Cartridges work the same way. It may not have been the intention of a cartridge manufacturer to make a balanced source out of it, but that is in fact how they behave since neither side of the cartridge is 'grounded', i.e. tied to its metal body. In fact many cartridges don't have a metal body! So really the question is more like: how in the hell can this thing be single-ended?" When looked at that way, you suddenly see why there have to be special grounding considerations (ex.: the third grounding wire) that you would not normally expect to see on your typical single-ended output (like from a tuner).That's correct. I just wish every audio designer got an obligatory course on noise theory and balanced systems. There would be much less misinterpretation and mythology about this important advancement. Balanced is one of the greatest ideas in audio history.
Although the *output* of the cartridge is going to be the same regardless of balanced or single-ended, there is in fact a noise advantage to the input amplifier, simply because it is differential and makes less noise than a single-ended input amplifier.Correct again, provided you are talking about RFI, hum and other sorts of external EMI entering through the input cable as a common mode signal. In MC cartidges, hum rarely disappears completely, but a balanced system will dramatically reduce it compared to a single-ended system. If you mean thermal noise (hiss), the right answer is: It depends of the design of the preamplifier. You can design a balanced circuitry with much less noise than a single ended one. It just depends on your skill and the technology you are using.
Being inductive should have nothing to do with balance. The transducer could be capacitive (touch sensor) or resistive (thermistor). It's just a two-terminal device.Correct. Strain gauges, which are resistive elements, also work by using the differential principle.
>>there is in fact a noise advantage to the input amplifier, simply because it is differential and makes less noise than a single-ended input amplifier<<Incorrect. Strictly speaking, a balanced circuit will have two input gain cells operating in differential mode. This circuit would produce 3 dB [20log(sqrt(2))] more noise than a single gain cell operating in identical conditions. With double the gain (6 dB), the result would be a net loss of 3 dB in SNR. However, as said above, it depends on the designer's skill and the technology used. There's no limit on how noiseless a circuit can be (balanced or not), except that imposed by nature.
I don't believe this is true. You get double the gain, but same SNR.
Regards,