Difference between revisions of "Lab 17 RS"
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{| border="2" cellpadding="8" cellspacing="0" | {| border="2" cellpadding="8" cellspacing="0" | ||
− | |Characteristic | | + | |- |
+ | !scope="col" | Characteristic | ||
+ | !scope="col" | Symbol | ||
+ | !scope="col" | Min | ||
+ | !scope="col" | Max | ||
+ | !scope="col" | Unit | ||
|- | |- | ||
| Zero-Gate-Voltage Drain Current ||<math> I_{DSS}</math> || 2.0 || 20 || mAdc | | 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 | + | | Gate-Source Cutoff Voltage || <math>V_{GS(off)}</math> || - || -8.0 || Vdc |
− | |||
− | |||
|- | |- | ||
− | | | + | | Total Device Dissipation @ <math>T_A=25^oC</math> |
+ | | <math>P_{max}</math> | ||
+ | | colspan="2" | 350 | ||
+ | | mW | ||
|- | |- | ||
− | | | + | | Gait resistor |
+ | | <math>R_G</math> | ||
+ | | colspan="2" | 3.3 | ||
+ | | M<math>\Omega</math> | ||
|- | |- | ||
− | | | + | | Drain resistor |
+ | | <math>R_D</math> | ||
+ | | colspan="2" | 1.0 | ||
+ | | k<math>\Omega</math> | ||
|- | |- | ||
− | | ||<math>y_{ | + | | Forward Transfer Admittance || <math>y_{fs}</math> || 2000 || 7500 || <math>\mu</math>mhos |
|- | |- | ||
− | | ||<math>y_{ | + | | Input Admittance || <math>y_{is}</math> || - || 800 || <math>\mu</math>mhos |
|- | |- | ||
+ | | Output Conductance || <math>y_{os}</math> || - || 200 || <math>\mu</math>mhos | ||
|} | |} | ||
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− | [[File:Table04.png | | + | [[File:Table04.png | 550 px]] |
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=4.) Plot <math> I_D</math> -vs- <math>V_{GS}</math> (30 pnts)= | =4.) Plot <math> I_D</math> -vs- <math>V_{GS}</math> (30 pnts)= | ||
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− | [[File:L17 id vs vgs 21.png | | + | [[File:L17 id vs vgs 21.png | 800 px]] |
Latest revision as of 16:41, 13 April 2011
The JFET (Junction Field Effect Transistor n-channel)
File:JFET MPF102 DataSheet.pdf
1). Complete the table below for the JFET.
Characteristic | Symbol | Min | Max | Unit |
---|---|---|---|---|
Zero-Gate-Voltage Drain Current | 2.0 | 20 | mAdc | |
Gate-Source Cutoff Voltage | - | -8.0 | Vdc | |
Total Device Dissipation @ | 350 | mW | ||
Gait resistor | 3.3 | M | ||
Drain resistor | 1.0 | k | ||
Forward Transfer Admittance | 2000 | 7500 | mhos | |
Input Admittance | - | 800 | mhos | |
Output Conductance | - | 200 | mhos |
2.) Construct the JFET circuit below.
3.) Plot measurements of -vs- by varying for = 0, 0.5, 1.0, 1.5 V. (40 pnts)
I have used the following resistors:
Below is the table with my measurements of voltages
and and calculation of the current . Here I have used the meter to measure directly the voltage drop between the drain and source and to measure the voltage drop on resistor .So my calculated current becomes:
.
And below I have plotted four curves as function of for four different values of
4.) Plot -vs- (30 pnts)
For every measured
values I have picked up the current values in the middle of saturation region of each line as follow:
And below is my plot of -vs- :
5.) Calculate for your JFET (20 pnts)
For common source configuration JFET:
So to calculate
we need to know the functional dependence of . Lets approximate this function by line using my measurements and plot above:The line equation is:
Also note that this line equation was obtained using about the same voltage
in saturation region from my first measurements of as function of for four different values of . So we can take the partial derivative of with respect to using the line equation above. Finally,
Question
Does depend on ? (10 pnts)
No. As we can see from calculation above
is constant and does not depend from . That is true if we are working in saturation region where the functional dependence of with respect to is line so
If we are in active region of
as function of the functional form of with respect to is not the line anymore and will depend on .
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