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Sliding mode control technology and implementation of power electronic converter

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Sliding Mode Control and Implementation of the power electronic converter: Chen Xiucong (Siew-Chong Tan), Li Wo Ming (Yuk-Ming Lai), Xie Zhigang (Chi Kong Tse) forward, Wang Xiaogang (translator), Zhang Jie Translation Published : 2012
Introduction This book first introduces the basic principles of sliding mode control, and summarizes the research status of sliding mode control in power electronic converters. The subsequent content is divided into three parts: sliding mode control based on hysteresis modulation, PWM sliding mode control, sliding mode control with current control sliding manifold, and other new sliding mode control. For each controller, the detailed analysis and design process are given in this book and implemented with analog circuits, which has strong practical value. This book is suitable for graduate students and scholars of electrical engineering, electronic engineering, and automatic control majors. It can also be used as a reference book for switching power supply designers.
Chapter 1 Sliding Mode Control Basics ()
11 Introduction ()
12 basic theory ()
13 Properties of Sliding Mode Motion ()
131 Ideal Control ()
132 actual limiting factors and chatter ()
133 Constant Dynamic ()
134 Quasi-sliding mode control ()
14 mathematical description ()
141 Arrival Conditions ()
142 conditions of existence ()
143 stability conditions ()
144 System with linear sliding manifold ()
145 System with Nonlinear Sliding Manifold ()
15 Equivalent Control ()
16 various implementation methods ()
161 relay and sign function ()
162 Hysteresis Function ()
163 Equivalent Control Function ()
Chapter 2 Overview of Power Electronic Converters and Their Control ()
21 Introduction ()
22 Basic DC-DC Converter ()
23DC-DC converter working mode ()
24 Control Overview ()
25 factors affecting control performance ()
251 Switching frequency ()
252 Energy Storage Elements ()
253 Control gain ()
26 General Control Technology ()
261 Hysteresis Controller ()
262 Pulse Width Modulation Controller ()
263 Design Method ()
264 Problems in Small Signal Model and Compensation ()
27 various new control methods ()
271 Adaptive Control ()
272 Fuzzy Logic Control ()
273 Artificial Neural Network Control ()
274 single-week control ()
275 Sliding Mode Control ()
Chapter 3 Sliding Mode Control of Power Electronic Converters
31 Introduction ()
32 Literature Review ()
321 Early Literature ()
322 high-order converter ()
323 Parallel Converter ()
324 Theoretical Literature ()
325 Applied Literature ()
326 fixed frequency sliding mode controller ()
327 Notes ()
33 Characteristics of Sliding Mode Control in DC-DC Converter ()
331 General Principles of Sliding Mode Control Implementation
332 Constant dynamics of power electronic converters
333 Quasi-Sliding Mode Control of Power Electronic Converters ()
334 conventional implementation method based on hysteresis modulation ()
34 fixed frequency sliding mode controller in power electronic converter ()
341 Sliding Mode Controller Based on Pulse Width Modulation ()
342 Duty Cycle Control ()
35 several design guidelines ()
36 practical problems of simulation implementation method ()
Chapter 4 Sliding Mode Controller Based on Hysteresis Modulation ()
41 Introduction ()
42 Theoretical Derivation ()
421 Mathematical Model of Buck Converter ()
422 Design of ideal sliding mode voltage controller ()
423 Design of actual sliding mode voltage controller ()
43 standard design process ()
431 Standard SMVC Converter Model ()
432 Design steps ()
44 experimental results ()
441 Verification of Design Equation ()
442 steady state performance ()
443 load change ()
444 input voltage change ()
445α change ()
446ESR change ()
45 Further discussion ()
451 advantages ()
452 Disadvantages ()
453 feasible solutions ()
Chapter 5 Adaptive Sliding Mode Controller Based on Hysteresis Modulation ()
51 Introduction ()
