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RE: Interesting Concept... or complete idiocy?
- To: <ukha_d@xxxxxxx>
- Subject: RE: Interesting Concept... or complete idiocy?
- From: "Phil Harris" <phillip.harris1@xxxxxxx>
- Date: Wed, 20 Feb 2002 20:12:49 -0000
- Delivered-to: mailing list ukha_d@xxxxxxx
- Mailing-list: list ukha_d@xxxxxxx; contact
ukha_d-owner@xxxxxxx
- Reply-to: ukha_d@xxxxxxx
Title: Message
That's
the circuit John Hill used as a basis for this curtain
controller...
Phil
take a look
at
http://www.cix.co.uk/~pplunkett/x10.htm
Alan
Shields alan@xxxxxxx On Wednesday, February 20, 2002,
at 06:34 pm, Ian Lowe wrote:
I am fishing for the views of experts before
comitting time to something that's obviouslly flawed.
As I
understand it, X-10 signalling is basically this:
You place (and
detect) a 1ms wide pulse of 120khz with an amplitude of as little as .1v
20ms or so after the zero crossing, such that after an agreed pre-amble,
a burst means "1" and no burst means "0" this transmits house code, unit
code, command a couple of times for redundancy.
Now, I saw some
articles about improving X-10 range and reliability, which all centred
around improving how accurately the reciever circuit was tuned to
120khz,
and this got me thinking..
It started as "what if the 120khz
oscillator was *very* precise?" I figured a PIC Chip with an XTAL clock
could be that precise, and then I figured, why bother?
Why not
just use the ADC in the PIC chip to analyse the powerline as an analog
signal, and watch for a burst of "noise" in the right place on
the wave?
I figure if I used a large resistor to limit the
current, and used some circuit arrangement to "crop" the powerline
"signal" so that I was only looking at the segment from -10 to +10 I
would be able to do some simple DSP on the line to watch for firstly,
the
zero cross, then a pulse of "something kinda like 120khz" in the right
place.
As i recall, if you want to recognise (and replicate) a
signal, your sample rate needs to be at least double the signal rate.
so,
for a 120khz signal, you would want to be sampling at 240khz. Given that
even the fairly basic PIC12C jobs have a 10Mz clock, I'm sure sampling
at
240khz wouldn't be stressing things too much!
Just wondering if
you could implement a basic X-10 module with very little in the way of
components?
Does this seem deeply ridiculous? or just technically
too
bothersome? or might it even
work?
Ian.
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