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Power Converters for Electric Vehicles gives an overview, topology,
design, and simulation of different types of converters used in
electric vehicles (EV). It covers a wide range of topics ranging
from the fundamentals of EV, Hybrid EV and its stepwise approach,
simulation of the proposed converters for real-time applications
and corresponding experimental results, performance improvement
paradigms, and overall analysis. Drawing upon the need for novel
converter topologies, this book provides the complete solution for
the power converters for EV applications along with simulation
exercises and experimental results. It explains the need for power
electronics in the improvement of performance in EV. This book:
Presents exclusive information on the power electronics of EV
including traction drives. Provides step-by-step procedure for
converter design. Discusses various topologies having different
isolated and non-isolated converters. Describes control circuit
design including renewable energy systems and electrical drives.
Includes practical case studies incorporated with simulation and
experimental results. Power Converters for Electric Vehicles will
provide researchers and graduate students in Power Electronics,
Electric Drives, Vehicle Engineering a useful resource for
stimulating their efforts in this important field of the search for
renewable technologies.
This book focusses on power quality improvement and enhancement
techniques with aid of intelligent controllers and experimental
results. It covers topics ranging from the fundamentals of power
quality indices, mitigation methods, advanced controller design and
its step by step approach, simulation of the proposed controllers
for real time applications and its corresponding experimental
results, performance improvement paradigms and its overall
analysis, which helps readers understand power quality from its
fundamental to experimental implementations. The book also covers
implementation of power quality improvement practices. Key Features
Provides solution for the power quality improvement with
intelligent techniques Incorporated and Illustrated with simulation
and experimental results Discusses renewable energy integration and
multiple case studies pertaining to various loads Combines the
power quality literature with power electronics based solutions
Includes implementation examples, datasets, experimental and
simulation procedures
Includes complete coverage of basics and design of algorithms
Discusses algorithm analysis techniques like divide-and-conquer,
dynamic programming, and greedy heuristics Provides time and space
complexity tutorials Reviews combinatorial optimization of Knapsack
problem Simplifies recurrence relation for time complexity
This book focusses on power quality improvement and enhancement
techniques with aid of intelligent controllers and experimental
results. It covers topics ranging from the fundamentals of power
quality indices, mitigation methods, advanced controller design and
its step by step approach, simulation of the proposed controllers
for real time applications and its corresponding experimental
results, performance improvement paradigms and its overall
analysis, which helps readers understand power quality from its
fundamental to experimental implementations. The book also covers
implementation of power quality improvement practices. Key Features
Provides solution for the power quality improvement with
intelligent techniques Incorporated and Illustrated with simulation
and experimental results Discusses renewable energy integration and
multiple case studies pertaining to various loads Combines the
power quality literature with power electronics based solutions
Includes implementation examples, datasets, experimental and
simulation procedures
Power Electronic Converters for Solar Photovoltaic Systems provides
design and implementation procedures for power electronic
converters and advanced controllers to improve standalone and grid
environment solar photovoltaics performance. Sections cover
performance and improvement of solar photovoltaics under various
conditions with the aid of intelligent controllers, allowing
readers to better understand the nuances of power electronic
converters for renewable energy systems. With algorithm development
and real-time implementation procedures, this reference is useful
for those interested in power electronics for performance
improvement in distributed energy resources, design of advanced
controllers, and measurement of critical parameters surrounding
renewable energy systems. By providing a complete solution for
performance improvement in solar PV with novel control techniques,
this book will appeal to researchers and engineers working in power
electronic converters, renewable energy, and power quality.
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Paperback
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R398
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Discovery Miles 3 300
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