ECE 480 Course Syllabus

Fall, 2008

Instructor: Erik Goodman
Office: 2308M EB
Phone: 355-6453, email: goodman@egr.msu.edu
Office hours: MWF 11:20 - 12:00 in 2308M EB

(other times by appointment)

Course Web Pages: http://www.egr.msu.edu/classes/ece480/goodman CHECK THESE FREQUENTLY!

ACCOMMODATION AVAILABLE: Michigan State University is committed to providing equal opportunity for participation in all programs, services and activities. Accommodations for persons with disabilities, with documentation from RCPD, may be requested by contacting Prof. Goodman or Prof. Strangas, as appropriate, at the start of the term and/or two weeks prior to the accommodation date (test, project, etc). Requests received after this date will be honored whenever possible.

A. Purpose of the course and course learning objectives

At the completion of this course, each student should have actively participated as a member of an engineering design team and made significant contributions to achieving the team's stated goal and objectives. Each design project should involve the collaborative development and evaluation of a "product" that contains an embedded computer. Students will also demonstrate individual competence in designing/building a digital circuit, programming a microprocessor, and writing a graphical user interface. Students will understand ethical and professional issues faced by engineers.

Specific team activities will include:

1. Preparing an engineering design proposal that has clearly stated specifications and design criteria, including realistic constraints, based on the problem area

presented to the group

2. Sharing in the day-to-day design activities and management of the project

3. Sharing in the presentation of oral and written reports

4. Sharing in the demonstration of results at key milestones during the life of the project

5. Evaluating the project's progress and outcomes against a clearly articulated set of criteria

At the completion of this course, each student will be able to:

1) describe various forms of technical communication and the reasons for using them;

2) write well-organized technical reports;

3) write a team proposal for a major design project and obtain approval;

5) comprehend appropriate content and style of oral presentations;

8) access relevant standards and interpret their meaning and application;

9) delineate the principal design criteria and constraints for an electrical or computer engineering design project—e.g., cost, size, power, environmental factors, reliability, safety, maintainability, and reusability;

10) describe and understand the overall engineering design process—e.g., project justification, identification of constraints, establishment of design criteria, establishment of timetables, identification/scheduling of critical path, the partitioning of work, project monitoring, and project evaluation;

11) describe and understand contemporary industry practices and trends with respect to electrical and computer engineering;

12) describe, understand, and apply key tools used in the overall electrical and computer engineering design process;

13) understand the benefits and potential problems of teaming, describe qualities and processes of effective teams, and describe the role of teamwork in system design;

14) acquire and understand information contained in contemporary technical literature—e.g., trade journals, magazines, books, conference proceedings, and supplier literature—about hardware components, software, design tools, third-party suppliers, etc.; and

15) browse the web to acquire information about electrical and computer engineering, software, design tools, third-party suppliers, etc.

B. Overview of the course format

The course is structured around four key activities, including (1) the completion of a team-based major engineering design project, (2) individual development of design and lab skills in a scheduled lab, (3) lectures and assignments on engineering ethics and professionalism, and (4) lectures and activities on electrical and computer engineering design.

The course places only minor emphasis on lectures by the professor. Instead, there is a strong emphasis on guiding the experiential learning of students, and on students teaching one another. The first 6 weeks of the course focus on formation of design teams and formulation of projects and project plans, and the last 9 weeks focus on design project work. Lectures focus on both technical issues and on teaming/ethics/professionalism issues.

Students will:

1. Attend lectures

2. Participate in class discussions

3. Give demonstrations and oral presentations about their team’s project

4. Write proposals, progress reports and a final report

5. Write individual papers – application note and professional self-assessment paper

6. Create web pages, a page for a brochure, and a CDROM disk

7. Build and test devices and systems, and deliver a completed prototype to their sponsor

8. Search for information and apply it

9. Extend their problem-solving skills

10. Maintain an "Engineering Project Notebook" of their design project activities

11. Participate in giving a technical lecture

12. Work in teams to share in the learning and to share in the work

13. Be responsible for "taskwork" and "teamwork"

14. Complete selected lab experiments/mini-projects in the first half of the course to become

familiar with the lab and its equipment

C. Design Team Composition

Design Teams:

Teams exist for the duration of the semester.
Each design team will be responsible for the design and completion of a design project.

i. There will typically be 4-6 members per design team (often 4). Projects involve an array of applications, technologies, and strategies. Short descriptions of the projects to be worked on in fall, 2008, can be viewed at "www.egr.msu.edu/classes/ece480"

A member of the ECE 480 faculty team will facilitate and evaluate the work of each design team.

