Difference between revisions of "Lab 17 RS"
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<math>I_D[mA] = (10.53 \pm 0.04)[mA] + (4.04 \pm 0.04)\cdot V_{GS}[V]</math> | <math>I_D[mA] = (10.53 \pm 0.04)[mA] + (4.04 \pm 0.04)\cdot V_{GS}[V]</math> | ||
− | So | + | So, |
− | <math>y_{fs} \equiv \left ( \frac{\partial I_D}{\partial V_{GS}} \right ) = (4.04 \pm 0.04) \frac{mA}{V} = (4.04 \pm 0.04)\ mS</math> | + | <math>y_{fs} \equiv \left ( \frac{\partial I_D}{\partial V_{GS}} \right ) = (4.04 \pm 0.04)\ \frac{mA}{V} = (4.04 \pm 0.04)\ mS</math> |
=Question= | =Question= |
Revision as of 22:00, 10 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 | |
3.3 M | ||||
1.0 M | ||||
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:
So,
Question
Does depend on ? (10 pnts)
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