高。尤其在众多的大型科学试验装置中,对其供电电源均有特殊的要求,如高电压,大电流,大功率,低纹波,低储能等等。
脉冲阶梯调制技术(PSM)是将阶梯调制(SM)技术和脉宽调制(PWM)技术相结合的一种技术,是高电压大功率电源系统中一种重要的调制技术。
传统的脉冲阶梯调制技术的高压开关电源由若干个结构相同的电源模块组成。在工作过程中一个模块处于PWM状态,其余模块工作在开关状态。这种方式控制简单,但由于固定一个模块工作在PWM方式下,使得该模块开关损耗大,每个模块的发热不均匀,从而给电源模块的设计带来问题,若每个模块都按PWM模式进行热设计,势必造成浪费;若按开关全开通模式进行热设计,则工作在PWM模式下的电源模块过热,严重时会损坏电源模块;若对两种模块分别进行热设计,则电源模块的规格不统一,模块备份不方便。
为了解决上述问题,本文提出了一种新型的控制策略,采用m个电源模块循环工作在PWM模式下,使整个电源的发热平摊在每个模块上。因此,每个电源模块的规格可设计成一样,解决了电源模块的冗余问题,对提高电源系统的可靠性具有重要的意义。文中基于MATLAB/SIMULINK的仿真环境,对系统的控制方法进行了仿真研究。文章最后,采用六组开关模块单元串联,通过实验验证了控制策略的可行性和优越性。
Recently, with the development of semiconductor technology and power electronics technology, the need for high-voltage and high-power supply become more, especially in some scientific experiments. These experiments usually have some special demands such as high-voltage, high-power etc.
The pulse step modulation (PSM) technology is the combination of the pulse width modulation(PWM) and the step modulation(SM).and it is an important technology which is used in high-voltage, high-power switching power supply system.
Conditional power supply system based on PSM technology is made up of several power units and one of these units works at PWM while others works an on-off state. This strategy is easy to work but the unit working at PWM state has more switching loss and brings difficulty to the design of system. If we design every unit at PWM state, it is a great waste and if we design the units in two ways, it has difficulty in unification of standards.
To solve the problems, we use a new control strategy. In this strategy the units work at PWM state in cycle. So the heat distributes to every unit. We can design every unit at the same size. MATLAB is also used to improve the control strategy. At last, the advantage of this new strategy is verified on an experimental prototype.
脉冲阶梯调制技术(PSM)是将阶梯调制(SM)技术和脉宽调制(PWM)技术相结合的一种技术,是高电压大功率电源系统中一种重要的调制技术。
传统的脉冲阶梯调制技术的高压开关电源由若干个结构相同的电源模块组成。在工作过程中一个模块处于PWM状态,其余模块工作在开关状态。这种方式控制简单,但由于固定一个模块工作在PWM方式下,使得该模块开关损耗大,每个模块的发热不均匀,从而给电源模块的设计带来问题,若每个模块都按PWM模式进行热设计,势必造成浪费;若按开关全开通模式进行热设计,则工作在PWM模式下的电源模块过热,严重时会损坏电源模块;若对两种模块分别进行热设计,则电源模块的规格不统一,模块备份不方便。
为了解决上述问题,本文提出了一种新型的控制策略,采用m个电源模块循环工作在PWM模式下,使整个电源的发热平摊在每个模块上。因此,每个电源模块的规格可设计成一样,解决了电源模块的冗余问题,对提高电源系统的可靠性具有重要的意义。文中基于MATLAB/SIMULINK的仿真环境,对系统的控制方法进行了仿真研究。文章最后,采用六组开关模块单元串联,通过实验验证了控制策略的可行性和优越性。
Recently, with the development of semiconductor technology and power electronics technology, the need for high-voltage and high-power supply become more, especially in some scientific experiments. These experiments usually have some special demands such as high-voltage, high-power etc.
The pulse step modulation (PSM) technology is the combination of the pulse width modulation(PWM) and the step modulation(SM).and it is an important technology which is used in high-voltage, high-power switching power supply system.