Design Team “Non-Technical” Roles: (These roles are in addition to the technical responsibility you will have on your design team.) Individuals on a design team will have one of the following roles:

Management (manages project, including calling meetings, seeing that deadlines

are met, revising project plan in response to changing circumstances, etc.)

2. Web site (coordinates preparation and maintenance of the design team’s web site)

3. Document preparation (coordinates the preparation of documents including proposals, reports, posters, etc.)

4. Presentation/Lab coordination (coordinates the preparationf of presentations using

PowerPoint, posts on web site)

Prism Venture Partners Prize

ECE 480 design teams compete for the Prism Venture Partners Prize (Mr. William Siefert, an alumnus of ECE, is a General Partner in Prism Venture Partners). The prizes provide $1,500 for First Prize, $1,000 for Second Prize, and $500 for Third Prize, divided among the team members (via checks issued by MSU). Judging is done by a panel from industry who attend the final presentations, ask questions of the teams, and view posters and demonstrations. An additional award, the Professor’s Choice Award, which carries a cash prize of $1,000, is also recorded on a plaque outside the capstone lab.

D. Scheduled Laboratory

In the scheduled lab sections the students work individually and independently on four mini-design projects. The purpose of the lab is to improve lab skills and become acquainted with the ECE 480 lab equipment, to assure that all students possess certain basic competencies, to improve skills at finding and reading technical literature such as specification sheets, to get practice at working on some simpler design problems, to increase the student's confidence and independence in the lab, and to get some practice at using written and oral communication skills.

Lab design miniprojects: (labs start the first week of class)]

Week 1: With one lab partner, program a TI Digital Signal Processor (DSP)

Weeks 2-3: Build a timer (555)-based circuit: Use spec sheet, prototyping on

protoboard first, then putting on circuit board with solder.

Week 4-5: Program a PIC microcontroller using an ICD

Week 6-7: Write a GUI—in Visual C++, Visual Basic or Labview

E. Travel policy for students:

Some teams may wish to travel out of the greater Lansing area to the site(s) of their sponsors for meetings/tours, etc. That will be permitted subject to university travel policy. Each student MUST, in advance of each trip, file a travel authorization form with the Dept. of Electrical and Computer Engineering, available at the office, EB 2120. Some students may travel as passengers with other team members who drive, but all must file a travel authorization. If the trip is outside the greater Lansing area, the driver may turn in mileage, after the trip, and be reimbursed by university check, but that is the only travel expense that will be paid by the department.

F. Ordering parts for your design team projects

You will not be reimbursed for any parts ordered or purchased from any source except through the ECE Shop, unless you have in advance the WRITTEN permission of the ECE Shop staff to do so.

G. Course Grading Policy

1. Grades are based on both team performance and individual performance. Often, not all team

members receive the same grade, based on differences in their contributions to the team

and on differences in their performance on non-team-based activities in the course.

2. What affects your grade? You lose points:

By not attending class

By not attending team meetings

By not participating in class activities

By not participating in team activities

By not developing and documenting an identifiable and appropriate

"intellectual property/technical contribution" on your team’s project

By not completing class deliverables with a high standard of quality

By not completing scheduled lab deliverables

By not having a positive impact on team outcomes or course outcomes, as

demonstrated by your own reporting and by evaluations of your work

by faculty facilitator and fellow team members

By failing to demonstrate that you have fulfilled the course learning objectives

Please note that an identifiable "intellectual property/technical contribution" by each individual is required. The teams, as they plan their projects, will be asked to clearly divide the technical tasks and identify individual responsibilities for the technical portions of the team design project (not “web master”, “project management,” etc., roles, but technical responsibilities). Each individual will be required to submit an application note documenting his/her intellectual property/technical contribution to the project. In addition, all such technical contributions should be documented in each student’s engineering notebook – that means that the notebook should contain the drawings/schematics/etc., not words like “designed xyz circuit today.” The engineering notebook is NOT a “meeting log,” but rather the place where the student performs and thereby documents the technical work he/she has performed, signing it after each day’s entries (in industry, it would also be periodically witnessed, to assure its usefulness in documenting time of first creation/discovery of intellectual property). The Professional Self-Assessment paper turned in by each individual must also describe the student’s technical contributions to the project. Also, the facilitator should be briefed by each person at the meeting each week, so that the facilitator can clearly identify the technical contributions made by each individual during the semester.

3. Class and team meeting attendance are required. Unexcused absences will result in a reduction in your grade. An absence is excused if you notify the instructor prior to the class session (e.g., leaving a phone or email message), or if you notify the team leader in advance of the meeting. In both cases, a legitimate reason is required (for example, “In Cleveland for job interview with XYZ Company,” not “Out of town” or “Need to work that day.” In accordance with university policy, a valid medical excuse from the Olin Health Center allows an excused absence whether presented before or after the class session missed. You are responsible for the information discussed in the class or at the meeting. Each team will develop its own policy for governing excused absences from any team meeting.

