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Originally Posted by cbenham
This may work, however you might need to experiment with the value of R set on the LM 1881. Its nominal value is 680K for NTSC signals, but I have had problems with the resulting pulse being slightly too wide to properly drive a clamp. I've reduced R set to 470K or 560K with better results.
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Cool, thanks for the heads up! Can you tell me what set you are working with, and what circuit you drove with the LM1881?
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The pulse must start and end during the back porch time and must not extend past the end of the H back porch.
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The LM1881 datasheet lists a 4µs gate time, which is shorter than the 4.7µs alotted for the entire pulse. I assume this is so what you are describing does not happen, but naturally there will be some setup with an o-scope involved to get things perfect.
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If it does, the clamp will be clamping to a voltage other than ground, the usual voltage level of the back porch portion of the waveform.
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See, this is where I get confused. If clamping to ground were sufficient, everyone would be doing it. However, my understanding is that the true black level is not at ground potential, but rather slightly above it.
http://en.wikipedia.org/wiki/File:Composite_Video.svg
In the above illustration, you can see that there is a blank level at .285v (the so-called 'blacker than black' level), and then slightly above that you have the 'true' black level at .339v (7.5 IRE). This is where studio monitors are calibrated to:
http://www.outside-hollywood.com/200...tudio-monitor/
So is it also the voltage you would ideally clamp to, or am I wrong?