Difference between revisions of "Lab 4 RS"
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From the phasor diagram above (question 4) the angle between vectors <math>V_{in}</math> and <math>V_{out}</math> given by | From the phasor diagram above (question 4) the angle between vectors <math>V_{in}</math> and <math>V_{out}</math> given by | ||
− | <math>\Phi = \arctan \ (V_C/V_R) = =\arctan \left( \frac{I \left(\frac{1}{-\omega C}\right)}{IR} \right) = \arctan \left ( \frac{1}{ | + | <math>\Phi = \arctan \ (V_C/V_R) = =\arctan \left( \frac{I \left(\frac{1}{-\omega C}\right)}{IR} \right) = \arctan \left ( -\frac{1}{\omega RC} \right )</math> |
Revision as of 07:29, 27 January 2011
- RC High-pass filter
1-50 kHz filter (20 pnts)
1. Design a high-pass RC filter with a break point between 1-50 kHz. The break point is the frequency at which the filter's attenuation of the AC signal goes to 0(not passed). For a High pass filter, AC signals with a frequency below the 1-50 kHz range will be attenuated .
- To design low-pass RC filter I had:
So
2. Now construct the circuit using a non-polar capacitor.
3. Use a sinusoidal variable frequency oscillator to provide an input voltage to your filter.
4. Measure the input and output voltages for at least 8 different frequencies which span the frequency range from 1 Hz to 1 MHz.
0.1 | |||
1.0 | |||
2.0 | |||
3.0 | |||
4.0 | |||
5.0 | |||
6.0 | |||
7.0 | |||
8.0 | |||
9.0 | |||
10.0 | |||
11.0 | |||
12.0 | |||
15.0 | |||
20.0 | |||
30.0 | |||
40.0 | |||
50.0 | |||
100.0 | |||
200.0 |
5. Graph the -vs-
phase shift (10 pnts)
- measure the phase shift between and as a function of frequency . Hint: you could use as an external trigger and measure the time until reaches a max on the scope .
See question 3 about my phase shift measurements
Questions
1. Compare the theoretical and experimentally measured break frequencies. (5 pnts)
Theoretical break frequency:
The fit line equation from the plot above is
. From intersection point of line with x-axis we find:
The error is:
Error is pretty big. Probably is something wrong with RC measurements.
2. Calculate and expression for as a function of , , and .(5 pnts)
We have:
Dividing second equation into first one we get the voltage gain:
And we are need the real part:
3. Compare the theoretical and experimental value for the phase shift . (5 pnts)
The experimental phase shift is
The theoretical phase shift is
4. Sketch the phasor diagram for , , , and . Put the current along the real voltage axis. (30 pnts)
5. What is the phase shift for a DC input and a very-high frequency input?(5 pnts)
Because a DC circuit doesn't have any oscillation there are no any phase shift.
6. Calculate and expression for the phase shift as a function of , , and graph -vs . (20 pnts)
From the phasor diagram above (question 4) the angle between vectors
and given by
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