Looking at SMD clock crystals, they seemed to be spec'ed in "parts per million." How does this translate into picoseconds of jitter? Does anyone have a good off-the-rack SMD clock to recommend?
"ppm" is almost always the long term drift accuracy spec.
Sometimes the nominal frequency accuracy is spec'ed in
ppm.
This has little or nothing to do with jitter (related to phase noise which
is a more useful spec). Many grunt clock oscillators don't
spec phase noise and/or jitter.
Sometimes the nominal frequency accuracy is spec'ed in
ppm.
This has little or nothing to do with jitter (related to phase noise which
is a more useful spec). Many grunt clock oscillators don't
spec phase noise and/or jitter.
You can't........
There is no relationship, at all, between accuracy (ppm) and jitter.
Anyone who tells you there is doesn't know squat about oscillators.
About jitter specs........of clocks........(crystals don't have "jitter" specs.)
They are often times misleading, as they always seem to neglect the frequency range of the jitter. Although close-in jitter is probably the most important, and would most likely be part of any jitter spec. But don't count on it.
Are you asking about crystals or clocks???
Jocko
There is no relationship, at all, between accuracy (ppm) and jitter.
Anyone who tells you there is doesn't know squat about oscillators.
About jitter specs........of clocks........(crystals don't have "jitter" specs.)
They are often times misleading, as they always seem to neglect the frequency range of the jitter. Although close-in jitter is probably the most important, and would most likely be part of any jitter spec. But don't count on it.
Are you asking about crystals or clocks???
Jocko
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