Ned Mohan - Power Electronics, A First Course: Simulations and Laboratory Implementations
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- Book:Power Electronics, A First Course: Simulations and Laboratory Implementations
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- Publisher:Wiley
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- Year:2023
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Power Electronics, A First Course: Simulations and Laboratory Implementations: summary, description and annotation
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POWER ELECTRONICS A FIRST COURSE
Enables students to understand power electronics systems, as one course, in an integrated electric energy systems curriculum
Power Electronics A First Course provides instruction on fundamental concepts related to power electronics to undergraduate electrical engineering students, beginning with an introductory chapter and moving on to discussing topics such as switching power-poles, switch-mode dc-dc converters, and feedback controllers.
The authors also cover diode rectifiers, power-factor-correction (PFC) circuits, and switch-mode dc power supplies. Later chapters touch on soft-switching in dc-dc power converters, voltage and current requirements imposed by various power applications, dc and low-frequency sinusoidal ac voltages, thyristor converters, and the utility applications of harnessing energy from renewable sources.
Power Electronics A First Course is the only textbook that is integrated with hardware experiments and simulation results. The simulation files are available on a website associated with this textbook. The hardware experiments will be available through a University of Minnesota startup at a low cost.
In Power Electronics A First Course, readers can expect to find detailed information on:
- Availability of various power semiconductor devices that are essential in power electronic systems, plus their switching characteristics and various tradeoffs
- Common foundational unit of various converters and their operation, plus fundamental concepts for feedback control, illustrated by means of regulated dc-dc converters
- Basic concepts associated with magnetic circuits, to develop an understanding of inductors and transformers needed in power electronics
- Problems associated with hard switching, and some of the practical circuits where this problem can be minimized with soft-switching
Power Electronics A First Course is an ideal textbook for Junior/Senior-Undergraduate students in Electrical and Computer Engineering (ECE). It is also valuable to students outside of ECE, such as those in more general engineering fields. Basic understanding of electrical engineering concepts and control systems is a prerequisite.
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- A
- ac motor drives, converters for,
- adjustable speed drives (ASD),
- Amperes law,
- ampere-turns, 174
- applications of power electronics, 4
- utility applications, 8
- application-specific ICs (ASICs),
- area-product method, 219
- core area-product Ap,
- design procedure based on, 219
- core cross-sectional area Acore, 218
- core window area Awindow, 217
- ASD, See
- ASICs, See
- average-current-mode control,
- B
- bi-directional power flow converters for, 283
- voltage-link structure for,
- bi-directional switching power-pole, 254
- as building-block, 254
- PWM of, 254
- Bipolar-Junction Transistors (BJTs),
- bi-positional switch in buck converter,
- Bode plots of transfer functions with poles and zeros, 128
- double pole in a transfer function, 128
- right-hand-plane (RHP) zero in transfer function,
- Boost converter switching analysis
- Buck converter versus,
- in CCM
- hardware results,
- simulation results,
- in DCM
- hardware results,
- simulation results,
- in DCM in steady state, 78
- in dc steady state, 57
- operation,
- voltage transfer ratio,
- waveforms,
- Boost dc-dc converter,
- Bootstrap driver,
- brushless dc drives,
- Buck-Boost converter analysis,
- in DC steady state, 65
- input/output voltage ratio,
- operation,
- transistor switching function,
- waveforms,
- in CCM
- hardware results,
- simulation results,
- in DCM
- hardware results,
- simulation results,
- Buck converter, 199
- bi-positional switch in,
- transistor and diode forming,
