love the way of your explaination, thanks!

it is the best anlyse a WB I've heard! Thank you!

Awesome tutorial ! for me this maths is to much but with an understanding of the basics and some online calculators (and your vid !) I have been looking for the perfect 1Khz sine wave for audio stuff but I have been using a light bulb in the feedback portion of the circuit, this is a fascinating story in itself and it felt great to be using thermionics (ish) in a design. Starting on breadboard then Vero Board and now PCBs I have some good results although I don't have a Spectrum Analyser (at the moment) I have a reasonable soundcard and I have both ARTA and REW and they agree with each other ! I am waiting for the last revision of PCB to arrive and some quite expensive parts too, 0.01% for the resistors at 15K and 1% 10nF caps, this gives me about 1.06Khz by calculation. My prototype is giving me 1.08Khz at 1v PK-PK and a THD of 0.004% a little worse with noise but I have a very noisy lab ! I also found out what you mean by "don't use ceramic caps !" lol once again I love your videos....cheers.

Thank you so much with some microcorrections at Rf/Ri network it worked just fine. Great video and explanation

Best Wien bridge explanation ever! : ) Thank you

This weekend I'm doing this The Wien Bridge Oscillator. Keep the videos coming!!!! Thank you

Great explanation of the Wien Bridge Oscillator, just the right amount of math and good images. Been trying to understand this circuit for some time.

Good explanation ,,, really i have learned so many thing about wein bridge oscillators.........and i liked the note when BARKHAUSEN IS HAPPY .

I love your style. A Gain of +1 Sub. I’ll be oscillating around here 😂 God Bless.

Very Good explanation. A big help in understanding this topic Thankyou very much

best vid on youtube for wienbridge

If it has a reasonably high Q, why is the upper gain limit so critical? Why aren't the harmonics filtered out by the +ve fb network?

I got one working in multisim but I need a split power supply high enough. Next purchase adjustable power supply with good features.

love your videos I look forward to them...Thank you..............................Berni

At 13:00, your fifth relation has mismatched units. The left side is admittance and the right side is impedance.

Just what i was looking for... thanks a million

Thanks for your clear explanation.

Thank you for the great video. Just I have a question how can we calculate output voltage on the paper . You've got about 16.5 V peak to peak and how to calculate that.

Everybody seems to give the same speech about the Wien Bridge oscillator but nobody shows how to calculate the values of the sinewave that will be generated like the Vpp and current giving a DC input voltage rail. HOW DO YOU CALCULATE V(t) and I(t) giving a voltage rail input of V+ and V- ?

don't you need a gain greater than 1 to start it? what maintains the gain at 1?

Sir, what is the relation in bridge being balanced and the frequency selective network

Hi wanted to say thank you for this very informative video,, I'm wondering how you would make the Oscillator variable?

nice video please make a video on schmitt trigger inverter and oscillator if possible :) you explain very nicely man :) wish you live happy, healthy and safe :)

Does it adjust automatically to a certain voltage or do you have to regulate it with a pot so that it doesn't spiral into saturation like the one in your last video?

what type of op-amp did you use?

I am a bit disappointed that you didn't mention the use of a incandescent light bulb in feedback to make it stable. Great explanation anyhow :)

Great!

Thank you m8 !

You did a lot. You should have done the derivation of "fo" too.

my feedback is positive)

Finally a white guy speaking English explaining this! The Indian-English explanations for this were terrible. Thank you so much. Very helpful.