Dc Motor, Generators and Energy Conversion Devices Lecture Notes
Dc Motor, Generators and Energy Conversion Devices Lecture Notes
Dc Motor, Generators and Energy Conversion Devices Lecture Notes
This note explains the following topics: Magnetic Circuits-
Quantities and Definitions, Solving Magnetic Circuits with Electrical Analogies,
Mechanics For Motors and Generators, Electromagnetic Induction and Magnetic
Forces, Construction of Elementary Dc Generators, Induced Voltage In Practical
Dc Machines, Power Balance And Efficiency in Dc Generators, Separately Excited
Dc Motors, Shunt Connected Dc Motors, Starting Dc Motors, Dc Motor Control
Components and Diagrams, Computing Resistive Starter Values, Series Dc Motor
Torque-Speed Characteristics, Non-Linear Operation of Dc Motors, Non-Linear
Operation of Compound Motors, Operation and Control of Dc Motors, Photocell
Electrical Characteristics and Circuit Model, Self-Excited Dc Generators, Solar
Panels and Economics of Solar Power.
This book is organized into four sections, covering the
applications and structural properties of induction motors, fault detection and
diagnostics, control strategies, and the more recently developed topology based
on the multiphase induction motors. This material should be of specific interest
to engineers and researchers who are engaged in the modeling, design, and
implementation of control algorithms applied to induction motors and, more
generally, to readers broadly interested in nonlinear control, health condition
monitoring, and fault diagnosis.
This note
explains many basic circuits and software building blocks commonly used to
control motors. Topics covered include: Brushed DC Motor Drive Circuits,
Brushless DC Motor Drive Circuits, Stepper Motor Drive Circuits, Drive Software,
Writing a PWM Value to the CCP Registers with a Mid-range PICmicroŽ MCU.17,
Current Sensing and Position/Speed Sensing.