Thanks for the replies. All good points and here are some answers to the questions raised:
What microphones/receivers (models) used? What radio frequencies used?
Trantec S3.2. 173MHz and 174MHz.
Whistling is just acoustic feedback.
Someone shall consider introducing feedback eliminator.
Well perhaps I was a bit inaccurate when I described it as whistling. Its more like a howling warbling echo effect that threatens to break into a whistle at any moment. The amp does have feedback filtering so could it possibly be the effect of the amp attempting to deal with it accoustic feedback?
What I don't get however, is why this affects the strength of the radio signal? The signal dips by a couple of LEDs (there are I think 5 or 6) when this problem is encountered.
Do the wireless mic receivers have some sort of small recessed adjustable 'squelch' type control on the back?
Yes, they do indeed but adjustment does not solve the problem.
and check all the cabling too, many unbalanced cables today are crap, a single wire with a carbon shield layer inside the jacket that crumbles when flexed 
The cabling looks like proper microphone cable, looks of good quality two copper core screened with rubberised (silicone I think) insulation. However, the mic has an unbalanced output employing a 6mm mono jack, but the amp is designed for balanced mic inputs which are wired inside the amp casing using screw connectors. I have not had a look at the the inside of the amp and the specifics of the wiring, so I'm not sure at this point how the connection is made. Unscrewing the jack cover at the receiver end I can see that the screen is disconnected and the two inner cores are being used to connect signal and earth. The length of the receiver to amp lead is about 2m.
First thing, as has been mentioned, is that the ringing and whistling you are getting is more than likely audio feedback. At any one of those points you describe, I would guess that if you change which direction the microphone is pointing, you are going to find orientations where the problem is worse and others where it is not so.
The orientation of the microphone does indeed have some impact although sometimes upgright cancels it out, other times horizontal does. Pointing at or away from the speaker seems to have no bearing, although if you put the microphone right up to the loudspeaker (maybe less then 6 in away) then you get the sharp audio feedback whisle. In normal use, I would estimate that it would be more than 1.5m or more away.
Next, I would like to ask if you have the earth lead from your scope connected properly. If it is not connected at all, then you are going to have everything connected to the probe acting as an antenna picking up who knows what. Those screen shots look like the sort of crap you could get. Before making such a connection, ensure there is no significant voltage difference between the scope earth and the earthing point on the device under test. Use a Lo-Z voltage range on your meter, if you have one.
I confirm that I did have the earth connected via the croc clip. It is possible perhaps that earth lead picked up the 173/174MHz transmission from the Microphone, but I was surprised by the level of 38khz noise. The readings were taken with the amp switched off and disconnected from the receiver. Instead, plugged in a spare 6mm jack and connected the probe to the jack contacts.
One last point - harmonics are always multiples of a given frequency, not fractions. That doesn't exclude there being some other explanation, though.
Yes, that’s a fair point although looking at it again, the frequency readings are not even a fraction of the transmission frequency. I wonder whether the FC is just not making proper sense of the mix of noise and showing frequencies incorrectly?. It should be easy enough to test this by having everything turned off except the mic. presumably then I should only see the frequency radiated by the mic transmitter.
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