Conditional power supply system based on PSM technology is made up of several power units and one of these units works at PWM while others works an on-off state. This strategy is easy to work but the unit working at PWM state has more switching loss and brings difficulty to the design of system. If we design every unit at PWM state, it is a great waste and if we design the units in two ways, it has difficulty in unification of standards.
To solve the problems, we use a new control strategy. In this strategy the units work at PWM state in cycle. So the heat distributes to every unit. We can design every unit at the same size. MATLAB is also used to improve the control strategy. At last, the advantage of this new strategy is verified on an experimental prototype.
引文
[1] W.Schminke,High-power Pulse Step Modulator for 500kW Short wave and 600kW Medium-Wave transmitters,Brown Boveri Rev.72, 1985
[2] J.Alex, W.Schminke,A High Voltage Power Supply for Negative Ion NBI Based on PSM Technology,Fusion Engineering, 1997, 17th IEEE/NPSS Symposium, 6-10 Oct, 1997, 1063-1066 vol.2
[3] J.Alex, W.Schminke,Fast Switching, Modular High-voltage DC/AC-power Supplies for RF-amplifiers and Other Applications,Fusion Engineering, 1995, SOFE'95.'Seeking a New Energy Era', 16th IEEE/NPSS Symposium, 30 Sept-5 Oct, 1995, 936-939 vol.2
[4] J.Alex, W.Forster,High-voltage, High-power, Pulse-Step Modulators for The Accurate Supply of Gyrotron and Other Heating Devices,Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop, Conference Record of the Twenty-Fifth International, 30 June-3 July 2002, 126-129
[5] I.H.Song, H.S.Ahn, Y.K.Kim, et.al,Development of the 120 kV/70 A high voltage switching system with MOSFETs operated by simple gate control unit. Power Electronics Specialists Conference, 2002.pesc 02.2002 IEEE 33rd Annual, Volume:3, 23-27 June 2002, Pages: 1181-1185 vol.3
[6] Bing Lu, Yang Qiu, Chuanyun Wang, et.al,A High Power Density High Voltage Distributed Power System for Pulse Power Applications,Applied Power Electronics Conference and Exposition, 2005.APEC 2005.Twentieth Annual IEEE, Volume:l, 6-10 March 2005, Pages:210-216 vol.1
[7] W.Schminke, H.U.Boksberqer,Dynamic Carrier Control, DCC, A Valuable Method to Save Input Power of Medium Wave Transmitters. Broadcasting, IEEE Transactions on, Volume:35, Issue:2, June 1989, Pages:134-138
[8] I.A.Krichtafovitch, I.Z.Sinitsyna,Multi-output Modular High-voltage Power Supplies for Airborne and Space Applications. Energy Conversion Engineering Conference, 1996.IECEC 96.Proceedings of the 31 st Intersociety, Volume: 1, 11-16 Aug 1996, Pages:577-581 vol.1
