Design of Basic Electro-mechanical Devices

Design of Basic Electro-mechanical DevicesInstructors:Professor Dennis K. Lieu

Department of Mechanical Engineering

University of California, Berkeley, USA

(Tel) 510-642-4014

(Email) dlieu@newton.berkeley.eduDescriptionFundamental principles of magnetics, electro-magnetics, and magnetic materials as applied to design and operation of electro-mechanical devices. Applied magnetic theory: magnetic motive force, permeance, flux, intensity, leakage. Properties of magnets and magnetic materials. Principles of operation of basic electro-mechanical devices and their drivers. Design of actuators and motors to meet force, torque, back EMF, and capacity requirements. Type and dimensional synthesis and material specification for custom applications of linear and rotary actuators, stepper motors, and DC brushless motors. Specification of poles, phases, winding patterns, and impedance.

Day 1:

Introduction. Review of fundamental magnetics theory.

Maxwell's Equations: Faraday's Law, Ampere's Law, Gauss' Law.

Lumped parameter models. MMF. Reluctance and permeance.

Flux linkages, speedance, inductance.

Energy and co-energy conversion. Maxwell's stress tensor. Forces and torques.

Properties of permanent magnets. Magnetizing process.

Day 2:

Simple reluctance devices.

Operation and control of voice coil actuators.

Brushless motors. Torque generation, timing, and commutation

Delta and Y windings

Motor control using switched DC. H-bridge controllers.

Use of HED's and FET's.

Day 3:

Losses and efficiency. Thermal considerations.

Insulation ratings. UL standards

Permanent magnet and VR stepper motors, pull-in and pull-out torque.

Magnetic circuit equivalents and permeance based calculation of torque.

Hybrid stepper motors. Magnetic circuit equivalents.

Textbook

Design of Basic Electro-Mechanical Devices (UB Berkeley ME229 Class Note)Reference TextbooksMagnetic Fundamentals and Motion Devices, H.D. Chai, Prentice Hall

Handbook of Electric Machines, S.A. Nasar; McGraw-Hill

Electro-mechanical Motion Devices, P.C. Krause, O. Wasynczuk; McGraw-Hill

Electro-magnetics, J.D. Kraus; McGraw-Hill

Electricity and Magnetism, E.M. Purcell; McGraw-Hill

Date

March 28-30 2001Schedule

Registration : 8:30 -9:00 am first day

Lecture : 8:30 am 5 pm each day

Lunch : Noon- 1 pm each day

Banquet : 5:30 7:30 pm March 30

Class Room

218 (Multimedia Room) New Material Engineering Building

Hanyang University, Seoul, Korea

Registration Fee

500,000 Won (US$400), 50 % off for the graduate students

Class note, lunch and banquet included

Registration Deadline

March 16 2001To register the shortcourse, contact

Program Administrator Yunjoo Cho

The BK21 Division for Research and Education in Mechanical Engineering,

Hanyang University

17 Haengdang-dong, Seongdong-ku

Seoul, 133-791, Korea

(Tel) 82-2-2290-1263

(Fax) 82-2-2299-1485

(Email) mebk22@email.hanyang.ac.kr

To have the course information, contactProfessor Gunhee Jang

Department of Mechanical Engineering, Hanyang University

17 Haengdang-dong, Seongdong-ku

Seoul, 133-791, Korea

(Tel) 82-2-2290-0431

(Fax) 82-2-2292-3406

(Email) ghjang@email.hanyang.ac.kr

(URL) http://prem.hanyang.ac.kr

http://www.me.berkeley.edu/prem