Fang Lin Luo, Hong Ye0849372380, 9780849372384
Table of contents :
ESSENTIAL DC/DC CONVERTERS……Page 2
Preface……Page 4
Figure Credits……Page 6
Authors……Page 7
Contents……Page 9
Table of Contents……Page 0
1.1 Historical Review……Page 17
1.2.1 Multiple-Quadrant Operation……Page 18
1.2.2 The First-Quadrant Chopper……Page 19
1.2.3 The Second-Quadrant Chopper……Page 20
1.2.4 The Third-Quadrant Chopper……Page 21
1.2.5 The Fourth-Quadrant Chopper……Page 22
1.2.6 The First and Second Quadrant Chopper……Page 23
1.2.7 The Third and Fourth Quadrant Chopper……Page 24
1.3 Pump Circuits……Page 25
1.3.2 Developed Pumps……Page 26
1.3.2.3 Cúk-Pump……Page 28
1.3.3.2 Fly-Back Pump……Page 30
1.3.4 Super-Lift Pumps……Page 31
1.3.4.3 Positive Push-Pull Pump……Page 32
1.3.4.5 Double/Enhanced Circuit (DEC)……Page 33
1.4 Development of DC/DC Conversion Technique……Page 34
1.4.1.1 Fundamental Converters……Page 35
1.4.1.1.2 Boost Converter……Page 36
1.4.1.1.3 Buck-Boost Converter……Page 38
1.4.1.2.1 Forward Converter……Page 39
1.4.1.2.3 Fly-Back Converter……Page 41
1.4.1.2.5 Bridge Converter……Page 42
1.4.1.2.7 Forward Converter with Tertiary Winding and Multiple Outputs……Page 43
1.4.1.3.2 Negative Output (N/O) Luo-Converter……Page 44
1.4.1.3.5 Single-Ended Primary Inductance Converter……Page 45
1.4.1.3.6 Tapped Inductor Converter……Page 46
1.4.2 The Second Generation Converters……Page 48
1.4.3.1 Switched Capacitor Converters……Page 49
1.4.3.4 Multiple-Quadrant Switched Inductor Converters……Page 50
1.4.4.2 Zero-Voltage-Switching Quasi-Resonant Converters……Page 51
1.4.6 The Sixth Generation Converters……Page 52
1.5 Categorize Prototypes and DC/DC Converter Family Tree……Page 53
Bibliography……Page 55
2.1 Introduction……Page 56
2.2 Seven Self-Lift Converters……Page 57
2.2.1.1 Continuous Conduction Mode……Page 59
2.2.1.2 Discontinuous Conduction Mode……Page 63
2.2.2.1 Continuous Conduction Mode……Page 65
2.2.2.2 Discontinuous Conduction Mode……Page 68
2.2.3.1 Continuous Conduction Mode……Page 69
2.2.3.2 Discontinuous Conduction Mode……Page 73
2.2.4 Self-Lift N/O Luo-Converter……Page 74
2.2.4.1 Continuous Conduction Mode……Page 75
2.2.4.2 Discontinuous Conduction Mode……Page 76
2.2.5 Reverse Self-Lift N/O Luo-Converter……Page 77
2.2.5.1 Continuous Conduction Mode……Page 78
2.2.5.2 Discontinuous Conduction Mode……Page 80
2.2.6.1 Continuous Conduction Mode……Page 81
2.2.6.2 Discontinuous Conduction Mode……Page 84
2.2.7 Enhanced Self-Lift P/O Luo-Converter……Page 85
2.3 Positive Output Luo-Converters……Page 87
2.3.1.1 Circuit Description……Page 89
2.3.1.2 Variations of Currents and Voltages……Page 92
2.3.1.3 Instantaneous Values of Currents and Voltages……Page 95
2.3.1.4 Discontinuous Mode……Page 96
2.3.1.5 Stability Analysis……Page 98
2.3.2.1 Circuit Description……Page 100
2.3.2.3 Variations of Currents and Voltages……Page 103
2.3.2.4 Instantaneous Value of the Currents and Voltages……Page 106
2.3.2.5 Discontinuous Mode……Page 107
2.3.2.6 Stability Analysis……Page 109
2.3.3.1 Circuit Description……Page 111
2.3.3.2 Other Average Currents……Page 113
2.3.3.3 Variations of Currents and Voltages……Page 115
2.3.3.4 Instantaneous Value of the Currents and Voltages……Page 118
2.3.3.5 Discontinuous Mode……Page 120
2.3.3.6 Stability Analysis……Page 122
2.3.4 Multiple-Lift Circuits……Page 125
2.3.4.1 Triple-Lift Circuit……Page 126
2.3.4.2 Quadruple-Lift Circuit……Page 129
2.3.5 Summary……Page 133
2.3.6.1 Discontinuous-Conduction Mode……Page 134
2.4 Negative Output Luo-Converters……Page 136
2.4.1 Elementary Circuit……Page 139
