EGR 280 Design and Analysis of Electromechanical Systems

EGR 280 • Prerequisites: – EGR 240 • Corequisites: – EGR 250 or ME

EGR 280 • Text: Learning By Example Using C – Programming the HCS 12

Course Contents • Programming HCS 12 Microcontrollers Using C • Statics and Dynamics •

Course Objectives By the end of this course you should be able to: •

Course Objectives (cont. ) By the end of this course you should be able

Homework and Labs • Individual homework assignments • Group lab assignments done on the

Project Each group will • Design and implement an electromechanical device that will meet

Exams • • • Exam 1 Exam 2 Exam 3 No Final Exam Project

Grading • Homework and Labs • Projects 20% – Design – Written report –

Office Hours R. E. Haskell • • Tues. , Thurs. , 4: 00 –

Office Hours M. A. Latcha • • Tues. , Thurs. , 4: 00 –

Slides: 12

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EGR 280 Design and Analysis of Electromechanical Systems Prof. Richard E. Haskell 115 Dodge Hall Prof. Michael A. Latcha 109 Dodge Hall

EGR 280 • Prerequisites: – EGR 240 • Corequisites: – EGR 250 or ME 241 – EGR 260 or SYS 317

EGR 280 • Text: Learning By Example Using C – Programming the HCS 12 Microcontroller Using Code. Warrior by Richard E. Haskell Oakland University, 2006.

Course Contents • Programming HCS 12 Microcontrollers Using C • Statics and Dynamics • Design Project

Course Objectives By the end of this course you should be able to: • Write C programs to interface a microcontroller to external devices and to download the program to flash memory in a microcontroller using modern development tools. • Solve statics problems involving particles and rigid bodies. • Solve kinematic and kinetic dynamics problems involving particles and rigid bodies using Newton's Second Law, Work and Energy, and Impulse and Momentum principles.

Course Objectives (cont. ) By the end of this course you should be able to: • Explain and illustrate the basic concepts of engineering ethics and apply them in practice. • Work constructively in a multidisciplinary team to design, analyze, and describe an electromechanical system subject to specific constraints.

Homework and Labs • Individual homework assignments • Group lab assignments done on the mini. Dragon+ development board • Homework and lab assignments checked off by lab instructor during lab periods

Project Each group will • Design and implement an electromechanical device that will meet some specification. • Write a final report describing the design. • Make an oral presentation and demonstration to the class.

Exams • • • Exam 1 Exam 2 Exam 3 No Final Exam Project presentations and demonstrations: Mon. , April 23, 8: 00 - 11: 00 a. m.

Grading • Homework and Labs • Projects 20% – Design – Written report – Oral presentation 10% 15% 5% • • • Ethics quizzes Exam 1 Exam 3 5% 15% 100%

Office Hours R. E. Haskell • • Tues. , Thurs. , 4: 00 – 5: 00 p. m. ; 115 DH Phone: 248 -370 -2861 email: haskell@oakland. edu Web site: – www. cse. secs. oakland. edu/haskell – click on HC 12 Book and click EGR 280

Office Hours M. A. Latcha • • Tues. , Thurs. , 4: 00 – 5: 40 p. m. ; 109 DH Phone: 248 -370 -2203 email: latcha@oakland. edu Web site: – http: //personalwebs. oakland. edu/~latcha/