Power electronics laboratory theory, practice and organization
"Power Electronics Laboratory: Theory, Practice and Organization" provides an up-to-date and balanced coverage of all important power electronic devices including experiments on converters using new power electronic devices such as IGBTs, Power MOSFETs, etc. It will serve as a practical an...
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| Main Author: | |
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| Format: | Book |
| Language: | English |
| Published: |
Oxford, UK
Alpha Science International
2007
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| Series: | Narosa series in power and energy systems
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| Subjects: | |
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Table of Contents:
- Power electronic devices and circuits
- Apparatus and safety measures for a power electronics lab
- Characteristics of a thyristor and a triac
- Different triggering circuits for thyristors
- Single-phase firing circuits suitable for triggering thyristors in a single-phase AC voltage controller or converters
- Different types of single-phase AC regulators
- Single-phase fully controlled bridge converter
- Single-phase half controlled symmetrical and asymmetrical bridge converters
- Two-stage sequence controlled single-phase converters
- Different types of DC choppers (DC to DC converters)
- Step-down thyristorized choppers
- MOSFET/IGBT/transistorized single-phase PWM converters
- Single-phase cycloconverters
- Single-phase MOSFET/IGBT
- Power transistor inverters
- Microprocessor support chips and PWM chip used single-phase sinusoidal PWM inverters and voltage to frequency ratio (V/F) control for single-phase induction motor
- Single-phase modified series inverter
- Temperature control of a soldering-iron with a closed loop proportional control and ON-OFF hysteresis control
- Three-phase, half-controlled thyristorized bridge converter with triggering circuit
- Three-phase fully-controlled thyristor bridge converter with triggering circuits
- Three-phase thyristorized AC regulator
- Microprocessor support chips and PWM chip used three-phase sinusoidal PWM inverters and voltage to frequency ratio (V/F) control for three-phase induction motor.