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Course: EE 388, Fall 2009School: Rose-Hulman
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Rose-Hulman - EE - 388
EE 388 HW # 8 SolutionDesign the current source first. Constants for the problem Constants for the 2n5951 I DSSmin 7 . mA I DSSmax 13 . mA V Pmax 5.V V Pmin 2.V V EE 15 . V V CC 15 . VFirst Design the jFET with no Resistor Tolerance Specified Bias
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Vcc+V2 Vcc + Vcc +DC=15+V30Rc1 680Rc2 680 Vo CLDC=15-VeeQ2n3904 Q1 V1++ 1000u Q2 Q2n3904 + Rl 10k 0-AC=1 Phase=0+ 0Rx 47000Q3 Q4 Q2n3904 Q2n3904VeeEE388hw4p2.out * 02/08/100 16:16:12 * NT Evaluation PSpice (J
Rose-Hulman - EE - 388
This file designs a common-emitter amplifier to achieve a specified gain and voltage swing with specified resistor Tolerances and a range in transistor .RL1500 . ohm (1 5.% 5.% 5.% 125RLtol min5.%Swing RLmin max RS3 . volt (1 350 RLtol )
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Rose-Hulman - EE - 388
Rose-Hulman - EE - 339
Copyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterISO 124ISO124ISO124Precision Lowest Cost ISOLATION AMPLIFIERFEATURESq 100% TESTED FOR HIGH-VOLTAGE BREAKDOWN q RATED 1500Vrms q HIGH IMR: 140dB at 60Hz q 0.010% max NONLINEA
Rose-Hulman - EE - 339
Copyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. HerniterCopyright marc E. Herniter
Rose-Hulman - EE - 339
Copyright 2001 Marc E. HerniterCopyright 2001 Marc E. HerniterCopyright 2001 Marc E. HerniterCopyright 2001 Marc E. HerniterDM74LS151 1-of-8 Line Data Selector/MultiplexerAugust 1986 Revised March 2000DM74LS151 1-of-8 Line Data Selector/M
Rose-Hulman - EE - 339
Copyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterLM6121 LM6221 LM6321 High Speed BufferDecember 1994LM6121 LM6221 LM6321 High Speed BufferGeneral DescriptionThese high speed unity gain buffers s
Rose-Hulman - EE - 339
Copyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc
Rose-Hulman - EE - 339
Copyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc E. HerniterCopyright 1998 Marc
Rose-Hulman - EE - 339
PRECISION TEMPERATURETO -VOLTAGE CONVERTERSTC02 TC02 TC03 TC03 PRECISION TEMPERATURE-TO-VOLTAGE CONVERTERSFEATURESs s s s s s Linearized Temperature-to-Voltage Converters Direct Centigrade Output Voltage Scaling (TC03) Wide Temperature Measuremen
Rose-Hulman - EE - 339
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
EE 349 Lab GradesLab NumberLab NamePage #GradeInitials1 2 3 4 5 6 7 8 9 10
Rose-Hulman - EE - 349
Copyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E HerniterCopyright 1999 Marc E Hern
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
IV.Design of a Voltage ClampIn this lab we will design the circuit of Figure IV-1. The purpose of this circuit is to shift the output waveform positive while maintaining the same shape and peak-to-peak swing as the input waveform. The most negati
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc
Rose-Hulman - EE - 349
Copyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc E. HerniterCopyright 1999 Marc