[9] W.Schminke,The Merits of Modern Technology for Today's High Power Short-wave Transmitters. Broadcasting, IEEE Transactions on, Volume:34, Issue:2, June 1988, Pages:126-133
[10] Xinbo Ruan, Bin Li, Qianghong Chen,Three-Level Converters-A New Approach for High Voltage and High Power DC-to-DC Conversion. Power Electronics Specialists Conference, 2002.pesc 02.2002 IEEE 33rd Annual, Volume: 2, 23-27 June 2002, Pages: 663-668 vol. 2
[11] R. Y. Chen, R. L. Lin, T. J. Liang, et. al, Current-fed Full-bridge Boost Converter with Zero Current Switching for High Voltage Applications. Industry Applications Conference, 2005. Fourtieth IAS Annual Meeting. Conference Record of the 2005, Volume: 3, 2-6 Oct 2005, Pages: 2000-2006 vol. 3
[12] Microchip, PIC16F87XADatasheet. 2003
[13] H. Patangia, T. Wijaya, D. Gregory, A Multi-Level Inverter for Driving a High Voltage Display. Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium on, 23-26 May 2005, Pages: 4461-4464 vol. 5
[14] Heqing Zhong, Zhixin Xu, Xudong Zou, et. al, Current Characteristic of High Voltage Capacitor Charging Power Supply Using a Series Resonant Topology. Industrial Electronics Society, 2003.IECON'03.The 29th Annual Conference of the IEEE, Volume: 1, 2-6 Nov 2003, Pages: 373-377 vol. 1
[15] K. Ogura, E. Chu, M. Ishitobi, et. al, Inductor Snubber-Assisted Series Resonant ZCS-PFM High Frequency Inverter Link DC-DC Converter with Voltage Multiplier. Power Conversion Conference, 2002. PCC Osaka 2002. Proceedings of the, Volume: 1, 2-5 April 2002, Pages: 110-114 vol. 1
[16] 张占松,蔡宣三,开关电源的原理与设计(修订版)[M],电子工业出版社,2004年9月
[17] 肖如泉,王琰,高压直流实验电源及新发展,高电压技术,1997,vol23:44-45
[18] 张仁豫,高电压实验技术,北京,清华大学出版社,1982
[19] 张国君,现代电力电子及电源技术的发展。HTTP://WWW.CPS.COM.CN
[20] 魏智,用于雷达发射机的140kW高压开关电源,现代雷达,2000,6
[21] 胡素华,余增亮,200kV高压直流开关电源,高电压设备,2001,vol37:26-31
[22] 张芝涛,产生高浓度臭氧用200kHz高压逆变电源的研制,高电压技术,2001,vol27:6-9
[23] 王聪,软开关功率变换器及其应用[M],科学出版社,2000年1月
[24] 阮新波,严仰光.脉宽调制DC/DC全桥变换器的软开关技术[M],科学出版社,1999年9月
[25] 刘和平,TMS320LF240X[M],北京航空航天大学出版社,2002年4月
[26] 王晓明,电动机的DSP控制[M],北京航空航天大学出版社,2004年7月
[27] 周志敏,周纪海,开关电源实用技术设计与应用[M],人民邮电出版社,2003年8月
[28] 刘胜利,现代高频开关电源实用技术[M],电子工业出版社,2001年9月
[29] 王兆安,黄俊.电力电子技术(第4版)[M],机械工业出版社,2000年
[30] 洪乃刚等编著,电力电子和电力拖动控制系统的MATLAB仿真[M],机械工业出版社,2006年1月
[31] 胡寿松主编,自动控制原理(第3版)[M],国防工业出版社,1994年5月
[32] 杜少武,ECRH负高压脉冲电源的研究,合肥工业大学博士学位论文,2004
[33] 陈伯时主编,电力拖动自动控制系统(第2版)[M],机械工业出版社,2000年6月
[34] 杜少武,张崇巍,丁同海,徐宁,刘宝华,ECRH负高压脉冲电源控制系统的研究与设计[J],电工电能新技术,2004,23(1):77-80
[35] 杜少武,杜凤付.一种新颖的四管混合式DC/DC变换器的研究[J],电力电子技术,2005,39(6):120-122
[36] 张兴,马先奎,张崇巍,推挽式DC/DC开关电源的设计与校正[J],合肥工业大学学报(自然科学版),2000,23(6):957-961
[37] 崔海安,倪云龙,18KV,20KW高压电源的研制[J],第十五届全国电源技术年会论文集,2003:405-407
[38] 谢少军,级联式直流变换器-一种使用于高压应用的直流变换器[J],第十五届全国电源技术年会论文集,2003:411-412
[39] 张之永,韩博,徐功潜,蒋云彬.24KW高压开关电源在雷达发射机中的应用[J],电力电子技术,2003,37(2):7-8,6,11.
