Difference between revisions of "Lab 17 RS"

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1.) Complete the table below for the JFET.
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=1). Complete the table below for the JFET.=
  
  
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2.) Construct the JFET circuit below.
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=2.) Construct the JFET circuit below.=
  
 
[[File:TF_EIM_Lab17Circuit.png| 300 px]]
 
[[File:TF_EIM_Lab17Circuit.png| 300 px]]
  
3.) Plot measurements of <math>I_D</math> -vs- <math>V_{DS}</math> by varying <math>V_{dd}</math> for <math>\left | V_{GS}\right |</math> = 0, 0.5, 1.0, 1.5 V. (40 pnts)
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=3.) Plot measurements of <math>I_D</math> -vs- <math>V_{DS}</math> by varying <math>V_{dd}</math> for <math>\left | V_{GS}\right |</math> = 0, 0.5, 1.0, 1.5 V. (40 pnts)=
  
  
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  <math>R_D = (0.968 \pm 0.002)\ k\Omega</math>
 
  <math>R_D = (0.968 \pm 0.002)\ k\Omega</math>
  
Below is the table with my measurements of voltages <math>V_{DS}</math> and <math>V_{R_D}</math> and calculation of the current <math>I_D</math>. Here I have used the meter to measure directly the voltage drop between the drain and source <math>V_{DS}</math> and to measure the voltage drop on resistor <math>R_D</math>. And my current <math>I_D = /frac{V_{R_D}}{R_D}</math>  
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Below is the table with my measurements of voltages <math>V_{DS}</math> and <math>V_{R_D}</math> and calculation of the current <math>I_D</math>. Here I have used the meter to measure directly the voltage drop between the drain and source <math>V_{DS}</math> and to measure the voltage drop on resistor <math>R_D</math>. And my current <math>I_D = \frac{V_{R_D}}{R_D}</math>  
  
  
  
  
4.) Plot <math> I_D</math> -vs- <math>V_{GS}</math> (30 pnts)
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=4.) Plot <math> I_D</math> -vs- <math>V_{GS}</math> (30 pnts)=
  
5.) Calculate <math>y_{fs}</math> for your JFET (20 pnts)
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=5.) Calculate <math>y_{fs}</math> for your JFET (20 pnts)=
  
 
=Question=
 
=Question=

Revision as of 04:47, 10 April 2011

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The JFET (Junction Field Effect Transistor n-channel)


File:JFET MPF102 DataSheet.pdf

JFET MPF102 Pinouts.png


1). Complete the table below for the JFET.

Characteristic Symbol Min Max Unit
Zero-Gate-Voltage Drain Current [math] I_{DSS}[/math] 2.0 20 mAdc
Gate-Source Cutoff Voltage [math]V_{GS(off)}[/math] - -8.0 Vdc
[math]P_{max}[/math]
[math]R_G[/math] 3.3 M[math]\Omega[/math]
[math]R_D[/math] 1.0 M[math]\Omega[/math]
[math]y_{fs}[/math]
[math]y_{is}[/math]
[math]y_{os}[/math]


2.) Construct the JFET circuit below.

TF EIM Lab17Circuit.png

3.) Plot measurements of [math]I_D[/math] -vs- [math]V_{DS}[/math] by varying [math]V_{dd}[/math] for [math]\left | V_{GS}\right |[/math] = 0, 0.5, 1.0, 1.5 V. (40 pnts)

I have used the following resistors:

[math]R_G = (3.34 \pm 0.02)\ M\Omega[/math]
[math]R_D = (0.968 \pm 0.002)\ k\Omega[/math]

Below is the table with my measurements of voltages [math]V_{DS}[/math] and [math]V_{R_D}[/math] and calculation of the current [math]I_D[/math]. Here I have used the meter to measure directly the voltage drop between the drain and source [math]V_{DS}[/math] and to measure the voltage drop on resistor [math]R_D[/math]. And my current [math]I_D = \frac{V_{R_D}}{R_D}[/math]



4.) Plot [math] I_D[/math] -vs- [math]V_{GS}[/math] (30 pnts)

5.) Calculate [math]y_{fs}[/math] for your JFET (20 pnts)

Question

  1. Does [math]y_{fs}[/math] depend on[math] I_D[/math]? (10 pnts)



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