Analog Electronics ECE 3050
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This 0 page Class Notes was uploaded by Cassidy Effertz on Monday November 2, 2015. The Class Notes belongs to ECE 3050 at Georgia Institute of Technology - Main Campus taught by Staff in Fall. Since its upload, it has received 11 views. For similar materials see /class/233908/ece-3050-georgia-institute-of-technology-main-campus in ELECTRICAL AND COMPUTER ENGINEERING at Georgia Institute of Technology - Main Campus.
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Date Created: 11/02/15
ECE 3050 Spring 2004 Page 1 REVIEW FOR FINAL EXAMINATION The final examination will be given on Monday April 26 2004 from 250pm to 540pm in Room C341 of Van Leer Two pages of notes are permitted and if relationships you need are not available ask your instructorproctor The exam is closed book and will consist of approximately 7 problems of which 5 problems each worth 20 points for a total of 100 points must be worked The 7 problems will fall into two categories those you must work and those you may work Below is a list of the material for which you are responsible Amplifiers Voltage gain current gain power gain Two port models for amplifiers Amplifiers with finite source and load resistances Amplifier frequency response Lower and upper 3dB frequencies midband gain BW Input and output resistance of amplifiers perational Amplifiers Ideal op amp Analysis of circuits containing ideal op amps Inverting and noninverting amplifiers Other types of op amp circuits summing difference integrators first order circuits Cascaded amplifiers Frequency response of inverting and noninverting amplifiers cascaded stages Transistor Amplifiers The B T and FET amplifier Coupling and bypass capacitors midband gain analysis DC and ac analysis of amplifiers Small signal models diode B T MOSFET and JFET Small signal model parameters as functions of the large signal variables and model parameters Common emitter and common source transistor amplifier analysis voltage gain current gain input resistance and output resistance Single Transistor Amplifiers BJT common emitter common collector common base and common nothing voltage gain current gain input resistance and output resistance FET common source common drain common gate and common nothing voltage gain current gain input resistance and output resistance Designing transistor amplifiers Multistage Amplifiers AC coupled multistage amplifiers Direct coupled multistage amplifiers Differential amplifiers differential mode analysis common mode analysis CMRR