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Digital Power Electronics and Applications

Download Digital Power Electronics and Applications written by Fang Lin Luo and Hong Ye is very useful for Electronics & Communication Engineering (ECE) students and also who are all having an interest to develop their knowledge in the field of Communication Innovation. This Book provides an clear examples on each and every topics covered in the contents of the book to provide an every user those who are read to develop their knowledge. The text presents the topic in a clear, simple, practical, logical and cogent fashion that provides the students with insights into theory as well as applications to practical problems.

Digital Power Electronics and Applications written to meet exhaustively the requirements of various syllabus in the subject of the courses in B.E /B.Tech/ B.Sc (Engineering) of various Indian Universities. It is Equally suitable for UPSC, AIME and all other competitive examinations in the field of Engineering.

“Digital Power Electronics and Applications By Fang Lin Luo and Hong Ye Free Download”

Book Details:

Table Of Content:

1. Introduction
1.1 Historical review
1.2 Traditional parameters
1.3 Multiple-quadrant operations and choppers
1.4 Digital power electronics: pump circuits and conversion technology
1.5 Shortage of analog power electronics and conversion technology
1.6 Power semiconductor devices applied in digital power electronics
2. Energy Factor (EF) and Sub-sequential Parameters
2.1 Introduction
2.2 Pumping energy (PE)
2.3 Stored energy (SE)
2.4 Energy factor (EF)
2.5 Variation energy factor (EFV)
2.6 Time constant, τ, and damping time constant, τd
2.7 Examples of applications
2.8 Small signal analysis
3. Basic Mathematics of Digital Control Systems
3.1 Introduction
3.2 Digital Signals and Coding
3.3 Shannon’s sampling theorem
3.4 Sample-and-hold devices
3.5 Analog-to-digital conversion
3.6 Digital-to-analog conversion
3.7 Energy quantization
3.8 Introduction to reconstruction of sampled signals
3.9 Data conversion: the zero-order hold
3.10 The first-order hold
3.11 The second-order hold
3.12 The Laplace transform (the s-domain)
3.13 The z-transform (the z-domain)

4. Mathematical Modeling of Digital Power Electronics
4.1 Introduction
4.2 A zero-order hold (ZOH) for AC/DC controlled rectifiers
4.3 A first-order transfer function for DC/AC pulse-width-modulation inverters
4.4 A second-order transfer function for DC/DC converters
4.5 A first-order transfer function for AC/AC (AC/DC/AC) converters
5. Digitally Controlled AC/DC Rectifiers
5.1 Introduction
5.2 Mathematical modeling for AC/DC rectifiers
5.3 Single-phase half-wave controlled AC/DC rectifier
5.4 Single-phase full-wave AC/DC rectifier
5.5 Three-phase half-wave controlled AC/DC rectifier
5.6 Three-phase full-wave controlled AC/DC rectifier
5.7 Three-phase double-anti-star with interphase-transformer controlled AC/DC rectifier
5.8 Six-phase half-wave controlled AC/DC rectifier
5.9 Six-phase full-wave controlled AC/DC rectifier
6. Digitally Controlled DC/AC Inverters
6.1 Introduction
6.2 Mathematical modeling for DC/AC PWM inverters
6.3 Single-phase half-wave VSI
6.4 Single-phase full-bridge PWM VSI
6.5 Three-phase full-bridge PWM VSI
6.6 Three-phase full-bridge PWM CSI
6.7 Multistage PWM inverter
6.8 Multilevel PWM inverter
7. Digitally Controlled DC/DC Converters
7.1 Introduction
7.2 Mathematical Modeling for power DC/DC converters
7.3 Fundamental DC/DC converter
7.4 Developed DC/DC converters
7.5 Soft-switching converters
7.6 Multi-element resonant power converters
8. Digitally Controlled AC/AC Converters
8.1 Introduction
8.2 Traditional modeling for AC/AC (AC/DC/AC) converters
8.3 Single-phase AC/AC converter
8.4 Three-phase AC/AC voltage controllers
8.5 SISO cycloconverters

8.6 TISO cycloconverters
8.7 TITO cycloconverters
8.8 AC/DC/AC PWM converters
8.9 Matrix converters
9. Open-loop Control for Digital Power Electronics
9.1 Introduction
9.2 Stability analysis
9.3 Unit-step function responses
9.4 Impulse responses
9.5 Summary
10. Closed-Loop Control for Digital Power Electronics
10.1 Introduction
10.2 PI control for AC/DC rectifiers
10.3 PI control for DC/AC inverters and AC/AC (AC/DC/AC) converters
10.4 PID control for DC/DC converters
11. Energy Factor Application in AC and DC Motor Drives
11.1 Introduction
11.2 Energy storage in motors
11.3 A DC/AC voltage source
11.4 An AC/DC current source
11.5 AC motor drives
11.6 DC motor drives
12. Applications in Other Branches of Power Electronics
12.1 Introduction
12.2 Power systems analysis
12.3 Power factor correction
12.4 Static compensation (STATCOM)

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