Kentucky, EE 517
Excerpt: ... EE 517 Text: EE 517 Lecture Notes by J. J. Cathey (Available from Kennedys as photocopy) SPRING 2003 References: Matrix Analysis of Electrical Machinery, N.N. Hancock Linear Motion Electric Machines , S.A. Nasar and I. Boldea Objectives: Extension of EE 415 to familiarize the student with principles of both field theory and coupled coil analysis of electric machines . Introduction to methods for analysis of electric machines under transient conditions, including the repetitive steady-state of power electronic drives. Application of MATLAB in electric machine analysis. LECTURE TOPICS I. Review of electric machine concepts (1 week) A. Magnetic circuits B. Winding arrangements, winding factors, mmf C. Flux linkage, inductance Coupled coil transformations (2 weeks) A. Three-phase to two-phase B. d-q, symmetrical components, forward-backward Induction machines (3 weeks) A. Polyphase motor B. Single-phase motor C. Dynamics and control Synchronous machines (3 weeks) A. Generators B. Motors C. Dynamics and control ...
Ohio State, ECE 743
Excerpt: ... Homework Set #11 (ECE743) 1. Read the attached papers. 2. Write a report on the use of Electric Machines in industrial system. Note that your text should be at least 4,000 words and not greater that 4,500 words. You may use as many figures you wish. Please type your report and use font size 12. 1 ...
SUNY Canton, ELEC 221
Excerpt: ... Figure 8-1 A single-phase generator with a multiturn coil embedded in two slots. At the instant Ea1 is maximum (+). Theodore Wildi Electrical Machines, Drives, and Power Systems, 5e Copyright 2002 by Pearson Education, Inc. Upper Saddle River, New ...
SUNY Canton, ELEC 221
Excerpt: ... Figure 9-1 a. A voltage is induced in a coil when it links a variable flux. b. A sinusoidal flux induces a sinusoidal voltage. Theodore Wildi Electrical Machines, Drives, and Power Systems, 5e Copyright 2002 by Pearson Education, Inc. Upper Saddle ...
UC Irvine, EECS 161
Excerpt: ... EECS 161 ELECTRIC MACHINES AND DRIVES (Elective for EE) Catalog Data: EECS 161 Electric Machines and Drives (Credit Units: 3) Magnetic circuits and transformers. Fundamentals of energy conversion. Application to synchronous, induction, commutator, and special purpose machines. Electric drives. Corequisite: EECS161L. Prerequisite: EECS70B or consent of instructor. Formerly ECE160. (Design units: 2) Fitzgerald, Kingsley, & Umans. Electric Machinery, McGraw-Hill, 2002. Textbook: References: Coordinator: Course Objectives: Keyue M. Smedley Understand the fundamentals of electromechanical energy conversion, the principle of dc and ac machines, typical PWM switching converters for motor drives, and design methods of speed and position control. Students will: Describe the fundamentals of electromechanical energy conversion inside a dc or ac electric machine. Describe PWM techniques for motor drive. Measure the electrical characteristics of electric machines . Understanding of electric network Magnetic circuits, dc ...
UC Irvine, EECS 161
Excerpt: ... EECS 161 ELECTRIC MACHINES AND DRIVES (Elective for EE) Catalog Data: EECS 161 Electric Machines and Drives (Credit Units: 3) Magnetic circuits and transformers. Fundamentals of energy conversion. Application to synchronous, induction, commutator, and special purpose machines. Electric drives. Corequisite: EECS161L. Prerequisite: EECS70B or consent of instructor. Formerly ECE160. (Design units: 2) Fitzgerald, Kingsley, & Umans. Electric Machinery, McGraw-Hill, 6th Edition 2007. Textbook: References: Coordinator: Keyue M. Smedley Relationship to Program Outcomes: This course relates to Program Outcomes EE: a and b as stated at: http:/undergraduate.eng.uci.edu/degreeprograms/electrical/mission Course Outcome/Performance Criteria: Students will: Describe the fundamentals of electromechanical energy conversion inside a dc or ac electric machine. (EE a, b) Describe PWM techniques for motor drive. (EE a, b) Measure the electrical characteristics of electric machines . (EE b) Prerequisites By Topic: Lecture Topic ...
