Sean...When you lift your coffee cup to take a sip, you change the mass distribution of planet Earth, and change the distance from the earth to the Moon. This is absolutely certain, and the exact change of the distance could be calculated, but who cares? Effects such as those mentioned by sean do exist at some level, but is that level one that we should care about?
Inductors and capacitors take their values from the geometric dimensions of their construction. Unless an inductor is fully potted (filled and encapsulated in plastic) it is much more prone to dimensional changes due to vibration than is a rolled mylar capacitor. I have no doubt that one could actually create an inductive microphone (capacitative ones are common) by deliberately increasing the design features leading to microphonics, and placing the device in a circuit designed to be sensitive to inductance value.
I forgot the output transformers of tube amps. Power transformers all hum, so I suppose that audio transformers must sing. These effects are not necessarily reversible, so I don't know if an audio output transformer is microphonic. If so, I expect it is a lot less so than the tubes associated with it, and therefore of secondary importance.
It is necessary to consider HOW the electronic component is used in the circuit. I have not built or repaired any amplifiers for a few years so I am not familiar with recent circuits. As I recall, inductors were used in the signal path only at the amp output, to limit bandwidth to 200KHz or thereabouts so as to preclude possibly damaging oscillation. If such an inductor were to change value the effect would be to vary the HF rolloff slightly around the 200KHz value, which would have no practical impact on a 20KHz signal.
Do transistors "talk"? Well yes...in fact most electronic circuitry makes various buzzing noises that can be heard if speakers are not swamping it out. But do transistors "listen"? I don't accept this without evidence.
Such evidence would be surprisingly easy to gather. I suggest that sean (in his spare time) should take some of his numerous spare audio equipments, and throw together a Preamp/Interconnect/Power amp/Speaker wire system, and put a dummy load (resistor) at the end of the speaker wires. This rig should be located in the listening room and, with the preamp input shorted, turn it on, and then crank up the regular audio system to about 90 dB. The output of the test rig will now exhibit its total microphonic effect from all causes (except from a turntable/phono pickup that we all agree is vibration-sensitive). You could look at this output on a scope, listen to it with headphones, or record it on a cassette (and send it to skeptics like me). Measure the microphonicly induced output. Also measure the output when the main system is not playing, as this is the background noise level. Measure the output of the power amp that is driving the speakers: this is what the test rig would be doing if it were connected to the speakers. Now you can calculate how many dB down is the system noise level, with and without microphonic contribution. I suspect that a tube preamp will measure significantly worse than a transistorized one.
"Worse"?? Well that's another issue. Some have suggested that a little microphonics is good. Adds "body" or some such thing.
Are we having fun yet?
Inductors and capacitors take their values from the geometric dimensions of their construction. Unless an inductor is fully potted (filled and encapsulated in plastic) it is much more prone to dimensional changes due to vibration than is a rolled mylar capacitor. I have no doubt that one could actually create an inductive microphone (capacitative ones are common) by deliberately increasing the design features leading to microphonics, and placing the device in a circuit designed to be sensitive to inductance value.
I forgot the output transformers of tube amps. Power transformers all hum, so I suppose that audio transformers must sing. These effects are not necessarily reversible, so I don't know if an audio output transformer is microphonic. If so, I expect it is a lot less so than the tubes associated with it, and therefore of secondary importance.
It is necessary to consider HOW the electronic component is used in the circuit. I have not built or repaired any amplifiers for a few years so I am not familiar with recent circuits. As I recall, inductors were used in the signal path only at the amp output, to limit bandwidth to 200KHz or thereabouts so as to preclude possibly damaging oscillation. If such an inductor were to change value the effect would be to vary the HF rolloff slightly around the 200KHz value, which would have no practical impact on a 20KHz signal.
Do transistors "talk"? Well yes...in fact most electronic circuitry makes various buzzing noises that can be heard if speakers are not swamping it out. But do transistors "listen"? I don't accept this without evidence.
Such evidence would be surprisingly easy to gather. I suggest that sean (in his spare time) should take some of his numerous spare audio equipments, and throw together a Preamp/Interconnect/Power amp/Speaker wire system, and put a dummy load (resistor) at the end of the speaker wires. This rig should be located in the listening room and, with the preamp input shorted, turn it on, and then crank up the regular audio system to about 90 dB. The output of the test rig will now exhibit its total microphonic effect from all causes (except from a turntable/phono pickup that we all agree is vibration-sensitive). You could look at this output on a scope, listen to it with headphones, or record it on a cassette (and send it to skeptics like me). Measure the microphonicly induced output. Also measure the output when the main system is not playing, as this is the background noise level. Measure the output of the power amp that is driving the speakers: this is what the test rig would be doing if it were connected to the speakers. Now you can calculate how many dB down is the system noise level, with and without microphonic contribution. I suspect that a tube preamp will measure significantly worse than a transistorized one.
"Worse"?? Well that's another issue. Some have suggested that a little microphonics is good. Adds "body" or some such thing.
Are we having fun yet?