I think that’s the clearest and easiest to understand explanation of grid-leak detection I’ve ver heard. Thanks!

You deserve a pat on the back for that explanation. Absolutely brilliant 👏👏👏

You are a natural born teacher and presenter. Go to the head of the class!

This is one of the great benefits of that new adage "anything you post online will basically exist forever" Sure hope so, in this context. Sir, you are a gift to all of us radio guys, old and young!

A very nice and ellegant explanation again! Thanks for sharing it.

Excellent video, very informative. Thank you!

Most excellent explanatioin RIck. You make understanding how circuits work so much easier. :)

This detector circuit was used in many different radio brands at that time. The circuit is actually performing 2 functions simultaneously; RF detector and audio preamplifier. Combining the two functions does compromise performance but, was considered an acceptable tradeoff in order to save the use of one additional vacuum tube. Detector operation: The plate voltage on this tube is so low (22 volts), the tube, even with 0 volts on the control grid, is on the threshold of being cutoff (almost no plate current flowing). Therefore, in order to get the tube to conduct, the input signal must go positive. So, as the RF signal on the grid passes the zero crossing point, the positive portion of the RF envelope is getting amplified and the negative portion fully cuts the tube off. The circuit compromise is this: The circuit operates best at a certain RF input level (I.E., a "Sweet Spot"). If you over drive the detector, the control grid will act as a rectifier diode connected to ground and will short out all of the positive portion of the RF envelope, pushing the DC level on the grid increasingly negative as RF drive increases. This will cause high audio distortion as only a portion of the positive RF envelope will be amplified. Conversely, under driving the detector will produce low audio levels and somewhat increased audio distortion.

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That was a very nice explanation. Thank you, sir.

So the triode is acting as a diode and then further filtering is done by the cap connected between the filament and the transformer? Of course the grid leak resistor and the other cap also play a part.

Excellent explanation!! Thank you.

Thanks sir..