[40] 邵英斌,任青毅,25KV/2A谐振式恒流充电电源[J],测试技术技术,1998,12(3):394-398
[41] 曾江涛,孙凤举,许日,邱爱慈,50KV/4A输出高压恒流电源[J],强激光与粒子束,2000,12(1):111-114
[42] 胡素华,余增亮,王绍虎,叶是杰,连燕国,黄建荣.200KV高压直流开关电源[J].高压电器,2001,37(4):26-28,37
[43] 魏智,用于雷达发射机的140KW高压开关电源[J],现代雷达,2000,22(3):56-60,65
[44] 洪健,李可,1000W串并联谐振高压电源[J].第十四届全国电源技术年会论文集,2001:372-375
[45] 隆克平,罗松筠,黄香馥,PSM技术及其小信号失真分析[J],电子科技大学学报,1996,25(5):460-465
[46] 曾嵘,肖如泉,盛新富.高压串级DC/DC开关电源的研制[J],电力电子技术,1998年第2期:5-7
[47] 张文利,彭燕昌,孙广平,严萍,张适昌,高压开关电源的研制[J],高电压技术,2002,28(11):36-37
[48] 王生德,张平,高压开关电源在X-射线探伤中的应用[J],郑州大学学报(理学版),2004,36(4):48-50
[49] 孙向东,段龙,钟彦儒,金舜.高压直流LCC谐振变换器的分析与设计[J],电工技术学报,2002,17(5):60-64,25
[50] 张文利,高压大功率开关电源技术的研究,中国科学院电工研究所硕士学位论文,2003
[51] 杜少武,杨钰辉,基于PSM技术的高压开关电源研究[J],电工电能新技术,2006,25(3)
[52] 王正林,王胜开,陈国顺编著,MATLAB/SIMULINK与控制系统仿真[M],电子工业出版社,2005年7月
[53] 毛鸿,吴兆麟,沈琦,高精度开关稳压电源的系统分析与设计[J],电力电子技术,1999年第2期:1-4
[54] 吴洪洋,多电平变换器及其相关技术研究,浙江大学博士学位论文,2001
[55] 肖如泉,王琰,曾嵘,程天强,高压直流实验电源及新发展[J],高电压技术,1997,23(2):44-45
[56] 李洪剑,王志强,余世科,IGCT及IGCT变频器[J],半导体技术,2004,29(5):89-92
[57] 马洪勃,新型耐高压、大功率电力电子器件的原理及应用[J],沈阳电力高等专科学校学报,2001,3(1):17-20
[58] 兰俊杰,基于DSP的风能并网逆变器研究[J],大连理工大学,2006,12
[59] 何晓琼,V~2控制BUCK变换器建模及控制器优化,西南交通大学学报[J],2004,8
[60] 杨玉辉,基于PSM技术的高压开关电源研究[D],合肥工业大学硕士学位论文,2006,4
[61] 张惠,冯英等编著,电源大全[M],西南交通大学出版社,1993年
[2] J.Alex, W.Schminke,A High Voltage Power Supply for Negative Ion NBI Based on PSM Technology,Fusion Engineering, 1997, 17th IEEE/NPSS Symposium, 6-10 Oct, 1997, 1063-1066 vol.2
[3] J.Alex, W.Schminke,Fast Switching, Modular High-voltage DC/AC-power Supplies for RF-amplifiers and Other Applications,Fusion Engineering, 1995, SOFE'95.'Seeking a New Energy Era', 16th IEEE/NPSS Symposium, 30 Sept-5 Oct, 1995, 936-939 vol.2
[4] J.Alex, W.Forster,High-voltage, High-power, Pulse-Step Modulators for The Accurate Supply of Gyrotron and Other Heating Devices,Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop, Conference Record of the Twenty-Fifth International, 30 June-3 July 2002, 126-129
[5] I.H.Song, H.S.Ahn, Y.K.Kim, et.al,Development of the 120 kV/70 A high voltage switching system with MOSFETs operated by simple gate control unit. Power Electronics Specialists Conference, 2002.pesc 02.2002 IEEE 33rd Annual, Volume:3, 23-27 June 2002, Pages: 1181-1185 vol.3
[6] Bing Lu, Yang Qiu, Chuanyun Wang, et.al,A High Power Density High Voltage Distributed Power System for Pulse Power Applications,Applied Power Electronics Conference and Exposition, 2005.APEC 2005.Twentieth Annual IEEE, Volume:l, 6-10 March 2005, Pages:210-216 vol.1
[7] W.Schminke, H.U.Boksberqer,Dynamic Carrier Control, DCC, A Valuable Method to Save Input Power of Medium Wave Transmitters. Broadcasting, IEEE Transactions on, Volume:35, Issue:2, June 1989, Pages:134-138
[8] I.A.Krichtafovitch, I.Z.Sinitsyna,Multi-output Modular High-voltage Power Supplies for Airborne and Space Applications. Energy Conversion Engineering Conference, 1996.IECEC 96.Proceedings of the 31 st Intersociety, Volume: 1, 11-16 Aug 1996, Pages:577-581 vol.1