UC Irvine, EECS 161l
Excerpt: ... EECS 161L ELECTRIC MACHINES AND DRIVES LABORATORY (Elective for EE) Catalog Data: EECS 161L Electric Machines and Drives Laboratory (CreditUnits:1) Laboratory exercises supplementing the content of EECS161. Corequisite: EECS161. Formerly ECE160L. (Design units: 0) Fitzgerald, Kingsley, & Umans. Electric Machinery, McGraw-Hill, 2002. Textbook: References: Coordinator: Keyue M. Smedley Relationship to Program Outcomes: This course relates to Program Outcomes EE: a and b as stated at: http:/undergraduate.eng.uci.edu/degreeprograms/electrical/mission Course Outcome/Performance Criteria: Students will: Understand the fundamentals of electromechanical energy conversion inside a dc or ac electric machine. (EE a, b) Understand PWM techniques for motor drive. (EE a, b) Measure the electrical characteristics of electric machines . (EE b) Prerequisites By Topic: Lecture Topics: Understanding of electric network Magnetic circuits, dc motors, ac motors, adjustable speed motor drive techniques using power electronics ci ...
UC Irvine, EECS 161l
Excerpt: ... EECS161L ELECTRIC MACHINES AND DRIVES LABORATORY Catalog Data: EECS161L Electric Machines and Drives Laboratory (Credit Units: 1) S. Laboratory exercises supplementing the content of EECS161. Corequisite: EECS161. Formerly ECE160L. (Design units: 0) Textbook: References: Coordinator: Course Objectives: Course Outcomes: Prerequisites By Topic: Lecture Topics: Class Schedule: Computer Usage: Laboratory Projects: Professional Component: Relationship to Program Outcomes: Design Content Description Approach: Lectures: Laboratory Portion: Grading Criteria: Estimated ABET Category Content: Mathematics and Basic Science: 0 credit units or Engineering Science: 1 credit units or 100% Engineering Design: 0 credit units or 0% Prepared by: CEP Approved: Fall 2004 Each class meets 3 hours per week for 10 weeks. Students will be able to: 0% Date: July 2005 ...
Rose-Hulman, ECE 340
Excerpt: ... 1 Electromagnetics Electromagnetism (EM) is one of the most versatile subjects that you will study at RoseHulman. EM is a fundamental topic in electrical engineering and will remain unchanged even as technology constantly changes. The price to pay is ...
TCU, BJONES 20263
Excerpt: ... pp-lecture The PowerPoint slides in this folder are designed to be used to support lectures on the textbook contents. They include the text figures plus bulleted lists and other slides that reflect the narrative. Some instructors choose to post the ...
Kentucky, EE 307
Excerpt: ... hes 10.1 Small Signal Models of the BJT 10.2 BJT Small Signal Models Chapter 12 Operational Amplifiers 12.1 Amplifiers Ideal Amplifier Characteristics 12.3 Active Filters 12.4 Integrator and Differentiator Circuits The Ideal Differentiator Chapter 15 Electronic Instrumentation and Measurements 15.1 Measurement Systems and Transducers Measurement Systems Sensor Classification Motion and Dimensional Measurements Force, Torque, and Pressure Measurements Flow Measurements Temperature Measurements 15.5 Comparator and Timing Circuits The Op-Amp Comparator 15.6 Other Instrumentation Integrated Circuits Amplifiers DACs and ADCs Frequency-to-Voltage, Voltage-to-Frequency Converters and PhaseLocked Loops Other Sensor and Signal Conditioning Circuits 15.7 Data Transmission in Digital Circuits The IEEE 488 Bus The RS-232 Standard Chapter 17 Introduction to Electric Machines 17.1 Rotating Electric Machines Basic Classification of Electric Machines Performance Characteristics of Electric Machines Basic Operation of All ...
Illinois Tech, MATH 149
Excerpt: ... <STUDYGUIDES08C.TXT> {5-9-2008} Math 149 Spring 2008 Final Study Guide, Part III - Chapter 6 Concept Check, p. 378: 1,2,3,4,5 Exercises: 1-6, 7-11, 12-16 Chapter 9 Concept Check, p. 598: 1 Exercises: 1, 3a, 7 ...
SUNY Canton, ELEC 221
Excerpt: ... Figure 3-1 Torque T = Fr. Theodore Wildi Electrical Machines, Drives, and Power Systems, 5e Copyright 2002 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved. Figure 3-2 Work W = Fd. Theodore Wildi Electrical Ma ...