Welcome to the ENEE 610, Electrical Network Theory, Fall 2013, home page of R. Newcomb

  • Course Description updated 09/02/13 (file: 610desF13.pdf) here

  • Course Time Schedule updated 12/10/13 (file: 610timF13.pdf) here

  • Course Paper Choices updated 11/19/13 (file: 610F2013_pprs.pdf) here

  • Paper Presentation Schedule updated 10/10/13 (file: 610F13present_schd.pdf) here

  • Oral Presentation Information (file: 610F13pres_info.pdf) here

  • Term Paper Description (file: 610pprdes.pdf) here

  • Base Paper Report Grading Form (file: ee610rpt_grd.pdf) here

  • Final Exam study points, updated 12/14/13 (file: final_Study_Topics.pdf) here

  • Final Exam 12/19/13 (file: 610F13finalexm.pdf) here

  • Final Exam Solutions (file: 610Final_sols.pdf) here

  • Problems to consider as an aid to learning course material

  • Homework problems


  • Homework set #1 due Tu 09/17/13(file: 610F13hmwrk1.pdf) here

  • Homework set #1 solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk1_sols.pdf ) here

  • Homework set #2 (revised 09/18/13b) due Th 09/26/13 (file: 610F13hmwrk2.pdf) here

  • Homework set #2 solutions of Bethiya Prashan Senevirathna (file:610F13hmwrk2_sols.pdf ) here

  • Homework set #3 due Th 10/03/13 (file: 610F13hmwrk3.pdf) here

  • Homework set #3 - solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk3_sols.PDF) here

  • Homework set #4 due Th 10/10/13 (file: 610F13hmwrk4.pdf) here

  • Homework set #4 - solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk4_sols.PDF) here

  • Homework set #5 due Th 10/17/13 (file: 610F13hmwrk5.pdf) here

  • Homework set #5 - solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk5_sols.PDF) here

  • Homework set #6 due Th 10/24/13 (file: 610F13hmwrk6.pdf) here

  • Homework set #6 - solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk6_sols.PDF) here

  • Homework set #7 due Th 10/31/13 (file: 610F13hmwrk7.pdf) here

  • Homework set #7 - solutions of Bethiya Prashan Senevirathna (file: 610F13hmwrk7_sols.PDF) here

  • First class of Tu 09/03/13 organization

  • Lecture #1 of Th 09/05/13 [circuit graphs, cut & tie sets] (file: 610_090513.pdf) here

  • Lecture #2 of Tu 09/10/13 [{Spice info} Pin=0 for graph, component eqa.](file: 610_091013.pdf) here

  • Lecture #3 of Th 09/12/13 [# of trees, generic & semistate equations] (file: 610_091213.pdf) here

  • Lecture #4 of Tu 09/17/13 (transfer function from semistate) (file: 610_091713.pdf) here

  • Lecture #5 of Th 09/19/13 (initial conditions as sources, gyrator equivalents, start Yindefinite) (file: 610_091913.pdf) here

  • Lecture #6 of Tu 09/24/13 (indefinite Y to 2-port Y, duals) (file: 610_092413.pdf) here

  • Lecture #7 of Th 09/26/13 (Dual Circuit/Graph, Nullator/Norator, Loaded 2-port) (file: 610_092613.pdf) here

  • Lecture #8 of Tu 10/01/13 (Richards' function, PR functions) updated 10/03/13 (file: 610_100113.pdf) here

  • Lecture #9 of Th 10/03/13 (positive real condition) (file: 610_100313.pdf) here

  • Lecture #10 of Tu 10/08/13 (lossles immittance, Foster syntheses) (file: 610_100813.pdf) here

  • Lecture #11 of Th 10/10/13 (Cauer synthesis, Hurwitz property) (file: 610_101013.pdf) here

  • Lecture #12 of Tu 10/15/13 (RC synthesis, max flat T(s)) (file: 610_101513.pdf) here

  • Lecture #13 of Th 10/17/13 (maximally flat, state & synthesis for T(s)) (file: 610_101713.pdf) here

  • Lecture #14 of Tu 10/22/13 (Vo/Vi synthesis & pole shift for zero of transmission) (file: 610_102213.pdf) here

  • Lecture #15 of Th 10/24/13 (sensitivity via adjoint) (file: 610_102413.pdf) here

  • Lecture #16 of Tu 10/29/13 (S matrix and BR property) (file: 610_102913.pdf) here

  • Lecture #17 of Th 10/31/13 (S matrix properties & calculation via Ya) (file: 610_103113.pdf) here

  • Lecture #18 of Tu 10/05/13 (Ynew=TYT^T and PR lemma results) (file; 610_110513.pdf here

  • Lecture #19, Th 11/07/13 (synthesis from state equations) (file: 610_110713) here

  • Lecture #20, Tu 11/12/13 (synthesis of loaded vo/vi from state)(file: 610_111213.pdf) here

  • Items of interest:

  • The files cross listed below have various items of interest for the course.

  • Microsystems Lab VLSI design page at http://www.ece.umd.edu/~newcomb/mslab-vlsi.html click here

    Contains Spice models, MAGIC Layout tutorial, VLSI examples with PSpice version 8.0 evaluation cd added 09/10/06

    URL address, this page: http://www.ece.umd.edu/~newcomb/courses/fall2013/610/ENEE610_fall2013.html