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Unformatted text preview: ESE 271 Syllabus
Summer 2011 Prof. Thomas Robertazzi, instructor
Phone: 2—8412/8400, Email: tom@ece.sunysb.edu Ofﬁce: Room 219 Light Eng.
Ofﬁce Hours: Mon/Wed 1 to 2 PM. TA: Zhongwen Ying Ofﬁce hours: MonNVed 1 to 2 PM in TA room 208. Text: “Electric Circuit Analysis", 3rd edition, by Johnson, Johnson, Hilburn and
Scott..(Publisher: Wiley). Available at Stony Books (across from RR station) and
at campus bookstore. Problem Book: “Student Problem Set for Electric Circuit Analysis” by Conahan
for the Johnson and Johnson book. A combined text/problem book package is
available for sale (lSBN 0471375128). Syllabus See attached sheets. Grading:
Midterm: 45%, Final: 45%, Portfolio: 15% (5 Bonus Points). There may be some
extra credit on exams. Portfolio A set of portfolio problems is listed on the next few pages. The student should
submit an original handwritten solution for each portfolio problem and exercise.
Xeroxes are NOT acceptable. The portfolio problems are chosen from the
problems listed at the end of the text chapters (not from the Student Problem
Set) and the portfolio exercises are chosen from within the chapters. The
suggested additional problems (SP) are taken from the Student Problem Set and
should not be handed in. These SP problems are only assigned to provide some
guidance for home study. Old Exams Several semester’s worth of old exams and solutions are on Blackboard under
Course Documents. Note: If you have a physical, psychological, medical or learning olisabi/iqx that
may impact on your ability to carry out assigned course work, I would urge you
to contact the staﬁ' in the Disabled Student Services office (0525‘) 6316326748.
055 will review your concerns and detennine with you what accommodations are
necessary and appropriate. All information and documentation of disability are
conﬁdential the semester. SP: recommended problems from the Student Problem Set. Do not hand these in. Assigment 1: Basic concepts for resistive circuits; 2 lectures. Read Chapters 1 and 2. Portfolio: Probs. 1.15, 2.17, 2.49, 2.58; Exercise 2.7.1 (page 61).
SP: Chap 1, Probs. 1, 4, 9, 11, 14, 17. SP: Chap 2, Probs. l, 5, 7, 10, l4, 17, 20, 21, 25, 27, 31, 32, 33, 35. AssiEEent 2: Dependent sources and op amps: 3 lectures. Read Chapter 3. Portfolio: Probs. 3.10, 3.16, 3.17, 3.23, 3.31.
SP: Chap. 3, Probs. l, 3, 4, 5, 9, 10, 12, 25, 26. Assignment 3: Analysis methods: 6 lectures.
Read Chapter 4 and Appendix A.
Portfolio: Probs. 4.11, 4.21, 4.35, 4.45. SP: Chap. 4, Probs. l, 4, 6, 10, 11, l5, 17, 20, 26, 29, 31, 35, 43, 47. Assignment 4: Energy storage elements: 2 lectures. Read Chapter 5. Portfolio: Probs. 5.6, 5.15, 5.27; Exercises 5.7.2, 5.7.3 (page 195). SP: Chap. 5. Probs. '2. 3. 5, 10, ll, 16, l8, ‘20, ‘23, 28, 29, 30, 3'2, 37, 39. Assignment 5: P hasors: 3 lectures. Read Chapter 8 and Appendix B.
Portfolio: Probs. 8.13(a), 8.13(d), 8.14(d), 8.27, 8.41.
SP: Chap. 8, Probs. 1, 2, 3, 4, 5, 15, 16, 19, 20, 21, 23, 24, 25, 27, 30, 38, 44. Assignment 6: AC steadystate analysis: 4 lectures.
Read Chapter 9. Portfolio: Probs. 9.7, 9.13, 9.19, 9.21.
SP: Chap. 9, Probs. 1, 6, 11, 13, 15, 16, 20, 24, 25, 26, 29. Assignment 7: AC steadystate analysis (continued): 3 lectures.
Read Chapter 10. Portfolio: Probs. 10.4, 10.5, 10.13, 10.25, Exercise 10.5.1 (page 428).
SP: Chap. 10, Probs. 2, 3, 4, 5, 6, 8, 12, 13, 14, 16, 18, 29, 30, 31, 32. Assignment 8: Piecewise linear functions and delta functions. Read pages 234239 and 486493. Portfolio: Probs. 6.39, 6.40, 12.12(a), 12.13(a),(b),(d), 12.14, 12.16(a), 12.19.
SP: Chap. 6, Probs. 1, 3, 4, 5, 6, 9, 15, 16, 13, 21, 22. Assignment 9: Integrodiﬁerential equations for circuits: 1 lecture.
