Organization
Classes: | L01: Tue/Thu 01:15PM-04:05PM & L01: Mo/Wed 01:00PM-03:50PM |
Room A-127 + TBD | |
Professor: | Jan C. Bernauer Office hours: Online via email (24/7, I’ll try to answer quickly), zoom (by appointment via email), or skype (janbernauer). Email: jan.bernauer (at) stonybrook.edu |
Teaching Assistants: | Julia Codere Email: julia.codere (at) stonybrook.edu James Shirk Email: james.shirk (at) stonybrook.edu Hongyi Huang Email: hongyi.huang (at) stonybrook.edu |
Description
All material is divided into units, covering related topics. Each unit may occupy from 2 to 5 lab periods. In groups of 2 (rarely 3), you will perform lab assignments. The instructions are linked below. For preparation, read the material covering the upcoming lab in the textbooks, design circuits required for the lab assignments and perform calculations. The time in the lab is limited, and extensions will only be granted under exceptional circumstances.
Most lab periods will start with a short lecture. Please be on time.
You must have two lab books. These books will contain your notes and data taken in the lab. After finishing a unit you will submit your lab book to your TA for grading, and use the second book for the next unit.
All students should make the best effort to participate equally in the experimental part. You will write separate lab reports after completion of each unit and submit them for grading along with your lab book. You may work on the report with your partner, but we require that both of you have ownership of the report — you need to be able to explain each part of it alone without your lab partners support. Any attempt to copy from other people’s reports or to make up data is academic misconduct and will lead to a zero grade and possible further action.
Please keep the lab clean and bring back components to the part racks and sort them in correctly. If a workbench is found untidy after class, points might be deducted. If you throw away working parts to clean up faster, points will be deducted.
There will be Midterm exam during the semester, and a final exam. Exams include a practical part, where you have to complete experimental tasks in the lab, and a written part, where you have to explain the relevant theory (for example, derivation of essential formulas), and perform data analysis. Take notes at mini-lectures to prepare for this. Each exam will resemble the lab period and the writing of the report, all combined in the interval of 1/2 a lab period. The exams are given in two shifts, so that each student will have to work on the exam problems on his or her own. Active and equal participation in experimental work and study of the material covered in mini-lectures during the course will prepare you for the exams. Sign-up sheets for each shift of the midterm (12:30-2:30 pm and 3:00-5:00 pm) will be posted in the lab 2-3 weeks in advance.
Lab reports
Lab reports can be handwritten if the handwriting is good. Preferably, they are however prepared on a computer, e.g. with latex, or Word. I highly recommend latex, for example with overleaf. The reports should include:
- Introduction
- 1 to 2 pages
- Include all relevant theory and equations
- i.e. generally those found in bold at the top of the lab instructions
- Data
- Data in the lab notebook should be also in the lab report.
- Draw circuit diagrams!
- Include error bars on plots, and data tables
- Analysis
- Must explain if the experiment was successful
- Does experiment agree with theory prediction?
- Include a discussion of statistical and systematical errors
- Short conclusion / summary
The introduction has to be written before the unit. The TAs or the Professor will sign below the text on the first day of the unit (make sure that it is signed before you leave!), and it will be graded along with the report by the TAs. Lectures for a unit will be given during the last day(s) of the unit before, so make sure to plan your experiment time accordingly. For Unit 1, the deadline for the intro will be the first day of the second week.
Note that the lab book will be part of the grading, so make sure that it contains all the data, schematics etc.
Grading
At least six units, the midterm and the final must be completed to pass this course. The grading is weighted as
60% Units + 20% midterm + 20% final . Details of the grading might change.