4. You will be evaluated through the following graded activities:

Design team outcomes, reports, presentations, technical lectures, web pages, brochure page, demonstrations (progress and final), and final report
Other assignments: individual lab experiments (miniprojects)
Individual engineering design notebook, application note and professional self-assessment report
Final evaluations of your contributions to the project by your fellow team members
Participation in meetings with facilitator (documenting and demonstrating your technical and other contributions)

5. Your reports, technical lecture, presentations, and demonstrations will be reviewed for individual technical accomplishments and contributions, as well as for teamwork. Your personal engineering design notebook and in-class assignments will be key documents, recording your ideas and efforts as well as supporting other reporting requirements (such as the professional self-assessment and team progress reports). Although you will assess team members' performances as part of group processing, final assignment of grades is the responsibility of the instructor.

6. Communication Skills Practice: Each student will:

talk three times in an oral presentation before the class.

write 2 papers individually (application note and professional self-assessment).

participate in preparing 3 oral presentations during the semester.

be involved in a team.

participate in writing 6 team reports during the semester.

7. An approximate breakdown of the grading is:

15% Professional self-assessment paper, notebook and application note (individual)

5% Design issues paper (group)

20% Miniprojects (in scheduled lab)

60% Design project work (technical aspects-1/2, teaming-1/4, communications-1/4)

(Primary input comes from facilitator and teammates, with some from instructor and judges)

The overall grade is also reduced by unexcused absences beyond 2.

H. Estimated time required per student

Each student should plan on budgeting approximately 12 or more hours/week (3+ hours per credit) for this course on average. (Some weeks may require less time and some more time, particularly toward the end of the semester.) This includes:

- time spent in the classroom

- time spent completing homework/lab assignments/papers

- time spent in design team meetings

- time spent working individually on design project

- time spent on preparing for oral presentations

I. Class Meeting Time

ECE 480 meets on Monday, Wednesday, and Friday. Labs sections meet once per week, for 2 hours and 50 minutes. You are required to attend your lab section approximately the first 7 weeks of the semester, until you have completed all miniprojects. However, once you have completed and presented to the teaching assistant any particular miniproject, you need not attend lab until the scheduled date of assignment (beginning) of the next miniproject.

You should make every effort to reserve Monday evening from 7-10:00 p.m. for special meetings of your team, since no lab sections meet at that time, to guarantee some evening when all members are available. However, your regular weekly team meetings can be set for other days/times as appropriate. Your weekly meeting time with your facilitator must be scheduled for a time when all team members and the facilitator are available, before 5pm M-F.

J. Tentative Schedule of Deliverables throughout the Semester

Week 1: Miniproject #1 (in scheduled lab)

Week 3: Miniproject #2 (except final soldered board) (in scheduled lab)

Week 4: Preproposal & initial team webpage, soldered board due at beginning of lab

Week 5: Miniproject #3 (in scheduled lab), first DFSS assignment, Voice of Customer, due to Motter electronically, Wednesday

Week 6: Proposal – on paper and via oral presentation

Week 7: Miniproject #4 (in scheduled lab); second DFSS assignment (FAST diagram for your project) due electronically, Monday, to Motter;

team’s page for Design Day Program due to Goodman electronically, Friday

Week 8: (nothing to hand in this week)

Week 9: Two-page progress report (see guideline); demo for facilitator; photocopy

of each person’s engineering design notebook to facilitator

Week 10: Demo in lab of design project, for facilitator

Week 11-13: Student technical lecture (by team)

Week 11: Application note (individuals)

Week 12: Design issues paper to Goodman (team)

Week 12: Demo for facilitator, and second written progress report

Week 14: Professional self-assessment paper (answering specific questions, and

including one-page resume)

Week 15: Wednesday, Dec. 3: Final written report (7 printed copies + electronic) due to

Goodman for judges to read on Thursday. Web site should be finalized

for judges to examine Thursday.

Friday, Dec. 5: Design Day, final oral presentation, poster, demo, and judging.

All other deliverables due (CDROM containing deliverables, poster returned to 480 lab)

Finals Week, no later than Wednesday, Dec. 10, noon: Turn in all hardware, clean out

lockers, return team’s laptop PC, get signoff from ECE Shop, turn in to Goodman's mailbox

Estimated hours per week: (4 credits x 3-4 hours per credit) gives 12+ hours/week.