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Assignment_1

Assignment_1 - D 1 = I D 2 = 1 mA V D 1 = 617 mV V D 2(ii(b...

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1/9/2012 EE 310 Electronic Circuit Design I Spring 2012 Assignment 1 Due: Friday, January 20, in class Diode Characteristics and Models Rectifier Circuits We examine the diode and its uses in circuit design. A brief review of diode models and analysis techniques is followed by a study of different circuit applications. This problem assignment covers basic diode analysis techniques and rectifier circuits. Reading Assignment (as specified in the Course Schedule) Sections 1.2 – 1.5, 2.1 – 2.1.2 Problem Assignment Do the following problems and submit them for grading by the due date: Chapter 1—Problems 41 (ii), 42 (a), 43, 45 (b), 47 (ii), 50, 53, 60 Chapter 2—Problems 3, 4 Note : Nominal values for device parameters, when needed, are provided at the front of the problem assignment. Answers to Selected Problems: 1.41 (ii) (a) I

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Unformatted text preview: D 1 = I D 2 = 1 mA, V D 1 = 617 mV, V D 2 (ii) (b) I = 557 mV D 1 = 91 A, I D 2 = 909 A, V D 1 = V D 2 1.42 (a) 1.917 V = 554 mV 1.43 (a) 26.7 A, 0.7 V (b) 0 A, 0.45 V 1.45 (b) 0 A I I 1.7 mA: V O = 1 k I I , I D 1.7 mA &amp;lt; I = 0 A; I 2 mA: V O = 1.7 V, I D = I I 1.47 (ii) (a) 220 A, 600 mV (b) 235 A, -300 mV (c) 376 A, 120 mV (d) 0 A, -5 V 1.7 mA 1.50 (a) R 1 = 2.35 k, I D 1 = 0.65 mA, I D 2 = 1.30 mA (b) I D 1 = 2.375 mA, I D 2 1.53 (b) I = 1 mA, v = 3.025 mA o / v s = 0.0909; I = 100 A, v o / v s = 0.50; I = 10 A, v o / v s 1.60 I = 0.909 SC = 200 mA, V OC 2.3 (a) 16.27 V (b) 8.14 mA (c) 48.7% (d) 5.06 V (e) 2.53 mA = 754 mV 2.4 (a) 1.2 (b) 27.6% Note: As you study the text, be sure to also solve the Exercise problems. 1/9/2012 1/9/2012 1/9/2012 1/9/2012 1/9/2012 Diode Value: V = 0.7 V...
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• Spring '10
• WHARTON,MARKJEDWARDS,PERRYSTO
• Circuit design, ANALYSIS TECHNIQUES, rectifier circuits, basic diode analysis, class Diode Characteristics, Models Rectifier Circuits

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Assignment_1 - D 1 = I D 2 = 1 mA V D 1 = 617 mV V D 2(ii(b...

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