Academic Integrity Statement
Each student must pursue his or her academic goals honestly and be personally accountable for all submitted work. Representing another person’s work as your own is always wrong. Faculty is required to report any suspected instances of academic dishonesty to the Academic Judiciary. Faculty in the Health Sciences Center (School of Health Technology & Management, Nursing, Social Welfare, Dental Medicine) and School of Medicine are required to follow their school-specific procedures. For more comprehensive information on academic integrity, including categories of academic dishonesty please refer to the academic judiciary website at http://www.stonybrook.edu/commcms/academic_integrity/index.html
Text books
There will be no specific reading assignments from the textbooks. However, you should look in the section with a topic similar to each lab, read it, and understand it. I highly recommend Horowitz and Hill, The Art of Electronics (Cambridge University Press) , either the 2nd or 3rd edition. The table below will contain pointers to the relevant chapters.
Other books include:
- Curtis A. Meyer, Basic Electronics: An Introduction to Electronics for Science Students
- Hayes and Horowitz, Student manual for the Art of Electronics (Cambridge University Press, 1989)
- Rizzoni, Principles and Application of Electrical Engineering
- Alexander and Sadiku, Fundamentals of Electric Circuits
- J. R. Cogdell, Foundations of Electrical Engineering
Find a book which style suits you. The mini-lectures are not enough to cover the required topics.
Syllabus
Note that the syllabus and dates might change.
Unit | Subject | Lab Dates | Report due on | Additional material |
---|---|---|---|---|
0 | Introduction | 01/24+25 | ||
1 (pdf) | Lab instruments, signals, resistors | 01/26+27, 01/31+02/01, 02/02+03 | 02/9+10 | AoE Chapter 1.1 to 1.3 lecture |
2 (pdf) | Capacitors, Inductors, RC filters | 02/07+08, 02/09+10, 02/14+15 | 02/23+24 | AoE: Chapter 1.4 to 1.5,1.7 (6) lecture |
3 (pdf) | Diodes and DC power | 02/16+17, 02/21+22 | 02/28+03/01 | AoE Chapter 1.6, lecture |
4 (pdf) | Simulation and PCB design | 02/23+24, 02/28+03/01 | 03/07+08 | (no lab book required) lecture | 5 (pdf) | Operational amplifiers | 03/02+03, 03/07+08, 03/07+08, 03/09+10, 03/21+03/22 | 03/30+31 | AoE Chapter 4 lecture |
Midterms | Midterms, units 1-5 | 03/23+24 | ||
6 (pdf) | Transistors and Transistor circuits | 03/28+29, 03/30+31, 04/04+05, 04/06+07, 04/11+12 | 04/20+21 | AoE Chapter 2,3 lecture |
7 (pdf) | Digital electronics, TBD | 04/13+04/14, 04/18+19, 04/20+21, 04/25+26, 04/27+28 | 05/04+05 | AoE Chapter 10,(11),12.1-12.3, 13.1-13.5 (13.5-13.14) lecture |
Finals | (Units 1-7, focus on 6-7)) | 05/04+05 | Training on 05/02+03. old exam |
Additional Material
Additional material is available in this shared google drive folder
Available:
- Gnuplot tutorial 1: Video, data file, script file
- LTSpice tutorial: Video
- KICAD tutorial: Video
- Soldering tutorial: Video
Learning outcome
Students who have completed this course should
- Be familiar and be able work with the basic components of electronics.
- Be able to perform measurements with DMM and Oscilloscope.
- Be able to analyze simple circuits.
- Perform basic data analysis including error propagation.
Student Accessibility Support Center Statement
If you have a physical, psychological, medical, or learning disability that may impact your course work, please contact the Student Accessibility Support Center, Stony Brook Union Suite 107, (631) 632-6748, or at sasc@stonybrook.edu. They will determine with you what accommodations are necessary and appropriate. All information and documentation is confidential.
Critical Incident Management
Critical Incident Management: Stony Brook University expects students to respect the rights, privileges, and property of other people. Faculty are required to report to the Office of Student Conduct and Community Standards any disruptive behavior that interrupts their ability to teach, compromises the safety of the learning environment, or inhibits students’ ability to learn. Until/unless the latest COVID guidance is explicitly amended by SBU, during Spring 2022 “disruptive behavior” will include refusal to wear a mask during classes.