2.4.1.2 Average Voltages and Currents……Page 140
2.4.1.3 Variations of Currents and Voltages……Page 141
2.4.1.4 Instantaneous Values of Currents and Voltages……Page 144
2.4.1.5 Discontinuous Mode……Page 145
2.4.2.2 Average Voltages and Currents……Page 147
2.4.2.3 Variations of Currents and Voltages……Page 150
2.4.2.4 Instantaneous Value of the Currents and Voltages……Page 153
2.4.2.5 Discontinuous Mode……Page 154
2.4.3 Re-Lift Circuit……Page 155
2.4.3.2 Average Voltages and Currents……Page 156
2.4.3.3 Variations of Currents and Voltages……Page 159
2.4.3.4 Instantaneous Value of the Currents and Voltages……Page 162
2.4.3.5 Discontinuous Mode……Page 164
2.4.4.1 Triple-Lift Circuit……Page 166
2.4.4.2 Quadruple-Lift Circuit……Page 170
2.4.5 Summary……Page 173
2.5.1 Elementary Circuit……Page 177
2.5.2 Self-Lift Circuit……Page 178
2.5.3 Re-Lift Circuit……Page 180
2.5.4 Multi-Lift Circuit……Page 183
2.5.5 Application……Page 185
2.6 Double Output Luo-Converters……Page 186
2.6.1 Elementary Circuit……Page 188
2.6.1.1 Positive Conversion Path……Page 189
2.6.1.2 Negative Conversion Path……Page 191
2.6.1.3 Discontinuous Mode……Page 193
2.6.2.1 Positive Conversion Path……Page 196
2.6.2.2 Negative Conversion Path……Page 198
2.6.2.3 Discontinuous Conduction Mode……Page 201
2.6.3.1 Positive Conversion Path……Page 203
2.6.3.2 Negative Conversion Path……Page 206
2.6.3.3 Discontinuous Conduction Mode……Page 209
2.6.4.1 Triple-Lift Circuit……Page 211
2.6.4.1.1 Positive Conversion Path……Page 212
2.6.4.1.2 Negative Conversion Path……Page 213
2.6.4.1.3 Discontinuous Mode……Page 215
2.6.4.2.1 Positive Conversion Path……Page 217
2.6.4.2.2 Negative Conversion Path……Page 219
2.6.4.2.3 Discontinuous Conduction Mode……Page 221
2.6.5.1 Positive Conversion Path……Page 223
2.6.5.3 Common Parameters……Page 225
Bibliography……Page 227
3.1 Introduction……Page 229
3.2.1 Elementary Circuit……Page 230
3.2.2 Re-Lift Circuit……Page 233
3.2.3 Triple-Lift Circuit……Page 234
3.3 Additional Series……Page 236
3.3.1 Elementary Additional Circuit……Page 237
3.3.2 Re-Lift Additional Circuit……Page 241
3.3.3 Triple-Lift Additional Circuit……Page 242
3.3.4 Higher Order Lift Additional Circuit……Page 244
3.4.1 Elementary Enhanced Circuit……Page 245
3.4.2 Re-Lift Enhanced Circuit……Page 247
3.4.3 Triple-Lift Enhanced Circuit……Page 249
3.5 Re-Enhanced Series……Page 251
3.5.1 Elementary Re-Enhanced Circuit……Page 252
3.5.2 Re-Lift Re-Enhanced Circuit……Page 256
3.5.3 Triple-Lift Re-Enhanced Circuit……Page 257
3.5.4 Higher Order Lift Re-Enhanced Circuit……Page 259
3.6 Multiple-Enhanced Series……Page 260
3.6.1 Elementary Multiple-Enhanced Circuit……Page 263
3.6.2 Re-Lift Multiple-Enhanced Circuit……Page 264
3.6.3 Triple-Lift Multiple-Enhanced Circuit……Page 265
3.6.4 Higher Order Lift Multiple-Enhanced Circuit……Page 267
3.7 Summary of Positive Output Super-Lift Luo-Converters……Page 268
3.8.2 Simulation Results of a Triple-Lift Additional Circuit……Page 272
3.9.2 Experimental Results of a Triple-Lift Additional Circuit……Page 273
3.9.3 Efficiency Comparison of Simulation and Experimental Results……Page 274
Bibliography……Page 275
4.1 Introduction……Page 276
4.2.1 Elementary Circuit……Page 277
4.2.2 N/O Re-Lift Circuit……Page 281
4.2.3 N/O Triple-Lift Circuit……Page 283
4.2.4 N/O Higher Order Lift Circuit……Page 285
4.3.1 N/O Elementary Additional Circuit……Page 286
4.3.2 N/O Re-Lift Additional Circuit……Page 290
4.3.3 N/O Triple-Lift Additional Circuit……Page 292
4.3.4 N/O Higher Order Lift Additional Circuit……Page 295
