Difference between revisions of "Lab 23 TF EIM"

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#Measure <math>R_{out}</math> for the 10 fold and 100 fold amplifier  at ~100 Hz and 10 kHz frequency.  Be sure to keep the output (<math>V_{out}</math>) undistorted
 
#Measure <math>R_{out}</math> for the 10 fold and 100 fold amplifier  at ~100 Hz and 10 kHz frequency.  Be sure to keep the output (<math>V_{out}</math>) undistorted
  
=
+
= <math>V_{io}</math> and <math>I_{B}</math>=}
 +
 
 +
;<math>V_{out}= -\frac{R_1}{R_2} V_1 + \left ( 1 + \frac{R_1}{R_2}\right)V_{io}  + R_2 I_B</math>
 +
 
 +
Use the above equation and two measurements of <math>V_{out}</math>, <math>R_1</math>, and <math>R_2</math>  to extract <math>V_{io}</math> and <math>I_B</math>.
 +
 
 +
#measure V_{out} for <math>R_1</math> = 1 k<math>\Omega</math>, <math>R_2</math> = 100 k<math>\Omega</math>, and<math> V_{in}</math>=0 (grounded).
 +
#measure V_{out} for <math>R_1</math> = 10 k<math>\Omega</math>, <math>R_2</math> = 1 M<math>\Omega</math>, and<math> V_{in}</math>=0 (grounded).
 +
#You can now construct 2 equations with 2 unknowns <math>V_{out}</math> and <math>I_B</math>.
  
 
[[Forest_Electronic_Instrumentation_and_Measurement]]
 
[[Forest_Electronic_Instrumentation_and_Measurement]]

Revision as of 02:58, 3 November 2010

Inverting OP Amp

  1. Construct the inverting amplifier according to the wiring diagram below.
  2. insert a 0.1 [math]\mu[/math]F capacitor between ground and the OP power supply input pin.

Gain measurements

  1. Measure the gain as a function of frequency between 100 Hz and 2 MHz for three values of R_2 = 10 k[math]\Omega[/math], 100 k[math]\Omega[/math], 1M[math]\Omega[/math].
  2. Graph the above measurements with the Gain in units of decibels (dB) and with a logarithmic scale for the frequency axis.

Impedance

Input Impedance

  1. Measure [math]R_{in}[/math] for the 10 fold and 100 fold amplifier at ~100 Hz and 10 kHz frequency.

Output Impedance

  1. Measure [math]R_{out}[/math] for the 10 fold and 100 fold amplifier at ~100 Hz and 10 kHz frequency. Be sure to keep the output ([math]V_{out}[/math]) undistorted

= [math]V_{io}[/math] and [math]I_{B}[/math]=}

[math]V_{out}= -\frac{R_1}{R_2} V_1 + \left ( 1 + \frac{R_1}{R_2}\right)V_{io} + R_2 I_B[/math]

Use the above equation and two measurements of [math]V_{out}[/math], [math]R_1[/math], and [math]R_2[/math] to extract [math]V_{io}[/math] and [math]I_B[/math].

  1. measure V_{out} for [math]R_1[/math] = 1 k[math]\Omega[/math], [math]R_2[/math] = 100 k[math]\Omega[/math], and[math] V_{in}[/math]=0 (grounded).
  2. measure V_{out} for [math]R_1[/math] = 10 k[math]\Omega[/math], [math]R_2[/math] = 1 M[math]\Omega[/math], and[math] V_{in}[/math]=0 (grounded).
  3. You can now construct 2 equations with 2 unknowns [math]V_{out}[/math] and [math]I_B[/math].

Forest_Electronic_Instrumentation_and_Measurement