[9] W.Schminke,The Merits of Modern Technology for Today's High Power Short-wave Transmitters. Broadcasting, IEEE Transactions on, Volume:34, Issue:2, June 1988, Pages:126-133
[10] Xinbo Ruan, Bin Li, Qianghong Chen,Three-Level Converters-A New Approach for High Voltage and High Power DC-to-DC Conversion. Power Electronics Specialists Conference, 2002.pesc 02.2002 IEEE 33rd Annual, Volume: 2, 23-27 June 2002, Pages: 663-668 vol. 2
[11] R. Y. Chen, R. L. Lin, T. J. Liang, et. al, Current-fed Full-bridge Boost Converter with Zero Current Switching for High Voltage Applications. Industry Applications Conference, 2005. Fourtieth IAS Annual Meeting. Conference Record of the 2005, Volume: 3, 2-6 Oct 2005, Pages: 2000-2006 vol. 3
[12] Microchip, PIC16F87XADatasheet. 2003
[13] H. Patangia, T. Wijaya, D. Gregory, A Multi-Level Inverter for Driving a High Voltage Display. Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium on, 23-26 May 2005, Pages: 4461-4464 vol. 5
[14] Heqing Zhong, Zhixin Xu, Xudong Zou, et. al, Current Characteristic of High Voltage Capacitor Charging Power Supply Using a Series Resonant Topology. Industrial Electronics Society, 2003.IECON'03.The 29th Annual Conference of the IEEE, Volume: 1, 2-6 Nov 2003, Pages: 373-377 vol. 1
[15] K. Ogura, E. Chu, M. Ishitobi, et. al, Inductor Snubber-Assisted Series Resonant ZCS-PFM High Frequency Inverter Link DC-DC Converter with Voltage Multiplier. Power Conversion Conference, 2002. PCC Osaka 2002. Proceedings of the, Volume: 1, 2-5 April 2002, Pages: 110-114 vol. 1
[16] 张占松,蔡宣三,开关电源的原理与设计(修订版)[M],电子工业出版社,2004年9月
[17] 肖如泉,王琰,高压直流实验电源及新发展,高电压技术,1997,vol23:44-45
[18] 张仁豫,高电压实验技术,北京,清华大学出版社,1982
[19] 张国君,现代电力电子及电源技术的发展。HTTP://WWW.CPS.COM.CN
[20] 魏智,用于雷达发射机的140kW高压开关电源,现代雷达,2000,6
[21] 胡素华,余增亮,200kV高压直流开关电源,高电压设备,2001,vol37:26-31
[22] 张芝涛,产生高浓度臭氧用200kHz高压逆变电源的研制,高电压技术,2001,vol27:6-9
[23] 王聪,软开关功率变换器及其应用[M],科学出版社,2000年1月
[24] 阮新波,严仰光.脉宽调制DC/DC全桥变换器的软开关技术[M],科学出版社,1999年9月
[25] 刘和平,TMS320LF240X[M],北京航空航天大学出版社,2002年4月
[26] 王晓明,电动机的DSP控制[M],北京航空航天大学出版社,2004年7月
[27] 周志敏,周纪海,开关电源实用技术设计与应用[M],人民邮电出版社,2003年8月
[28] 刘胜利,现代高频开关电源实用技术[M],电子工业出版社,2001年9月
[29] 王兆安,黄俊.电力电子技术(第4版)[M],机械工业出版社,2000年
[30] 洪乃刚等编著,电力电子和电力拖动控制系统的MATLAB仿真[M],机械工业出版社,2006年1月
[31] 胡寿松主编,自动控制原理(第3版)[M],国防工业出版社,1994年5月
[32] 杜少武,ECRH负高压脉冲电源的研究,合肥工业大学博士学位论文,2004
[33] 陈伯时主编,电力拖动自动控制系统(第2版)[M],机械工业出版社,2000年6月
[34] 杜少武,张崇巍,丁同海,徐宁,刘宝华,ECRH负高压脉冲电源控制系统的研究与设计[J],电工电能新技术,2004,23(1):77-80
[35] 杜少武,杜凤付.一种新颖的四管混合式DC/DC变换器的研究[J],电力电子技术,2005,39(6):120-122
[36] 张兴,马先奎,张崇巍,推挽式DC/DC开关电源的设计与校正[J],合肥工业大学学报(自然科学版),2000,23(6):957-961
[37] 崔海安,倪云龙,18KV,20KW高压电源的研制[J],第十五届全国电源技术年会论文集,2003:405-407
[38] 谢少军,级联式直流变换器-一种使用于高压应用的直流变换器[J],第十五届全国电源技术年会论文集,2003:411-412
[39] 张之永,韩博,徐功潜,蒋云彬.24KW高压开关电源在雷达发射机中的应用[J],电力电子技术,2003,37(2):7-8,6,11.
