Difference between revisions of "Lab 5 RS"
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So the resonance frequency is <math>\omega_0=\frac{1}{\sqrt{aaa\ \Omega\ bbb\ \mu F }} = ccc\ frac{rad}{sec}</math> | So the resonance frequency is <math>\omega_0=\frac{1}{\sqrt{aaa\ \Omega\ bbb\ \mu F }} = ccc\ frac{rad}{sec}</math> | ||
− | Or <math>f=frac{\omega_0}{2\pi} = ddd\ kHz</math> | + | Or <math>f=\frac{\omega_0}{2\pi} = ddd\ kHz</math> |
==Construct the LC circuit using a non-polar capacitor== | ==Construct the LC circuit using a non-polar capacitor== |
Revision as of 05:02, 1 February 2011
- LC Resonance circuits
The LC cicuit
Design a parallel LC resonant circuit with a resonant frequency between 50-200 kHz. use = 10 - 100 .
I choose the following values for
and :So the resonance frequency is
Or
Construct the LC circuit using a non-polar capacitor
Measure the Gain as a function of frequency. (20 pnts)
Measure the Gain when an external resistance approximately equals to the inherent resistance of the rf choke . (20 pnts)
Compare the measured and theoretical values from the resonance frequency ( ) and the Quality factor value for each case; . (10 pnts)
Questions
- If r=0, show that . (10 pnts)
- Show that at resonance . (10 pnts)
The LRC cicuit
- Design and construct a series LRC circuit.
- Measure and Graph the Gain as a function of the oscillating input voltage frequency. (20 pnts)
Questions
- What is the current at resonance? (5 pnts)
- What is the current as ? (5 pnts)