52 Analysis of conventional hysteresis sliding mode controller ()
521 Mathematical Model ()
522 Existing Problems ()
523 feasible solutions ()
53 Adaptive Feedforward Control Strategy ()
531 Theory ()
532 Implementation method ()
54 Adaptive Feedback Control Strategy ()
541 Theory ()
542 Implementation method ()
55 Experimental results and discussion ()
551 input voltage change ()
552 Load change ()
Notes ()
Chapter 6 General Design Method of PWM Sliding Mode Controller for Continuous Conduction Mode Power Electronic Converters
61 Introduction ()
62 Research Background ()
63 Design Method ()
631 System Modeling ()
632 Controller Design ()
633 Notes ()
64 Simulation results and discussion ()
641 Buck Converter ()
642 Boost Converter ()
643 Buck-Boost Converter ()
Chapter 7 General Design Method of PWM Sliding Mode Controller for Discontinuous Conduction Mode Power Electronic Converters ()
71 Introduction ()
72 DCM State Space Model ()
73 Design Method ()
731 System Modeling ()
732 Controller Design ()
74 Simulation results and discussion ()
741 Buck Converter ()
742 Boost Converter ()
743 Buck-Boost Converter ()
75DCM other applications of sliding mode control: hybrid dual mode controller ()
751 Background Knowledge ()
752 Controller structure ()
753 Simulation results and discussion ()
Chapter 8 Design and Implementation of PWM Sliding Mode Controller for Power Electronic Converters ()
81 Introduction ()
82 PWM Sliding Mode Voltage Controller of Buck Converter ()
821 Mathematical Model ()
822 Existing conditions after considering design parameters ()
823 Select sliding coefficient ()
824 Implementation of the controller ()
825 Results and discussion ()
83 PWM Sliding Mode Voltage Controller of Boost Converter ()
831 Mathematical Model ()
832 Implementation of the controller ()
833 Experimental prototype ()
834 Experimental results and discussion ()
Chapter 9 Sliding Mode Control with Current Control Sliding Manifold ()
91 Introduction ()
92 The Necessity of Boost Mode Converter Using Current Mode Control ()
93 Sliding Mode Current Controller ()
931 Generate appropriate reference current ()
932 sliding surface ()
933 Dynamic model of controller / converter system and its equivalent control ()
934 The structure of the controller ()
935 conditions of existence ()
936 stability conditions ()
937 The empirical method of selecting the sliding coefficient ()
938 Notes ()
94 Results and Discussion ()
941 Regulating performance ()
942 Dynamic Performance ()
Chapter 10 Sliding Mode Control of Sliding Manifold with Subtracted State for High-Order Converter
101 Introduction ()
102 Cuk converter conventional sliding mode controller ()
1021 State space model of Cuk transformer ()
1022 Full-state sliding mode controller ()
1023 Reduced-state sliding mode controller ()
103 Sliding mode current controller with constant frequency and reduced state ()
1031 sliding surface ()
1032 Dynamic model of controller / converter system and its equivalent control ()
1033 Controller structure ()
1034 conditions of existence ()
1035 Stability conditions ()
1036 Select sliding coefficient ()
1037 Supplementary Note ()
104 Results and Discussion ()
1041 steady state performance ()
1042 dynamic performance ()
Chapter 11 Indirect Sliding Mode Control with Double Integral Sliding Surface ()
111 Introduction ()
11.2 Finding the Problem ()
1121 Hysteresis Modulation Sliding Mode Controller ()
1122 Indirect Sliding Mode Controller ()
1123 Analysis of Steady State Error of Indirect ISM Control Converter ()
113 feasible solutions ()
114 Application of Double Integral Sliding Surface in PWM Indirect Sliding Mode Controller ()
1141 Double integral sliding mode controller ()
1142 The structure of the PWM DISM controller ()
1143 Conditions of Existence ()
1144 Stability conditions ()
115 Results and Discussion ()
1151 PWM DISM Buck Converter Simulation Results ()
1152 Experimental results of PWM DISM boost converter ()
references()

电力电子变换器的滑模控制技术与实现 Sliding mode control technology and implementation of power electronic converter

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