[40] 邵英斌,任青毅,25KV/2A谐振式恒流充电电源[J],测试技术技术,1998,12(3):394-398
[41] 曾江涛,孙凤举,许日,邱爱慈,50KV/4A输出高压恒流电源[J],强激光与粒子束,2000,12(1):111-114
[42] 胡素华,余增亮,王绍虎,叶是杰,连燕国,黄建荣.200KV高压直流开关电源[J].高压电器,2001,37(4):26-28,37
[43] 魏智,用于雷达发射机的140KW高压开关电源[J],现代雷达,2000,22(3):56-60,65
[44] 洪健,李可,1000W串并联谐振高压电源[J].第十四届全国电源技术年会论文集,2001:372-375
[45] 隆克平,罗松筠,黄香馥,PSM技术及其小信号失真分析[J],电子科技大学学报,1996,25(5):460-465
[46] 曾嵘,肖如泉,盛新富.高压串级DC/DC开关电源的研制[J],电力电子技术,1998年第2期:5-7
[47] 张文利,彭燕昌,孙广平,严萍,张适昌,高压开关电源的研制[J],高电压技术,2002,28(11):36-37
[48] 王生德,张平,高压开关电源在X-射线探伤中的应用[J],郑州大学学报(理学版),2004,36(4):48-50
[49] 孙向东,段龙,钟彦儒,金舜.高压直流LCC谐振变换器的分析与设计[J],电工技术学报,2002,17(5):60-64,25
[50] 张文利,高压大功率开关电源技术的研究,中国科学院电工研究所硕士学位论文,2003
[51] 杜少武,杨钰辉,基于PSM技术的高压开关电源研究[J],电工电能新技术,2006,25(3)
[52] 王正林,王胜开,陈国顺编著,MATLAB/SIMULINK与控制系统仿真[M],电子工业出版社,2005年7月
[53] 毛鸿,吴兆麟,沈琦,高精度开关稳压电源的系统分析与设计[J],电力电子技术,1999年第2期:1-4
[54] 吴洪洋,多电平变换器及其相关技术研究,浙江大学博士学位论文,2001
[55] 肖如泉,王琰,曾嵘,程天强,高压直流实验电源及新发展[J],高电压技术,1997,23(2):44-45
[56] 李洪剑,王志强,余世科,IGCT及IGCT变频器[J],半导体技术,2004,29(5):89-92
[57] 马洪勃,新型耐高压、大功率电力电子器件的原理及应用[J],沈阳电力高等专科学校学报,2001,3(1):17-20
[58] 兰俊杰,基于DSP的风能并网逆变器研究[J],大连理工大学,2006,12
[59] 何晓琼,V~2控制BUCK变换器建模及控制器优化,西南交通大学学报[J],2004,8
[60] 杨玉辉,基于PSM技术的高压开关电源研究[D],合肥工业大学硕士学位论文,2006,4
[61] 张惠,冯英等编著,电源大全[M],西南交通大学出版社,1993年