Synopses & Reviews
Design and Apply State-of-the-Art Motor Controls
This book gives you expert design and application help in controlling all types of motors--with precise, adaptable intelligence. Featuring the latest in electronics technology from the best and brightest in the business, this expert guide gives you everything from the fundamentals to cutting-edge design tips, including real-life examples with software code.
More and more critical in motor design, sophisticated electronic controls provide greater efficiency, finer speed and torque regulation, and better motor protection. With this insider's guide to electronic control technology, you'll be ready to make motors work better now nd into the future.
Motor Control Electronics Handbook will help you:
* Understand all facets of electronic motor control design
* Implement microcontrollers, linear ICs, optocouplers, sensors, and power devices
* Master EMI, RFI, and effective circuit board layout
* Network motor control systems
* Minimize electronic noise
* Anticipate the future of motor control technology
This is a complete sourcebook on electronic motor controls, ubiquitous devices which add precision to everything from medical instruments to cars. Written by a team of top experts from Motorola and other industry leaders, this pioneering guide provides complete coverage of controllers large and small from the fundamentals to cutting-edge applications. Essential for electronic control, automotive, mechanical, and instrumentation engineers and technicians.
This is a clear, up-to-the-minute guide to controlling all types of motorswith precise, adaptable intelligence. Featuring the latest in electronics technology, this expert-written guide gives you everything from the fundamentals to cutting-edge design tips, including real-life examples with software code. With this insider's guide to electronic control technology, you'll be ready to make motors work better now and into the future.
Table of Contents
Part I: Introduction. Motor Control: Driving Forces and Evolving Technologies. Part II: Motor Speed Controls. Motor Control Attributes. DC Motor Control Designs. Automotive Motor Controls. Appliance Motor Controls. Electric Car Drives. Part III: Digital Controls. Motor Drive Electrical Noise Management. AC Induction Motor Control. Deadtime Distortion Correction. Motor Control MCUs and Development Tools. Networking for Motor Control Systems. MCU Motor Control Reliability. Part IV: Motor Control Electronic Devices. Power Semiconductors for Motor Drives. Power Modules for Motor Control Applications. Motor Electronics Thermal Management. Motor Control Sensors. Part V: Diagnostics for Motor Controls. Electronic Motor Control Testing and Instrumentation. Part VI: Futuristic Motor Control. Future Motor Control Electronics. Appendices: A: Switching Power Loss. B: Wire Inductance. C: Motor Control Semiconductors. D: Motor Control Standards. E: Electrical Vehicle AC Induction Motor Program. F: Space Vector Modulation Routine, MC68HCO8MP16. G: Brush DC Motor Program, MC68HC05MC4. H: Brushless DC Motor Program, MC68HC05MC4. I: Three-Phase AC Motor Program, MC68HC08MP16.