Spring 2015 – Electrical Engineering for Computer Scientists
CSCI-UA.0480-005 Syllabus
Special Topics: Electrical Engineering for Computer Scientists
Course Description
This course is for all CS students who have not had exposure to electrical and computer engineering (ECE) courses. The course will be taught at a sophomore math level (all sophomore ECE students take these subjects throughout the world). The class is designed to help CS students gain a fundamental understanding of ECE, and the types of problems that ECE students solve in circuit design, digital logic, and system theory. The course is designed to help CS students learn the very basic concepts of ECE, so that CS students can work side by side hardware or EE computer engineers while having an understanding of the most fundamental concepts of Electrical and Computer Engineering. Topics include: Passive DC circuit elements, Kirchoff’s laws, Ohm’s Law, electric power calculations, analysis of DC circuits, Nodal and Loop analysis techniques, voltage and current division, Thevenin’s and Norton’s theorems, Phasors and AC circuits, Digital Logic, System Theory, Decibel Measures.
Instructor
Theodore (Ted) S. Rappaport
tsr@nyu.edu
Office: 715 Broadway, Room 702; New York, New York 10003
Office Hours: Tuesdays and Thursdays 11:00am – 12:00pm
Update (Effective 3/18/2015): George MacCartney will teach Tuesday lectures and Sijia Deng will teach Thursday lectures
Course Schedule
Lecture: Tuesdays, Thursdays 9:30 am – 10:45 am
Room: CIWW 317
Update (Effective 3/18/2015): Homework due every Tuesday at the beginning of class
Update (Effective 3/18/2015): A 10-minute quiz every Thursday at the beginning of class
GTA
Sijia Deng
sijia@nyu.edu
Office: 715 Broadway, Room 702; New York, New York 10003
Office Hours: Monday 3:00 – 5:00 PM
Wednesday 1:00 – 3:00 PM
Friday 9:00 – 11:00 AM
George R. MacCartney Jr.
gmac@nyu.edu
Office: 715 Broadway, Room 702; New York, New York 10003
Office Hours: Tuesdays 11:00 AM – 12:00 PM
Textbook
Engineering Circuit Analysis
W.H. Hayt, J.E. Kemmerly, S.M. Durbin,
McGraw Hill, 8th Ed. 2012
Update (Effective 3/18/2015): Supplemental Course Notes will be used for all topics after Exam 3, including: Digital Logic, System Theory, and Decibel Measures material. These course notes will be posted 3 days prior to each lecture on the course webpage and on NYU Classes.
Grading Policy
Quizzes: 15% (lowest quiz score will be dropped)
Homework: 15% (Extra Credit 1 will replace a low homework score)
3 In-Class Exams: 45%
Final Exam: 25%
* Extra Credit 2 will replace a low homework score and a low quiz score.
Homework
Assignment 1: Assigned 01/29/15 Due 02/05/15
View HW 1 Due 02/05/15
View HW1 Solutions
Assignment 2: Assigned 02/03/15 Due 02/10/15
View HW 2 Due 02/10/15
View HW 2 Solutions
Assignment 3: Assigned 02/17/15 Due 02/24/15
View HW 3 Due 02/24/15
View HW 3 Solutions
Assignment 4: Assigned 02/24/15 Due 03/03/15
View HW 4 Due 03/03/15
View HW 4 Solutions
Assignment 5: Assigned 03/03/15 Due /03/10/15
View HW 5 Due 03/10/15
View HW 5 Solutions
Assignment 6: Assigned 03/ 24/15 Due 03/31/15
View HW 6 Due 03/31/15
View HW 6 Solutions
Assignment 7: Assigned 03/ 31/15 Due 04/07/15
View HW 7 Due 04/07/15
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Assignment 8: Assigned 04/07/15 Due 04/14/15
View HW 8 Due 04/14/15
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Assignment 9: Assigned 04/21/15 Due 04/28/15
View HW 9 Due 04/28/15
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Assignment 10: Assigned 04/28/15 Due 05/05/15
View HW 10 Due 05/05/15
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Assignment 11: Assigned 05/05/15 Due 05/12/15
View HW 11 Due 05/12/15
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Assignment 12 (Extra Credit): Assigned 05/10/15 Due 05/14/15
View HW 12 Due 05/14/15
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Quiz Solutions
View Quiz 1 Solutions
View Quiz 2 Solutions
