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Course: EE 349, Fall 2009School: Rose-Hulman
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349 EE Lab Grades Lab Number Lab Name Page 2 # Grade Initials 1 3 4 5 6 7 8 9 10
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349 EE Lab Grades
Lab Number
Lab Name
Page 2 #
Grade
Initials
1 ...
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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
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
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
EGR349 Power Supply Design ExampleThis file solves the equations for designing a power supply with a voltage regulator. Specify the output voltage and current V supply 5 . volt I supply 0.3 . ampAssume a full-wave rectifier T 1 . sec 120 2 . .
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 349
Rose-Hulman - EE - 188
EE 188 HW9 SolutionM( x) Re ( x )2Im( x ) 2ang ( x )arg( x ) .360 2. MP ( M , ) . 2. M . exp j . 360Constants for the problemV inMP ( 115 , 0 ) . VF60 . Hz2. . FProblem 1:Z MP ( 27 , 32 ) . A) Power absorbed before
Rose-Hulman - EE - 188
Rose-Hulman - EE - 188
Rose-Hulman - EE - 188
Rose-Hulman - EE - 188
Rose-Hulman - EE - 188