Finding Vout/Vin of an RL filter

  • Thread starter Thread starter stude
  • Start date Start date
  • Tags Tags
    Filter
AI Thread Summary
To find Vout/Vin for an RL low-pass filter with R=9 ohms and L=76mH at an angular frequency of 1.6ωc, the correct approach involves using the formula Vout/Vin=Vr/√(Vr²+Vl²). The voltage across the resistor (Vout) is calculated as (IR), while Vin is the vector sum of the voltages across both components. The critical frequency relationship indicates that at ωc, the reactance equals the resistance, guiding the calculations. The discussion highlights the importance of correctly expressing Vout/Vin and considering phase shifts or dB ratios as potential requirements. Ultimately, the correct application of these principles leads to accurate results in analyzing the filter's performance.
stude
Messages
5
Reaction score
0
I need to find Vout/Vin for an RL filter. The filter in question is set up as low pass filter with a resistor of R=9 ohms, a inductance of 76mH and angular frequency of 1.6ωc.

To my knowledge Vin should be the vector sum of the voltages of each component so the equation would be Vin=√((IR)2+(IωL)2).

When trying to solve this problem I have set Vout as both the voltage of the inductor and the voltage over the resistor but neither of these has brought the correct answer
 
Physics news on Phys.org
Hi stude. http://img96.imageshack.us/img96/5725/red5e5etimes5e5e45e5e25.gif

Your formula for the magnitude of Vin is right. Vout is the voltage across R, i.e., between one end of the resistor and ground.

How could you recognize your answer as probably being correct, even if you weren't told the "correct" answer? (Remember, the variable here is ω.)
 
Last edited by a moderator:
I'm not sure what you're asking with the last line, it's online homework site so it tells me I'm wrong, I just don't know what to do to be right.
 
Maybe you aren't correctly expressing Vout/Vin? What are you writing? There won't be an "I" involved.

Or maybe they want the answer in dB? What exactly is the question the computer asks?

Quite possibly they are expecting you to specify the phase shift as well as magnitude change?
 
It asks "what is the ratio between the output and input voltage amplitudes" and then "Vout/Vin=" followed by a blank to answer in
 
Show your work in detail. We can find your mistake if we see what you have done. Note that the frequency is 1.6 times the cut-off frequency. What does it mean? ehild
 
Last edited:
Vout/Vin=Vr/√(Vr2+Vl2)

Vout/Vin=(IR)/√((IR)2+(IωL)2)

Vout/Vin=(I*9)/√((I*9)2+(I*1.6*ωc*0.076)2)

ωc=1/RC, I made the assumption that I could use 1/RL because my book doesn't actually address this kind of problem.

Vout/Vin=(I*9)/√((I*9)2+(I*1.6*1/(9*0.076)*0.076)2)

Vout/Vin=0.999
 
stude said:
Vout/Vin=Vr/√(Vr2+Vl2)

Vout/Vin=(IR)/√((IR)2+(IωL)2)

Vout/Vin=(I*9)/√((I*9)2+(I*1.6*ωc*0.076)2)

ωc=1/RC, I made the assumption that I could use 1/RL because my book doesn't actually address this kind of problem.


That is wrong. At the critical frequency, the reactance is equal of the resistance. If it is an RC circuit, XC=1/(ωC), and from XC=R ωc=1/(RC) follows.

If it is an RL circuit, XL=ωL, from XL=R, ωc=R/L follows.

ehild
 
  • Like
Likes 1 person
That was the trick, thanks a lot
 
  • #10
stude said:
That was the trick, thanks a lot

You are welcome.


ehild
 

Similar threads

Bandpass Filter Homework Statement
Replies
6
Views
2K
How to graph amplitude vs. frequency for a Low-Pass Filter?
Replies
3
Views
2K
AC Power RC series circuit low pass filter, find frequency given gain.
Replies
1
Views
5K
Trouble building a Buck Converter
Replies
14
Views
2K
Construct a low-pass filter and measure the gain
Replies
6
Views
5K
Solving a Series LRC Circuit with Complex Impedances
Replies
2
Views
6K
RC Circuit, what does it imply when resistance = capacitive reactance (R=Xc)?
Replies
2
Views
6K
Trouble with a Passive RC Twin-T Notch Filter
Replies
2
Views
5K
How does a high pass filter work?
Replies
10
Views
4K
Building a Buck Converter Using the LT1170
Replies
10
Views
2K

Hot Threads

Recent Insights

Back
Top