View Quiz 3 Solutions
View Quiz 4 Solutions
View Quiz 5 Solutions
View Quiz 6/ Bonus Solutions
View Quiz 7 Solutions
View Quiz 8 Solutions
View Quiz 9 Solutions
View Quiz 10 Solutions
View Quiz 11 Solutions
View Quiz 12 Solutions
Exam 1
View Exam 1
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Exam 2
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Exam 3
View Exam 3
View Exam 3 Solutions
Final Exam
View Final Exam
View Final Exam Solutions (Short Solution)
View Final Exam Solutions (Long Solution)
Course Outline
Resistors in Series and Parallel; Voltage and Current Division
Date | Topic | Reading Assignments | Lecture Notes | Important Events in Class |
1/27 | Blizzard Break | |||
1/29 | SI Units; Current, Voltage, and Power; Voltage and Current Sources (Dependent and Independent) | Pg. 1-21 | View Notes | |
2/3 | Networks and Circuits; Ohm’s Law; Conductance; Kirchhoff’s Current Law; Kirchhoff’s Voltage Law | Pg. 21-46 | View Notes | |
2/5 | Single-Loop Circuit; Single-Node-Pair Circuit; Series and Parallel Connected Source | Pg. 46-55 | View Notes | HW 1 is due assigned 1/29/15 |
2/10 | Resistors in Series and Parallel; Voltage and Current Division | Pg. 55-78 | View Notes | HW 2 is due assigned 02/10/15 |
2/12 | In-Class EXAM 1 (one 3½x5” index card, double sided crib sheet) | Download sample exams | ||
2/17 | Resistors in Series and Parallel; Voltage and Current Division | Pg. 55-78 | View Notes | |
2/19 | Nodal Analysis; Supernode; using MATLAB in solving linear equations. | Pg. 79-91 Appendix I & II |
View Notes | |
2/24 | Mesh Analysis; Supermesh; Nodal VS. Mesh Analysis: A comparison | Pg. 92-122 Appendix I & II |
View Notes | HW 3 is due assigned 02/17/2015 |
2/26 | Linearity and Superposition; Practical Source and Source Transformations | Pg. 123-140 | View Notes | |
3/3 | Thevenin and Norton equivalent Circuits | Pg. 141-151 | View Notes View Notes 2 View Supplementary Lecture Notes |
HW 4 is due assigned 02/24/15 |
3/5 | Maximum Power Transfer; Delta-WYE Conversion; Review of Thevenin and Norton equivalent Circuits | Pg. 141-174 | View Notes |
Matlab tutorial PSpice Tutorial PSpice Tutorial 2 |
3/10 | Review of practical sources, source transformations, Thevenin, Norton, Delta-Y, and maximum power transfer. Capacitor; Inductor. | Pg. 141-174 Pg. 217-234 |
View Notes | HW 5 is due assigned 03/03/15 |
3/12 | In-Class EXAM 2 (two3½x5” index cards, double sided crib sheets) | |||
3/17 | Spring Break | |||
3/19 | Spring Break | |||
3/24 | Capacitor; Inductor | Pg. 217-234 | View Notes | |
3/26 | RL and RC Circuits; Natural and Forced Response | Pg. 261-289 | View Notes | |
3/31 | Driven RL Circuits; Unit-Step Function | Pg. 275-294 | View Notes | HW 6 is due assigned 03/24/15 |
4/2 | Driven RC Circuits, Review | Pg. 295-320 | View Notes | |
4/7 | Review of RL and RC Circuits; Sinusoid, Steady State, Forcing Function | Pg. 374-394 | View Notes | HW 7 is due assigned 03/31/15 |
4/9 | Phasor, Impedance and Admittance | View Notes | ||
4/14 | Review of Chapter 7, Chapter 8, and Chapter 10 | View Notes | HW 8 is due assigned 04/07/15 | |
4/16 | In-Class EXAM 3 (three3½x5” index cards, double sided crib sheets) | |||
4/21 | Digital and Boolean Logic Part | Pg. 1-13, 18-24, 25-51, 79-96, and 183-224 Reading Material |
View Notes | |
4/23 | D-flip flop, Karnaugh Maps | View Notes | ||
4/28 | Linear Systems, Impulse Response, Sampling, and Quantization | Reference 1 Reference 2 |
View Notes | HW 9 is due assigned 04/21/15 |
4/30 | Review of LTI Systems, Impulse Response, and Convolution | View Notes | ||
5/5 | Frequency Response, Transforms, Sampling Theorem, and Filtering | Reading Material Fourier Transform Table and Properties |
View Notes | HW10 is due assigned 04/28/15 |
5/7 | Decibels and Review of Frequency Response | View Notes | ||
5/12 | Review of course | HW11 is due assigned 05/05/15 | ||
5/14 | Final Exam – 8:00 AM to 9:50 AM, Room WWH 317 | HW12 is due assigned 05/10/15 |