Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
P 4.18
m
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E
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400mm;
in E (V: LEVI) n
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1: 7 r. 7 v: 7 I so
Sol ' 100V 1A 5 + E 1
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Exam 2 Review Problems (Oct 20)
Problem 1
Problem 2.1 Draw a phasor diagram and show whether Ig leads
or lags the voltage across the resistor.
For the circuit shown below, the input voltage is =
80 cos (2000 + 300 ). Find the steadystate expressions for
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Exam1 Review
P1(a). Find Vo if Vs=10V and all resistors are 5 ohms.
P2. What value of do you need for the following circuit
to be valid? What is the power absorbed or delivered by
the current source?
P1(b). For the circuit above, find RTH, as seen by the
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
BMEN 3320.001
Exam1
Last Name:_
First Name:_
Exam 1 Solutions
Set 1
9/29/2016
BMEN 3320
1
Fall 2016
BMEN 3320.001
Exam1
Fall 2016
Please read all questions thoroughly.
You must show your work.
Ask for additional paper if you need any (staple them at the
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Homework 1
Chapter 2
Chapter 3
P 3.5 Always work from the side of the circuit furthest from the source. Remember that the current in all
seriesconnected circuits is the same, and that the voltage drop across all parallelconnected
resistors is the same.
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Homework 4 Solution
1) Textbook problem:
2) Textbook problem:
3) Textbook problem:
4) Textbook problem:
Problem 5 (25 points)
(a) [9 points] The node voltages for all the essential nodes (denoted as v1 to v8) are shown in the
circuit above. Using the node
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Homework 5
1. The derivations of the equivalent inductance expressions given by Equations (6.19) and (6.26)
are given in the textbook. Derive Equations (6.28) and (6.30) for equivalent capacitance
[HINT: see the hints in Problem 6.29 and 6.30]
For equatio
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
Course Syllabus
Course Information
Course Number: BMEN 3320
Section: 001
Course Title: Electrical and Electronic Circuits in Biomedical Engineering
Day/Time: Tuesday & Thursday: 8:30 am 9:45 am
Location: ECSS 2.203
Professor Contact Information
Dr. Tariq
Electrical and Electronic Circuits in Biomedical Engineering
BMEN 3320

Fall 2016
BMEN 3320: Project1
Goal: Perform research on a modern problem associated
with biomedical electronics and prepare a report
Total Points: 100 (counts 5% towards your final grade)
By October 14, 2016, form a team with 1 to 3 people and pick a
research top