出版社: Springer
出版年: 2001-1-31
页数: 883
定价: USD 159.00
装帧: Hardcover
ISBN: 9780792372707
内容简介 · · · · · ·
Fundamentals of Power Electronics, Second Edition, is an up-to-date and authoritative text and reference book on power electronics. This new edition retains the original objective and philosophy of focusing on the fundamental principles, models, and technical requirements needed for designing practical power electronic systems while adding a wealth of new material. Improve...
Fundamentals of Power Electronics, Second Edition, is an up-to-date and authoritative text and reference book on power electronics. This new edition retains the original objective and philosophy of focusing on the fundamental principles, models, and technical requirements needed for designing practical power electronic systems while adding a wealth of new material. Improved features of this new edition include: A new chapter on input filters, showing how to design single and multiple section filters; Major revisions of material on averaged switch modeling, low-harmonic rectifiers, and the chapter on AC modeling of the discontinuous conduction mode; New material on soft switching, active-clamp snubbers, zero-voltage transition full-bridge converter, and auxiliary resonant commutated pole. Also, new sections on design of multiple-winding magnetic and resonant inverter design; Additional appendices on Computer Simulation of Converters using averaged switch modeling, and Middlebrook's Extra Element Theorem, including four tutorial examples; and Expanded treatment of current programmed control with complete results for basic converters, and much more. This edition includes many new examples, illustrations, and exercises to guide students and professionals through the intricacies of power electronics design. Fundamentals of Power Electronics, Second Edition, is intended for use in introductory power electronics courses and related fields for both senior undergraduates and first-year graduate students interested in converter circuits and electronics, control systems, and magnetic and power systems. It will also be an invaluable reference for professionals working in power electronics, power conversion, and analog and digital electronics.
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读书笔记 · · · · · ·
我来写笔记-
Mr.nanguo (infinity)
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor cu...2016-03-25 11:27
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor current waveform ic(t) is then equal to the inductor current waveform with the dc component removed. The current ripple is linear, with peak value △iL.” 由于流过负载R的纹波电流量级很小,此处就忽略为零。也就是,输出纹波的计算是在假设输出纹波为零的基础上算出来的。 虽然在一般的情况下(输出电容很大,纹波很小)结果比较精确,工程上完全可用,总感觉不舒服。
回应 2016-03-25 11:27 -
prate#酋长 (perfect day)
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪...2011-09-15 05:28
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪的,其中一个叫watkins-johnson的converter用在高压DC,我看不懂它的原理,值得以后仔细看看。 还有双电容双电感,比如Cuk,SEPIC 这章后面的东西太多了,真搞不明白这个作者怎么能写这么多,快把我看吐了。
回应 2011-09-15 05:28
-
Mr.nanguo (infinity)
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor cu...2016-03-25 11:27
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor current waveform ic(t) is then equal to the inductor current waveform with the dc component removed. The current ripple is linear, with peak value △iL.” 由于流过负载R的纹波电流量级很小,此处就忽略为零。也就是,输出纹波的计算是在假设输出纹波为零的基础上算出来的。 虽然在一般的情况下(输出电容很大,纹波很小)结果比较精确,工程上完全可用,总感觉不舒服。
回应 2016-03-25 11:27 -
prate#酋长 (perfect day)
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪...2011-09-15 05:28
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪的,其中一个叫watkins-johnson的converter用在高压DC,我看不懂它的原理,值得以后仔细看看。 还有双电容双电感,比如Cuk,SEPIC 这章后面的东西太多了,真搞不明白这个作者怎么能写这么多,快把我看吐了。
回应 2011-09-15 05:28
-
Mr.nanguo (infinity)
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor cu...2016-03-25 11:27
“In a well-designed converter, in which the capacitor provides significant filtering of the switching ripple, the capacitance C is chosen large enough that its impedance at the switching frequency is much smaller than the load impedance R. Hence nearly all of the inductor current ripple flows through the capacitor, and very little flows through the load. As shown in Fig. 2.26, the capacitor current waveform ic(t) is then equal to the inductor current waveform with the dc component removed. The current ripple is linear, with peak value △iL.” 由于流过负载R的纹波电流量级很小,此处就忽略为零。也就是,输出纹波的计算是在假设输出纹波为零的基础上算出来的。 虽然在一般的情况下(输出电容很大,纹波很小)结果比较精确,工程上完全可用,总感觉不舒服。
回应 2016-03-25 11:27 -
prate#酋长 (perfect day)
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪...2011-09-15 05:28
这一章节是对拓扑的一个整理,他好像列了几个基本的,然后通过组合,加变压器衍生出了很多种。提到三端口基本单元,SPDT基本单元和电感,SPDT和电容,这种单元旋转一下就可能产生新的converter拓扑,SPDT和电感在以前的学习中经常用到,但是和电容用的还不是很多。 我比较喜欢后面的141,142那种衍生的想法,如何从简单的拓扑通过简化变到复杂一些的拓扑 后面提到八个基本的单电容,单电感的converter,比较有意思,有几个怪怪的,其中一个叫watkins-johnson的converter用在高压DC,我看不懂它的原理,值得以后仔细看看。 还有双电容双电感,比如Cuk,SEPIC 这章后面的东西太多了,真搞不明白这个作者怎么能写这么多,快把我看吐了。
回应 2011-09-15 05:28
论坛 · · · · · ·
请问这本书的课后题有配套的答案吗? | 来自刀客特胡 | 1 回应 | 2017-11-26 |
看过里面的一些片断 | 来自chudong | 2 回应 | 2012-12-10 |
教授推荐的好书 | 来自[已注销] | 2010-03-15 | |
好书 | 来自abcdefghijk | 2010-01-19 | |
开关电源的bible | 来自Jacky | 2009-05-09 |
0 有用 止息 2011-06-25
老师推荐的电源宝书,难以驾驭的厚!!
0 有用 吴蟾toad 2013-04-02
只读了前一半,但是对电源系统设计受益匪浅
1 有用 卡巴内瑞 2017-05-31
电力电子的圣经,我还能再读10年(苦笑)
1 有用 柠檬布丁 2011-10-13
求课后答案。。
0 有用 ban_de_rui 2020-02-21
请问哪里可以买到这本书?
0 有用 ban_de_rui 2020-02-21
请问哪里可以买到这本书?
0 有用 清风借力 2019-08-07
开关电源从业者绕不过去的一本书~
0 有用 Q.Q. 2017-12-06
好书
0 有用 [已注销] 2017-07-28
只看了前一半到pid那块,后面的磁理论留到后面去吧,不过感觉第一块建模方法没看扎实够,自己得搭搭才好。
1 有用 卡巴内瑞 2017-05-31
电力电子的圣经,我还能再读10年(苦笑)