Hello guys, can someone explain me what are the differences (and advantages) of using the inductor (1mH) in the power supply filtering section, rather than a normal resistor?
Thanks
I'm guessing it was a size consideration. You can make a low pass filter with the inductor alone, as opposed to needing a resistor and a capacitor. 1 component vs 2, and since all its doing is smoothing the power flow, don't need to worry about frequency response as much.
(I could be wrong, I've only got a surface level understanding of most of this voodoo)
Two reasons -
Inductors are more efficient than resistors - they don't dissipate heat like resistors.
Inductors give you a two-pole filter instead of the one-pole filter you get with resistors.
To find out more look up LC vs RC filtering
Quote from: madbean on August 08, 2017, 09:40:30 AM
Two reasons -
Inductors are more efficient than resistors - they don't dissipate heat like resistors.
Inductors give you a two-pole filter instead of the one-pole filter you get with resistors.
To find out more look up LC vs RC filtering
Thank you very much!! ;) ;)
Quote from: madbean on August 08, 2017, 09:40:30 AM
Two reasons -
Inductors are more efficient than resistors - they don't dissipate heat like resistors.
Inductors give you a two-pole filter instead of the one-pole filter you get with resistors.
To find out more look up LC vs RC filtering
Last question... does a second order low pass filter like this minimize ripple on the DC power more than a simple first order low pass would do?
Or maybe I should ask: "does a low pass filter affect the stability of the DC power minimizing the ripples? Or it just cut off the (noisy) high freq. content of the DC?" ???
Quote from: helos on August 09, 2017, 02:06:37 AM
Last question... does a second order low pass filter like this minimize ripple on the DC power more than a simple first order low pass would do?
Or maybe I should ask: "does a low pass filter affect the stability of the DC power minimizing the ripples? Or it just cut off the (noisy) high freq. content of the DC?" ???
Actually, I don't know. My gut says no. I'd have to look that up (or maybe we both should!)
Sure, I'm searching in my engineering books ;)
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Actually, I don't know. My gut says no. I'd have to look that up (or maybe we both should!)
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I've done some simulations and I had these results:
1) LC network filtering: if you have a very little spike in the supply voltage (like 0,01volts) you can see the output voltage swinging and after a while it return steady.
2) RC network filtering: if you have a spike of the same amount (0,01volts) the output voltage is just a little perturbed but it stays pretty much close to the nominal value of 9v.
I should say that, regarding the ripple reduction, the LC is not an improvement compared to an RC... what do you think?