- in CCM
- hardware results,
- simulation results,
- in DCM
- hardware results,
- simulation results,
- switching analysis
- in DCM in steady state, 78
- in dc steady state, 51
- synchronous-rectified buck converter, 71
- switching node voltage ringing in, 80
- switching power-pole in,
- bus voltage magnitude, 316
- C
- CBEMA, See
- CCM, See
- coil inductance,
- Computer Business Equipment Manufacturers Association (CBEMA),
- conduction loss, MOSFETs,
- continuous conduction mode (CCM),
- average representation in, 85
- critical condition at the border of, 77
- dynamic average representation of converters, 74
- power stage of DC-DC converters in, linearizing, 105
- converters for bi-directional power flow, 283
- core area-product Ap,
- core cross-sectional area Acore, 218
- core window area Awindow, 217
- crossover frequency fc of GL(s),
- uk converters, 65
- current commutation, Ls effect on, 294
- current controller Gi(s) of PFC, designing,
- current-link structure,
- current-link systems,
- D
- dc motor drives
- converters for, 260
- (-Vd,0,), 260
- currents defined in,
- switching waveforms in, 260
- DCM, See
- delay angle ,
- diode rectifiers
- diode-rectifier bridge front-ends, 156
- DC-bus capacitor to achieve a low-ripple, 151
- DC-bus capacitor, effect of, 155
- full-bridge diode rectifier,
- single-phase diode-rectifier bridge, 152
- three-phase diode-rectifier bridge, 156
- utility input rectification using, 158, See also under Utility input rectification
- diodes, See also power
- diodes i-v
- characteristic,
- justifying as ideal,
- symbol,
- direct-link structure,
- discontinuous conduction mode (DCM), 85
- average representation in, 85
- Boost converters in, 82
- Buck-Boost converter in, 84
- Buck converters in, 80
- critical condition at the border of, 77
- feedback controller design in,
- displacement power factor (DPF), 146
- distributed generation (DG) applications, 311
- energy storage systems,
- fuel cell systems,
- micro-turbines,
- photovoltaic (PV) systems, 310
- power electronic loads,
- wind-electric systems, 309
- doubly-fed, wound-rotor induction generators,
- induction generators, directly connected to grid, 308
- power electronics connected generator,
- double pole in transfer function, 128
- DPF, See
- dual-feeders,
- dynamic voltage restorers (DVR),
- E
- electric motor drives,
- DC motors, 235
- equivalent circuit,
- permanent-magnet AC (PMAC) machines,
- requirements imposed by DC machines on PPU,
- requirements imposed by induction machines on the PPU,
- requirements imposed by PMAC machines on the PPU,
- electric vehicles (EVs), 6
- electric welding,
- electrical isolation, need for,
- electric-motor driven systems, 5
- energy and environment, 8, See also under sustainable electric energy
- energy storage
- due to magnetic fields, 176
- storage systems, 311
- equivalent circuits of transformers, 182
- actual,
- ideal,
- equivalent series inductance (ESL),
- equivalent series resistance (ESR), 48
- Evs, See
- F
- FACTS, See
- Faradays law,
- fast-recovery diodes,
- feedback controller design in switchmode dc power supplies, 138
- average-current-mode control,
- feedback controller design in voltage-mode control, 113
- in DCM,
- linear control theory, 100
- linearization of transfer function blocks, 106
- loop transfer function GL(s),
- peak-current mode control, 122
- phase and gain margins, 100
- in voltage-mode control, 113
- feedback controller design in PFC circuits, 169
- feedforward of input voltage,
- flexible AC transmission systems (FACTS), 317
- flexible production, power electronics in, 4
- flux, 174
- flyback converters, 198
- RCD Snubber, 198
- with snubber
- hardware results,
- simulation results,
- without snubber
- hardware results,
- simulation results,
- forward converters, 204
- core flux,
- hardware results,
- simulation results, 202
- operation,
- transformer for,
- two-switch forward converters, 204
- waveforms in,
- Fourier analysis, obtaining harmonic components by, 144
- front-end of power electronic systems,
- fuel cell systems,
- Full-bridge converters, 209
- phase-shift modulated (PSM),
- pulse-width modulated (PWM),
- sub-circuits,
- Full-bridge diode rectifier,
- with inductive load,
- with resistive load,
- G
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