4.4.1 N/O Elementary Enhanced Circuit……Page 296
4.4.2 N/O Re-Lift Enhanced Circuit……Page 298
4.4.3 N/O Triple-Lift Enhanced Circuit……Page 301
4.5.1 N/O Elementary Re-Enhanced Circuit……Page 304
4.5.3 N/O Triple-Lift Re-Enhanced Circuit……Page 308
4.5.4 N/O Higher Order Lift Re-Enhanced Circuit……Page 309
4.6.1 N/O Elementary Multiple-Enhanced Circuit……Page 310
4.6.2 N/O Re-Lift Multiple-Enhanced Circuit……Page 312
4.6.3 N/O Triple-Lift Multiple-Enhanced Circuit……Page 314
4.7 Summary of Negative Output Super-Lift Luo-Converters……Page 315
4.9.1 Experimental Results of a N/O Triple-Lift Circuit……Page 319
4.9.2 Experimental Results of a N/O Triple-Lift Additional Circuit……Page 320
4.9.4 Transient Process and Stability Analysis……Page 321
Bibliography……Page 322
5.1 Introduction……Page 323
5.2.1 Elementary Boost Circuit……Page 324
5.2.2 Two-Stage Boost Circuit……Page 325
5.2.3 Three-Stage Boost Circuit……Page 327
5.2.4 Higher Stage Boost Circuit……Page 329
5.3.1 Elementary Boost Additional (Double) Circuit……Page 330
5.3.2 Two-Stage Boost Additional Circuit……Page 332
5.3.3 Three-Stage Boost Additional Circuit……Page 334
5.3.4 Higher Stage Boost Additional Circuit……Page 336
5.4.2 Two-Stage Double Boost Circuit……Page 337
5.4.3 Three-Stage Double Boost Circuit……Page 339
5.4.4 Higher Stage Double Boost Circuit……Page 342
5.5.1 Elementary Triple Boost Circuit……Page 343
5.5.2 Two-Stage Triple Boost Circuit……Page 344
5.5.3 Three-Stage Triple Boost Circuit……Page 346
5.6 Multiple Series……Page 349
5.6.1 Elementary Multiple Boost Circuit……Page 350
5.6.2 Two-Stage Multiple Boost Circuit……Page 351
5.6.3 Three-Stage Multiple Boost Circuit……Page 353
5.7 Summary of Positive Output Cascade Boost Converters……Page 355
5.8.1 Simulation Results of a Three-Stage Boost Circuit……Page 357
5.8.2 Experimental Results of a Three-Stage Boost Circuit……Page 359
5.8.4 Transient Process……Page 360
Bibliography……Page 361
6.2 Main Series……Page 362
6.2.1 N/O Elementary Boost Circuit……Page 363
6.2.2 N/O Two-Stage Boost Circuit……Page 364
6.2.3 N/O Three-Stage Boost Circuit……Page 366
6.2.4 N/O Higher Stage Boost Circuit……Page 368
6.3.1 N/O Elementary Additional Boost Circuit……Page 369
6.3.2 N/O Two-Stage Additional Boost Circuit……Page 371
6.3.3 N/O Three-Stage Additional Boost Circuit……Page 373
6.4.1 N/O Elementary Double Boost Circuit……Page 376
6.4.2 N/O Two-Stage Double Boost Circuit……Page 377
6.4.3 N/O Three-Stage Double Boost Circuit……Page 379
6.4.4 N/O Higher Stage Double Boost Circuit……Page 381
6.5.1 N/O Elementary Triple Boost Circuit……Page 382
6.5.2 N/O Two-Stage Triple Boost Circuit……Page 383
6.5.3 N/O Three-Stage Triple Boost Circuit……Page 385
6.6 Multiple Series……Page 388
6.6.2 N/O Two-Stage Multiple Boost Circuit……Page 389
6.6.4 N/O Higher Stage Multiple Boost Circuit……Page 392
6.7 Summary of Negative Output Cascade Boost Converters……Page 394
6.8.1 Simulation Results of a Three-Stage Boost Circuit……Page 396
6.8.2 Experimental Results of a Three-Stage Boost Circuit……Page 397
6.8.4 Transient Process……Page 399
Bibliography……Page 400
7.1 Introduction……Page 401
7.2 Operation of Ultra-lift Luo-Converter……Page 402
7.2.1 Continuous Conduction Mode (CCM)……Page 404
7.2.2 Discontinuous Conduction Mode (DCM)……Page 407
7.3.1 Continuous Conduction Mode (CCM)……Page 409
7.3.2 Discontinuous Conduction Mode (DCM)……Page 411
7.6 Experimental Results……Page 413
7.7 Summary……Page 415
Bibliography……Page 416
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