Difference between revisions of "Lab 14 RS"
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− | Also all my predicted values are in agreement with my measured DC voltage values except of the fact that my measured <math>V_{BE} = 0.683\ V</math> instead of <math>V_{BE} = 0.680\ V</math> as I initially assumed. That gives me the | + | Also all my predicted values are in agreement with my measured DC voltage values except of the fact that my measured <math>V_{BE} = 0.683\ V</math> instead of <math>V_{BE} = 0.680\ V</math> as I initially assumed. That gives me the correspondent corrections to <math>V_B</math>. But if I will consider only the one significant sign all my predicted and measured DC voltage values are in total agreement. |
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<math>I_1 = (588 \pm 1)\ uA</math> | <math>I_1 = (588 \pm 1)\ uA</math> | ||
<math>I_1 = (603 \pm 1)\ uA</math> | <math>I_1 = (603 \pm 1)\ uA</math> | ||
− | |||
==Measure the voltage gain <math>A_v</math> as a function of frequency and compare to the theoretical value.(10 pnts)== | ==Measure the voltage gain <math>A_v</math> as a function of frequency and compare to the theoretical value.(10 pnts)== |
Revision as of 03:17, 22 March 2011
The Common Emitter Amplifier
Circuit
Construct the common emitter amplifier circuit below according to your type of emitter.
Calculate all the R and C values to use in the circuit such that
- a. Try and
- b. mA DC with no input signal
- c. V
- d. to prevent burnout
- e.
- f. mA
Let's , and .
The load line equation becomes:
Draw a load line using the -vs- from the previous lab 13. Record the value of or .
On the plot below I overlay the output transistor lines (from the previous lab report #13) and the Load Line calculated above.
My reported values of
in lab report #13 was . But this because we have used the approximation because small resistor value was used.If we will do the accurate calculation of
based on my lab report #13 like
I will end up
with value:
Set a DC operating point so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
I will set up my operating point in the middle of the load line:
, .
Let's calculate all bias voltage needed to set up this operating point. Because the knowing of and is very important for this calculation I did the preliminary set up to measure this quantities. They are the only parameters which depends from transistor. I was able to find:
Now
To set up the operating point above we need to set up .
We have:
.
To get operating point independent of the transistor base current we want
Let's
So
And we can find from Kirchhoff Voltage Low:
.
and Kirchhoff Current Low:
So
I tried to adjust my calculation by varying the fee parameters and to get good values for resistors I can easily to set up.
Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
My predicted DC voltages are: (from the calculation above):
My measured DC voltages are:
Here is very important to set up all resistor values as close as possible to my assumed values.
After many tries and errors I was able to end up with the following values of my resistors:
And my measurements of DC voltages looks like:
All my measurements are in agreement with each other within experimental errors.
I mean here that
, and ,
Also all my predicted values are in agreement with my measured DC voltage values except of the fact that my measured instead of as I initially assumed. That gives me the correspondent corrections to . But if I will consider only the one significant sign all my predicted and measured DC voltage values are in total agreement.
Below are my current measurements which I did using millivoltmeter and which are also in agreement with each other and with all my previous calculation:
Measure the voltage gain as a function of frequency and compare to the theoretical value.(10 pnts)
Measure and at about 1 kHz and compare to the theoretical value.(10 pnts)
How do you do this? Add resistor in front of
which you vary to determine and then do a similar thing for except the variable reistor goes from to ground.
Measure and as a function of frequency with removed.(10 pnts)
Questions
- Why does a flat load line produce a high voltage gain and a steep load line a high current gain? (10 pnts)
- What would be a good operating point an an common emitter amplifier used to amplify negative pulses?(10 pnts)
- What will the values of , , and be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)
- What will the values of , , and be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts)
- Predict the change in the value of if is increased from 10 to 50 (10 pnts)
- Sketch the AC equivalent circuit of the common emitter amplifier.(10 pnts)
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