On Tue, 18 Oct 2005 10:37:15 -0500, "Steve Nosko"
wrote:

Owen,


From your last two posts, it appears you/we have vastly different
interpretations of what the question was. You talk about removing the
fundamental from the square wave and this puzzles me. I do not believe the
intent was to measure SINAD using a square wave modulation. Therefore
removing its fundamental and measuring its RMS does not fit the situation.


Some discussion arose about the extent of errors when using an aveage
responding meter to measure SINAD (compared to a true RMS meter).

My experimental evidence is that when measuring SINAD on a 2.4KHz wide
receiver at SINAD=12dB, the error is less than 1dB. Of course, it will
be less for higher SINAD ratios, and worse for lower ones.

I offered that a simple test of whether a SINAD meter was average
responding or true RMS responding, was to measure the SINAD of a good
square wave. The average responding meter will indicate about 9.3dB
whereas an RMS responding meter will indicate around 7.3dB.

I think we both understood that.


Back to SINAD.
Therefore, the issue I was addressing was the following:
(for the normal SINAD technique, 1 kHz sine wave tone):
A- Assume the RMS meter gives the "correct" reading.
B- What does the "AVG_Type" show on the display/scale?

So, B has two parts.

1- What does the "AVG-Type" read for the un-notched signal, and
2- What does the "AVG-Type" show for the notched signal.

1- As a first approximation, lets say the un notched reading is dominated by
the sine wave. With this assumption, they both read the same. To refine
this estimate, I am unable to assess, easily, the effect of the noise on
either measurement except that the True RMS mwter will give an indication of
the total tone and noise power (actually Erms^2). As a first approximation,
we could say that the "AVG-Type" reads the average of the sine plus the
average of the noise voltages...and my estimation powers peter-out right
there.
2- What does the "AVG_Type" read on the noise (notched signal)... yep, peter
once again.

As I stated above, and you stated, the comparison will depend on the
extent to which the sine wave dominates the total signal, and so will
depend on the SINAD being measured. I suggest that it will also depend
on the noise bandwidth.

Repeating, my experimental evidence is that when measuring SINAD on a
2.4KHz wide receiver at SINAD=12dB, the error is less than 1dB.

At the end of the day, it doesn't matter that much for normal
applications if the SINAD meter is average responding, they appear to
overestimate the SINAD, but by a very small amount.


Therefo

GOTO [[ my statement in brackets above ]]


You are trying to send Wes in a loop.

Then there's the pronunciation. Some say "sin' add" and some say "sign'
add". We said SIN add.

Dangerous territory, this could become an international incident when
you bring pronunciation into scope. There, and you all (mostly)
thought I didn't know how to spell... all those esses where they
should be zeds, no thats zees isn't it.

Owen
--

"Owen Duffy" wrote in message
...
On Tue, 18 Oct 2005 10:37:15 -0500, "Steve Nosko"
wrote:

[...]

I offered that a simple test of whether a SINAD meter was average
responding or true RMS responding, was to measure the SINAD of a good
square wave. The average responding meter will indicate about 9.3dB
whereas an RMS responding meter will indicate around 7.3dB.

I think we both understood that.

Nope, I missed that concept. Thanks for the clarify.