Read pages 273276 and 510511.
Portfolio: Probs. Just write the integrodifferential equations for 7.2, 7.7, 7.41, 7.43. SP: Chap 7, Probs. 1, 2, 3, 4, 9, 10, I5, 26. (Just write the integro—diﬂ'erential equations for the last four problems.) Assignment 10: Laplace transforms: 6 lectures. Read Chap. 12. Portfolio: Probs. 12.1, 12.10, 12.21, 12.27(b), 12.31(a),12.32(a). SP: Chap. 12, Probs. 1e, 1f, 111, 1 j (also ﬁnd regions of convergence), 4a., 5a., 5b, 63., 6b, 8c,
9C, 143., 15, 16b, 178., 17c, 19, 20, 21, 24, 25, 27. Assignment 11: Transformed circuits: 5 lectures: Read Chapter 13. Portfolio: Probs. 13.6, 13.15, 13.19, 13.27, 13.29, 13.49, 13.53, 13.55.
SP: Chap. 13, Probs. 2, 3, 5, 7, 8, 9, 11, 13, 14, 16, 18, 19c, 26, 31, 33. Assigment 12: Mutual inductance and transformers: 2 lectures. Read Chapter 15. Portfolio: Probs. 15.9, 15.11, 15.27, 15.29, 15.31. SP: Chap. 15, Probs. 1, 2, 3, 7, 8, 9, 15, 20, 21, 22, 32, 34, 35, 37. ESE 271 Topics for the First Exam (The numbers are references to pages in the textbook, Johnson, Johnson, Hilbum, and Scott.) Charge and current (pages 58), voltage, power, independent sources (915). Kirchhoff ’s laws (2229), Resistors, Ohm’s law (3033). Equivalent circuits (33—35), Series and parallel circuits, voltage and current division (3748).
Thevenjn’s and Norton’s equivalent circuits (48—54). Dependent sources (8083).
Practical and ideal operational ampliﬁers, realizations of dependent sources (83—89, 151— 154).
Basic blocks (92—97) and cascade connections of them (97402).
Matrix methods (793801). Linearity, proportionality, superposition (118127). Nodal analysis (127—137). Mesh analysis (138145). Mixed methods. Special methods for series~parallel networks. Superposition and power (420425 gives the AC version of this).
Maximum power theorem (425—427 gives the AC version of this).
Capacitors (174185). Inductors (185—193). ESE 271 Topics for the Second Exam (The numbers are references to pages in the textbook, Johnson, Johnson, Hilbum, and Scott.) Complex numbers (Appendix B: 803—809). Cosinusoids and phasors (317332). Currentvoltage laws, impedances and admittances (333342).
Kirchoﬂ’s laws and phasor circuits (342351). Series and parallel connections of impedances (360363).
Complex forms of Thevenin’s and Norton’s theorems (363—366).
AC nodal analysis (366372). AC mesh analysis (372377). Superposition for circuits with sources of different frequencies (377380).
Average power (402408). Power factor angle (432). RMS values (409412). Complex power (413420). Superposition and power (420425). Maximum power transfer (425427). Unitstep and piecewise linear functions (235239, 486488). Delta function and its derivatives (488—493). ESE 271 Topics for the Third Exam (The numbers are references to pages in the textbook, Johnson, Johnson, Hilbum, and Scott.) Integro—diﬁ'erential equations for RLC circuits (273276; see also 510511).
Continuity of capacitor voltages and inductor currents (193195). The Laplace transform—~the deﬁnition and some simple properties (480—484).
Some functiontransform pairs (486493). Differentiation and integration formulas (493495). Some operationtransform properties (496~502). Convolutions, their transforms, and solving convolution equations (541549).
Partial fraction expansions (503509). Kirchhoff ’s laws in the sdomain (520525). Transforms of elements with initial conditions (525529). Solving integrodifferential equations; transients in electrical circuits (509513).
Transfer functions (530534). Pole locations and stability (534539). Initial and ﬁnal value theorems (539540). ESE 271 Last Topics of the Course (The numbers are references to pages in the textbook, Johnson, Johnson, Hilbum, and Scott.) THE NONIDEAL TRANSFORMER: Mutual inductance (610615).
Circuits with mutual inductance (6164323). Transformers (624629). THE IDEAL TRANSFORMER:
Ideal assumptions and the ideal equations (629632).
Power transfer and reﬂected impedances (632635). ...
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This note was uploaded on 06/05/2011 for the course ESE 271 taught by Professor Zemanian during the Summer '08 term at SUNY Stony Brook.
 Summer '08
 ZEMANIAN

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