How to generate a width of 500 picosecond pulse?
- posted
18 years ago
How to generate a width of 500 picosecond pulse?
Use a step recovery diode.
What's the input, and what sort of load do you want to drive?
John
3"
John
2" :-)
-- Thanks, - Win
-- Charge up a 6" length of coax and then dump it into your load.
Two inches of coax with a short at one end. Drive with a fast edge, e.g. from a step recovery diode.
Cheers,
Phil Hobbs
Why do you think they call Paris "the city of light"?
John
Nah, start with 1 foot of coax per nanosecond. Then keep trimming it down until you get what you need with your load.
Al
(pssst: The speed of light in coax is about 2/3 C or about 7.8 in/ns)
Hello Al,
But be careful and mind what's in the direction where the coax snippet flies. I have seen a guy do exactly that job with this stiff mil-spec coax. One piece flew right through a vent hole into a scope. Bzzzt ... poof. About $2000 worth of damage according to the repair invoice.
Regards, Joerg
Thougth the speed of light was metric these days?
martin
Cheaper than putting out an eye. :0
Hello Mike,
True. That's why I wear goggles/glasses when doing such work. Same when I get a clients prototype and there are tantalums on it.
Regards, Joerg
I gave that as an answer in a test once, long ago and failed. The "correct answer" was a one shot made with 2N2222's operating at
"Mike Young" a écrit dans le message de news:kejvf.49954$q%. snipped-for-privacy@newssvr12.news.prodigy.com...
Sure, but without a scope you're blind too.
-- Thanks, Fred.
See Linear Technology
Linear Technology AN47, by Jim Williams, is a very good paper that discusses in detail the precautions and pitfalls required when working with very fast pulses and pulse edges. It contains lots of information that details design, bread boarding and measurement techniques, complimented by many circuits and scope trace photos.
Gerhard van den Berg
See Linear Technology
Linear Technology AN47 by Jim Williams is a very good paper that discusses in detail all the precautions and pitfalls of working with very fast pulses and pulse edges. It contains extensive details on design, bread boarding and measurement techniques, complimented by many circuits and scope trace photos.
Gerhard van den Berg
What about reflection doubling the length, and what about the fact that waves travel slower in coax than in vacuum/air? Methinks Mr. Hobbs was a lot closer to the correct length of coax.
Well, that takes care of the reflection, but...
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