Nice video! Compliments. One thing though, the resonance (or peak) is only gone with a Q < 1/sqrt(2). Everything above still will give a slight resonance. You don't want this Q to be very low, because that makes the whole filter act rather slow.
Dear Dr. Shirsavar, many thanks for the video. Due to the real estate problems, what is the negative consequences if we do not balance the inductor over the positive and negative rails?
Thank you for sharing this valuable contents, I have a question. In previouse video you mentioned that the out put impedance of filter is sqrt(L/C) which is constant, but in this videos you are saying that the output impedance of filter is function of frequency. Could please tell me how output impedance of filter is caculated. Thank you very much
In previous videos you show how LISN interacts with power supply loop gain... Now, with LC filter added to your power supply, what will happen when you connect it to LISN?
Sir you explained everything very beautifully but i am confused about the value of cutoff frequency. Sir when we design filter how do we choose cutoff frequency value ? Does it depends on switching frequency of the converter ?
Thank you very much for very informative EMC related videos . Can you please explain what does 180 degree phase shift have on the power supply . and what effect does Hi Q have on the power supply . when i say effect, i mean the physical effect on the output or opperation of the power supply . Many Thanks
It's a different topology to achieve the same result, if it has only 1 inductor you loose some of the high frequency attenuation compared to this topology.
good afternoon sir.I want to make an LC filter to reduce harmonics in 18 watt LED bulbs I use L 4.2H and C values 1.2uF But when I plugged it in there was a problem.the capacitor and the LED light are burnt. what is the solution to this problem sir?
That is if it is a *series* resonance, in this case it is a parallel resonace, since you are looking at the impedence from the output side of the filter.
Thank you for posting these. It's rare to find someone who can explain complex subjects very easily.
Literally exactly what i was searching for. Though i was gunna have to read a textbook or something THANKS
Thank you for the precious explanation, it's very simple to understand the concept...👍
Thank you for your effort sir. It was very informative!
Really really helpful! This is engineering, and design with procedures!
Very nice videos I can watch them as a fast reminder.
دمت گرم علی شیرسوار ، آموزش ها عالی هستن
Nice video! Compliments.
One thing though, the resonance (or peak) is only gone with a Q < 1/sqrt(2).
Everything above still will give a slight resonance.
You don't want this Q to be very low, because that makes the whole filter act rather slow.
really helpful...learnt a lot about EMI filter design
Beautiful explanation!
Very good series.
Hi Dr.Shirsavar,
i realy enjoy watchichg your videos, very well explained !
And i also like the star wars hints :).
Dear Dr., many thanks for the video. What is the negative effects if we do not balance the LC filter inductors over the input rails?
Dear Dr. Shirsavar, many thanks for the video. Due to the real estate problems, what is the negative consequences if we do not balance the inductor over the positive and negative rails?
Very good and explained videos!
great video, thanks Ali jan!
Thank you for sharing this valuable contents, I have a question. In previouse video you mentioned that the out put impedance of filter is sqrt(L/C) which is constant, but in this videos you are saying that the output impedance of filter is function of frequency. Could please tell me how output impedance of filter is caculated. Thank you very much
Thank you for this. I would like to ask in adding a damping High Loss Ecap . Is this possible on AC Line?
Hello! do you have video about EMI for power supplay (LLC 400W) ? in this case EMI vilter don't have to be damped ?
In previous videos you show how LISN interacts with power supply loop gain... Now, with LC filter added to your power supply, what will happen when you connect it to LISN?
Sir you explained everything very beautifully but i am confused about the value of cutoff frequency. Sir when we design filter how do we choose cutoff frequency value ? Does it depends on switching frequency of the converter ?
your cut off frequency will be, fc
Thank you very much for very informative EMC related videos . Can you please explain what does 180 degree phase shift have on the power supply . and what effect does Hi Q have on the power supply . when i say effect, i mean the physical effect on the output or opperation of the power supply . Many Thanks
Nice
I have seen filters with a resistor in parallel with the inductor. Does this behave the same?
It's a different topology to achieve the same result, if it has only 1 inductor you loose some of the high frequency attenuation compared to this topology.
good afternoon sir.I want to make an LC filter to reduce harmonics in 18 watt LED bulbs I use L 4.2H and C values 1.2uF But when I plugged it in there was a problem.the capacitor and the LED light are burnt. what is the solution to this problem sir?
Hmm, At resonance the impedance is at the minimum not as you said at the peak
At the Cut off frequency, the Impedance of the LC circuit should have it's Minimum (zero).
I agree, you get only resistance of the circuit.
well that is only if L,C are in series. Calculate the transfer function to get a better understanding and the bode plot will make more sense to you.
That is if it is a *series* resonance, in this case it is a parallel resonace, since you are looking at the impedence from the output side of the filter.
0:35 lol