What is Phase Lock Loop (PLL)? How Phase Lock Loop Works ? PLL Explained

The timestamps for the different topics covered in the video:
0:20 Applications of Phase Lock Loop
1:24 How Phase Lock Loop Works
3:30 Capture Range and Lock Range of PLL
5:11 How Phase detector works? XOR Gate as Phase Detector
9:30 Phase Frequency Detector
13:41 PLL as Frequency Synthesizer

thank god i found your channel, understood ever bit of it. And you had videos on every topic related to my queries, cant thank you enough, Keep growing

Haven’t seen this stuff in years. Very clear. Thank you!

You are a great electrical engineer and teacher. I never understood how an RC circuit could be a resonant circuit, such as in the Wein Bridge. I only understand how LC circuits, with the flywheel effect, can be resonant frequency tank circuits.

Good video explaining the basic components of the PLL, my lecturers literally just assume you get it without explaining anything!

A really great video on phase locked loops ! Thank you for sharing.

Your videos are how I pass my assignments

Much needed video on speech locked loop

This channel needs 1 Million subs....Agree??????:):):):)

much better than my college lecturers . College was a waste

Thank you very much for your contents. I am a computer engineer with a passion for the electronics and I decided to pursue my career as Firmware engineer. Fortunately with your contents, I am having the opportunity to understand each possible component of a micro. Please, keep going 😀

Thank you very much for the clear explanation.

Thank you sir very nice gide & very nice best information phase lock loop (PLL) teaching video.👍

Well done on explaining PLL!

very good explanation, thanks for clarifying my doubt

Thanks you very much sir, keep doing ece subjects tutorials.

such a crystal clear explanation sir.thank you

Awesome explaination ..helped to prepare for interview

As always excellent. Phase detectors ate also used in instrumentation. I never could figure how phase sensitive demodulation works when the input is an analog signal, like in signal conditioning for an accelerometer.

Excellent demonstration!

Thanks man, it was very nice and easy to understand :)

Great things I got more knowledge and understand about electronics... Thanks lot

The last topic about the frequency synthesizer does not make sense to me. For example, you say that the PLL can be used to divide the input frequency by N. Yet, this requires a frequency divider to be placed before the phase detector. The output of this frequency divider is the same as the output of the PLL. In other words, if I remove the PLL and keep the frequency divided, I can still get a signal whose frequency is divided by N. So, what's the point of the PLL in such a situation ??
Thanks for the explanation though!

Great really it was needed

Very clear video and content.
Thanks

Great explanation, thank you !

Beautiful and clear lecture !
However I see saturating race issue on both FET if the AND gate is slow when both UP and DOWN are High logic.
If the and gate is slow, and both UP and DOWN logic are high,
there is fraction of time with a short circuit between Vdd to Vss trough saturation of both P_fet to N_fet.
I would add to both P_fet and N_fet sources a low value serial resistor like ~50 Ohm to damp the overcurrent in case of any AND gate issue as protection against short circuit and cause possible overstress to fet /damage.
Best Regards
Jose Tal

master You are the best

Really Useful. Thanks for such clear explanation

Thank You, Sir!

Thank you for the clear explanation sir!

Awesome explaination

This was really good explanation! Thanks!

EXCELLENT VIDEO, IT IS EXCITING TO VIEW, KEEP IT UP

Thank you so much for this knowledge sharing

Very lucid explanation.

thanks, very good video!

Your videos are more informative than my college professor's lecture.
Suggestion: You must use a bright and big cursor(bigger than the present one) because it is unable to find at where you are pointing on the screen.
👍

thanks u amigo

Very good explanation. Thank you

Very well explained 👍🏻♥️🙏🏻

Thanks you so much.. PD - averaging of phase difference gave me good insight on PD and PFD

Best👌🏻👌🏻

Thank you so much my friend

Do you think there are good empirical models for oscillators? The unsatisfying problem with PLLs is that no one can tell you how to qualify an oscillator’s performance without one. I’m reading through Razavi’s recent book on PLLs now. Jittery is largely incalculable for free-running oscillators. The negative resistance from the feedback devices has a nonlinear Gm moving poles in and out of perfect dampening. The changing bias on capacitors also moves this operating point as well as the dielectric saturates. Reducing the need for the distortable Gm can be accomplished by raising the quality factor of Ls and Cs, but I have yet to find a useful analytic expression for jitter.

Awesome!!!!Thanks

I need to know which software u use to create all these schematics and characteristics/graphs :0
Great video!

Thank you!

Thank you soo much sir

THANK YOU BUDDY !!

Thank you sir!
Could you please make videos about I2C,SPI interfaces?

Thanks, very nice,

I want to follow up on your last example of the frequency multiplier. The f_o is at 10MHz, so the error voltage should be high to increase the f_o frequency. However, the phase detector see that the 2 input signals have the same frequency, so the error voltage should be small. There is a contradiction here. Could you explain further?

Thank you

Thanks so much

Increase the size of cursor to clear about where you are explaining exactly

Hey could you do a video on a Delay Locked Loop? With the multiplexers and ring oscillator/ chain system explained?

Thank you sir

Super! Thanks!

Thank u sir

what is the use of the feedback divider?

nice

Sir is there difference in PLL 565 and the one you explained

At 12:38 you accidently spoke the vive versa
if up output is high then output voltage will be pulled up from VDD/2 to VDD.

Good job. You are a good teacher and real "Gandoo"

Nice.

so when the PLL is locked, the phase and frequency difference is minimized -> the error voltage will be minimized -> how can the f_o can increase to meet f_in?

Thanks, amazing. Do you have videos on flip flop, clock signals etc?

So 12:50 ei timee ora freq ta same korbe and phase difference theke jabe but oita constant hoee jabe. It will not cng. Etai amra chaisi phase locked hoi phase diff 0 naile const

Excuse me , sir. Is there any wrong with the capture range of PLL at 4:42
I think the center of the capture range is f0 , Please reply , Thanks !

It's somewhat straight forward to lock two square waves. But is there a known way to lock two sine waves?

can i increase the pico rp2040 freq with pll

Hi teacher, I am confused about the capture range and lock range. I suppose that when the input frequency is in the lock range then it can be locked by PLL and now the output of PLL is f_R, if it is out of lock range it is no-lock. Why do we need the captured range because the lock range is enough for PLL?

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Hi , Is pll is mixed signal circuits?

Capture range and Lock range?

Something really driving me insane !! If we used PLL in AM demodulation receiver ..in the PLL mixer the AM signal multiply by fc after the LPF output the subtraction will give the information signal which is not a zero value of constant voltage if local fc not matching received fc

can we connect nmos instead of pmos

Can u expllain in video speech locked loop method

SIR CAN U SEPARATELY MAKE A VDEO ABOUT PHASE SHIFT I CANT UNDERSTAND

Plz..provide the derivation....deltapi=0

Technical wise no problem, but still don’t know why the applications use PLL

Who is here after lookin a radio review.

Oh! wrong pll

Thank you