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EMTR - 1030

Electronics

Instructor: Dr. Wilson Wang, CB-4057, 766-7174

Email: Wilson.Wang@Lakeheadu.ca

Webpage: http://wwang3.lakeheadu.ca/emtr1030.htm

Lectures: 4:00-5:30PM, Tuesday & Thuesday, RB-1021

Teaching Assistant: Baby Attunuru <battunur@lakeheadu.ca>

Lab instructor: Albi Sojan , <asojan@laeheadu.ca>

Office Hours: 12:00-2:00PM Friday, or by appointment

Textbook:

1. Microelectronic Circuits, A. Sedra and K. Smith, Oxford University Press, 8th Edition, 2019

2.Teaching Notes

Objective:

This course covers topics in electronics and microelectronic circuits, including conduction in semiconductors; single-time constant networks; operational amplifiers; nonlinear circuit applications such as transistors, rectifiers, and digital logic circuits; bipolar junction transistors (BJT); DC biasing methods for BJT amplifiers; different AC configurations of single-stage transistor amplifiers; two-stage amplifiers; field-effect transistors; memory circuits, and CMOS logic design.

Student Learner Outcomes

Grading Policy:

Assignments: 15%;

Labs: 20%;

Midterm Exam: 20%;

Final Exam: 45%

Week	Topics	Readings	Notes
1	Introduction; Signals and amplifiers. Single-time constant networks	1.1-1.4. 1.6	Assignment 1
2	Ideal Op amps. Inverting and non-inverting Op amps	2.1-2.3
3	Semiconductors; Doping; pn junctions	3.1-3.4	Solution 1
4	pn junction with applied voltages. Ideal diodes	3.5-3.6. 4.1	Assignment 2
5	Diode modeling; Small signal models	4.2-4.3	Solution 2
6	Rectifier circuits	4.5-4.6
7	Reading Week		Assignment 3
8	MOSFET structures. Midterm Exam	5.1	Solution 3
9	NMOS, PMOS, CMOS.urrent-voltage characteristic.	5.1-5.2, 5.4	Assignment 4
10	MOSFET circuits at DC.BJT structures.	5.3. 6.1	Solution 4
11	BJT current-voltage characteristic	6.2-6.3	Notes
12	BJT circuits at DC.CMOS. CMOS digital logic circuits	6.4.16.1	Assignment 5
13	Memory circuits. Latches. Plip-flop. RAM. Transistor amplifiers	18.2-18.3. 7.1-7.3