Massachusetts Institute of TechnologyDepartment of Electrical Engineering and Computer Science6.002 – Circuits & ElectronicsSpring 2004Quiz #124 February 2004Name:• Please put your name in the space provided above, and circle the name of yourrecitation instructor together with the time of your recitation.• Do your work for each question within the boundaries of the question. When finished,write your answer to each question in the corresponding answer box that follows thequestion.• This is a closed-book quiz, but calculators are allowed.• Graded quizzes will be returned in recitation on Friday February 27. If you do notattend recitation on that day, then it is your responsibility to get your quiz from yourrecitation instructor. You will have until recitation on Friday March 12 to requesta quiz grading review, regardless of whether or not you attend recitation on FridayFebruary 27 and take back your quiz. If you wish to have your quiz grade reviewed,you must return your quiz to your recitation instructor, within the two week period,together with a written explanation of why you think a grading mistake was made.This is the only way in which a quiz grade will be reviewed.• Good luck!Problem 1 Problem 2 Problem 3 Problem 4 Total GradeCite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].Problem 1 – 40%This problem involves a network that is implemented with three resistors and a voltagesource as shown below. Its terminal characteristics are also given graphically below.+_viVS2R2RRNetwork3V-1.5 mAiv(1A) From the graphical data given above, determine numerical values for the parametersof the Thevenin equivalent of the network.VTH: RTH:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].(1B) Determine numerical values for the parameters VSand R that characterize the imple-mentation of the network shown above.VS: R:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].(1C) The network is connected to an external current source and resistor as shown below.Determine the value of its terminal voltage v given the external connection.Network 3 mA4 kΩ+_vv:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].(1D) A load resistor is connected across the terminals of the network. Determine thevalue of load resistance that will result in the maximum power dissipated in the loadresistor. Also determine the maximized load power.Load Resistance: Load Power:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].Problem 2 – 20%Determine the current i in the network below.6 V3 A4 Ω4 Ω1 Ω3 Ω4 Aii:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].Problem 3 – 10%The network shown below has two nodes with unknown node voltages e1and e2. Carry outa node analysis and determine two node equations that can be used to determine e1and e2.You need not solve the equations.V1V2IR1R2R3R4R5R6e1e2Eqn #1:Eqn #2:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].Problem 4 – 30%A nonlinear resistor having terminal voltage vNRand terminal current iNRis connected toan external network as shown below. The terminal characteristics of the nonlinear resistorare also given graphically below. Note carefully the scales of the graph, volts and milliamps,and the location of its origin.VNonlinear ResistorRiNRvNR+_−1 −0.5 0 0.5 1 1.5 2 2.5 3−1−0.500.511.52vNR [V]iNR [mA]Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].(4A) Assume that V =2VandR = 4 kΩ in the external network. Using the graphicalterminal characteristics of the nonlinear resistor, determine vNRand iNR. Hint: drawa load line for the external network on the graph given above.vNR: iNR:(4B) Assume now that V =(2+0.1sin(t)) V and R = 4 kΩ in the external network. Inthis case, vNRwill be given approximately by vNR≈ A + B sin(t). Using the terminalcharacteristics of the nonlinear resistor determine A and B.A: B:Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].Extra copy of the figure for Problem 4−1 −0.5 0 0.5 1 1.5 2 2.5 3−1−0.500.511.52vNR [V]iNR [mA]Cite as: Anant Agarwal and Jeffrey Lang, course materials for 6.002 Circuits and Electronics, Spring 2007. MIT OpenCourseWare (http://ocw.mit.edu/), Massachusetts Institute of Technology. Downloaded on [DD Month
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