Southwestern Indian Polytechnic Institute Advanced Technical Education Department Pre-Engineering Program Electronics I Lab Syllabus 1. Course/Lab Information: Course Number: ENGR 213/213L Course Title: Electronics I /Lab Credit Hours: 3/1 Lab Description: This Electronics I Lab, for ENGR 213, will introduce students to advanced electrical elements and provide practical applications for the semiconductor theory learned during the lecture. Students will learn to design and test digital gates, flip-flops, memory circuits, circuits employing operational amplifiers and analog-to-digital and digital-toanalog converters along with other elements such as bipolar and field-effect transistors and diodes. This lab not only provides needed hands on experience, but also emphasizes the development of troubleshooting skills using elementary circuit analysis methods. Prerequisite(s): ENGR 212/212L Co-requisite(s): ENGR 213L 2. Course/Lab Learning Outcomes: Upon completion of this course, the student should be able to: Demonstrate capability to execute Laplace transforms and inverse transforms; Apply transform techniques to simple circuits using transform of differential equation; Develop method of establishing s-domain equivalent circuits; Use elementary circuit analysis method to solve problem; Apply s-domain techniques to general circuit analysis techniques (mesh, node, etc.); Use network functions to analyze circuit behavior; Display circuit performance using generic test signals in combination with network functions; Describe circuit steady-state response over a range of frequencies using network functions and Bode diagrams; Perform Fourier series steady-state response analysis on circuits powered by periodic waveforms; Design filter circuits using transfer functions; Analyze and design transformer circuits; 1 Calculate the complex power in a sinusoidal steady-state; 3. Instructional Units: 1. Laplace Transforms 2. S-Domain Circuit Analysis 3. Network Functions 4. Frequency Response 5. Fourier Series 6. Active Filter Design 7. Mutual Inductance 8. Power in the Sinusoidal Steady-State 2 Electronics I Syllabus Fact Sheet 1. Course Information: Course Number: ENGR 213/213L Course Title: Electronics I/Lab Credit Hours: 3/1 2. Course Instructor: Instructor: B. Dean Pershall Office Location: Science and Technology Building, Room 247 Office Hours: Please check my office door for office schedule Telephone Number: (505) 346-7737 Email: dpershal@sipi.bia.edu 3. Course Specifics: Textbook: Microelectronic Circuits, 5th Edition, Adel S. Sedra and Kenneth C. Smith, Oxford University Press, 2004. Various supplemental handouts are also used. Supplies & Equipment: Equipment needed are as follows: HP 54603B Oscilloscope BK Precision 4040A (20MHz sweep) Function Generator Agilent 33120A Function Generator Agilent 34401A Digital Multi-meter Agilent E3631A Power Supply ELVIS Digital IC tester Model #AR-6000 Z meter (Sencore) Capacitors/ Inductors (various) Supplies and electric components will be provided by SIPI. 3 Evaluations: Chapter homework is assigned to provide practical experience in applying the concepts presented during lecture. Four quizzes consisting of problems taken from the homework will be given throughout the course to evaluate the student’s level of comprehension. There will be two major evaluations during the trimester, one at mid-term and another at the end of the trimester (final exam). A minimum of 3 days notice will be given for quizzes and exams. All quizzes and exams, unless otherwise announced, will be closed book/closed notes. A note sheet and an equation sheet (NO HOMEWORK) will be allowed for use during quizzes and exams. The Total Final Grade is computed on the following basis: Attendance: 5% Homework: 15% Quizzes: 30% Mid-Term Exam: 25% Final Exam: 25% Grading Policy: Method of calculating grade: A - 90 - 100 B - 80 - 89 C - 70 - 79 D - 60 - 69 F - 59 and under A grade of “C” or better is required for passing Electronics I. Students earning a grade of “D” or less are required to repeat the course. Make-Up Policy: Quizzes and exams must be taken within a week of the scheduled date. Late quizzes, exams, or homework will be assigned a 5-point penalty. Class Attendance Policy: The formal attendance policy is defined in the Student Handbook. Students are allowed five (5) hours of unexcused absences for both ENGR 213 and ENGR 213L. Any student exceeding this limit will be disenrolled according to the aforementioned policy. Course/Instructor Expectations: This course is comprised of textbook information as well as classroom notes. Students are expected to come to class prepared. It is imperative that students do the assigned reading and homework. Attendance is important for success in this course and will be monitored closely. School sponsored activities will be an excused absence if the instructor is notified prior to the 4 absence. It is the student’s responsibility to complete assignments either prior to the absence or within a predetermined time as agreed to by the instructor. Any student who displays chronic tardiness or absence will be disenrolled from this course. Please turn off all cell phones prior to entering the class or lab. Accommodations for Students with Disabilities: Southwestern Indian Polytechnic Institute complies with Section 504 of the Rehabilitation Act of 1973 and the Americans with Disabilities Act of 1990. Students who require academic accommodations due to any physical, psychological, or learning disability should request assistance from the Disability Services Coordinator within the first two weeks of class. Similarly, students who access campus facilities and potentially require emergency medical attention due to any chronic health condition are encouraged to disclose this information to the Disability Services Coordinator within the first two weeks of class. 5 Homework Assignments: Show All Solutions in Detail!! Chapter 9 Pages 439 – 443: Problems Chapter 10 Page 487 – 493: Problems Chapter 11 Page 545 – 550: Problems Chapter 12 Page 609 – 614: Problems Chapter 13 Page 644 – 648: Problems Chapter 14 Page 695 – 698: Problems Chapter 15 Page 722 – 725: Problems Chapter 16 Page 759 – 762: Problems 6 Lab Experiments: Week One: Lab 01 – Lab 02 – Week Two: Lab 03 – Week Three: Lab 04 – Week Four: Lab 05 – Week Five: Lab 06 – Week Six: Lab 07 – Week Seven: Lab 08 – Week Eight: Lab 09 – Week Nine: Lab 10 – Week Ten: Lab 11 – Week Eleven: Lab 12 – Week Twelve: Lab 13 – Week Thirteen: Lab 14 – Week Fourteen: Lab 15 – Special Remarks: Please keep your Lab area clean and neat, and return all parts to their appropriate area upon completion of each lab exercise. Please keep your Theory Textbook clean and in good repair for the other students who come after you. 7