Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.
--

The BBC: licenced at public expense to spread lies.

Hi Paul,

Seems like a huge amount of frequency modulation. Or a pulse width
modulator? Where did it come from?

abse should be accessible from most servers. But one technique that is
easier for people is to upload it to a "scratch pad section" on you web
site, a sub domain which most hosting companies let you create. Then you
can use a fast FTP tool such as WISE-FTP and zoom it up there, and delete
it within seconds once you think it's no longer of interest. This allows
you to paste a link right here in your post. Just avoid doing it the cheap
way, via one of those "free" web space deals that swamp people with
pop-ups.

Regards, Joerg
http://www.analogconsultants.com

Paul Burridge wrote:

Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.
--

The BBC: licenced at public expense to spread lies.

Randumb duty cycle modulation would only alter the lower harmonic
spectrum; the rise anf fall times are the major source of frequency
multiples.

Paul Burridge wrote in message . ..

Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.


Think about it this way: say it has at least one 3f half cycle per 30
cycles. Therefore if you feed it to a high Q filter that rings at 3f,
it will duly give you 3f.

But only if the 3f is present in the original wave. To ring at 3f off
one half cycle per 30 cycles it needs to be reasonably high q, and a
high q filter is not going to work off 2.7f, so a fixed pattern is
going to be better than a random pattern that might not contain the
right f at times.

I wouldnt be surprised if someone critiques this 'visual' analysis
though, I wait and see.


Regards, NT

Hi Paul,

Seems like a huge amount of frequency modulation. Or a pulse width
modulator? Where did it come from?

abse should be accessible from most servers. But one technique that is
easier for people is to upload it to a "scratch pad section" on you web
site, a sub domain which most hosting companies let you create. Then you
can use a fast FTP tool such as WISE-FTP and zoom it up there, and delete
it within seconds once you think it's no longer of interest. This allows
you to paste a link right here in your post. Just avoid doing it the cheap
way, via one of those "free" web space deals that swamp people with
pop-ups.

Regards, Joerg
http://www.analogconsultants.com

Paul Burridge wrote:

Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.
--

The BBC: licenced at public expense to spread lies.

Randumb duty cycle modulation would only alter the lower harmonic
spectrum; the rise anf fall times are the major source of frequency
multiples.

Paul Burridge wrote in message . ..

Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.


Think about it this way: say it has at least one 3f half cycle per 30
cycles. Therefore if you feed it to a high Q filter that rings at 3f,
it will duly give you 3f.

But only if the 3f is present in the original wave. To ring at 3f off
one half cycle per 30 cycles it needs to be reasonably high q, and a
high q filter is not going to work off 2.7f, so a fixed pattern is
going to be better than a random pattern that might not contain the
right f at times.

I wouldnt be surprised if someone critiques this 'visual' analysis
though, I wait and see.


Regards, NT

On Wed, 05 May 2004 23:39:08 +0100, Paul Burridge
wrote:

Hi,

I'll avoid posting a screen shot of this one since so many people seem
to have difficulty finding them on abse or can't get the group at all
from their servers.

Imagine a two-state, high/low (on/off) wave form; i.e., negligible
rise/fall times. Amplitude 5V. A bit like a square wave, in fact,
except that the on and off period appears *different* between one
cycle and the next and the next and so on. There's quite a bit of
variation (anything from one whole time division to up to seven divs
and all times between the two). There does appear to be an eventual
series repetition, but it's only noticeable after about 30 cycles. I'm
not sure how I've ended up with this, but would it be rich in odd and
even order harmonics and suitable for generating them for frequency
multiplication purposes, d'you think?

Thanks,
P.

What's the circuit supposed to do? What's the frequency? What is it
made of? What's on the inputs?

You probably screwed up as usual and need your betters to bail you
out.

- YD.

--
Remove HAT if replying by mail.

On Fri, 07 May 2004 00:27:43 -0300, YD wrote:

What's the circuit supposed to do? What's the frequency? What is it
made of? What's on the inputs?

You probably screwed up as usual and need your betters to bail you
out.

Damn! Forgot to tick the 'global' option in the Usenet filters list...

Plonk!
(again)
--

The BBC: licenced at public expense to spread lies.

On Fri, 07 May 2004 00:27:43 -0300, YD wrote:

What's the circuit supposed to do? What's the frequency? What is it
made of? What's on the inputs?

You probably screwed up as usual and need your betters to bail you
out.

Damn! Forgot to tick the 'global' option in the Usenet filters list...

Plonk!
(again)
--

The BBC: licenced at public expense to spread lies.