Re: Unbalanced "phantom" power
I am happy to see that you pointed to Brüel & Kjær. They one of the leading, if not the leading, measurement mic manufacturer on the planet. All of their CCLD systems are NOT balanced and they are NOT 600 Ohm. They use BNC (2 wire) connectors. Their systems do not have noise problems and have very wide bandwidths. Their circuits use a constant current source to feed the capsule and buffer. My circuit does not use constant current sourcing to simplify construction. My circuit is an attempt to emulate the Brüel & Kjær CCLD system (and its competitors) simply and at low cost for the home constructor. Very few hobbyists have multiple thousands of dollars for a Brüel & Kjær CCLD mic/buffer/pre/ps.
before you go too far with this, please be very aware that your wish for a flat response of the frequency range which you are looking for is extreemly difficult to achieve with a single Electret Microphone without compensation for both Phase and Amplitude errors caused by the Capsule Diaphragm for a start.
Apart from 'low-cost' Measurement Microphones, usable ones come with a calibration file which is added for correction into the instrumentation used for taking measurements.
You are absolutely correct in what you say, but there is more to it than that. I, and many other home users have capsules individually calibrated by an independent lab. Indeed, an individually calibrated EMC capsule with cal file can now be bought for as little as $16 US. It may not be quite as good a a lab calibrated capsule, but its close.
Any decent measurement software (I use ARTA) will use the calibration file to correct the capsule's freq resp. But a corrected capsule FR is useless unless the following circuitry is flat as well. So effort must be made to make the CIRCUIT response "straight as a string" from 20-20K. Then when the cal curve is applied to correct the capsule you will have an accurate measurement. This is the process followed by Brüel & Kjær and their competitors. It allows swapping a capsule and its respective cal file and get superior results. It is the target I am shooting for.
Balanced line connection also substantially reduces stray field induction onto the signal path which in your 'design' will appear as part of your measurement signal
Again what you say is true but not the whole story. Your statement may lead one to believe that unbalanced designs pick up more noise than balanced designs. That is not true. The shielding in both cases, if properly designed and implemented, is capable of decent protection from noise intrusion. However, if through bad design or bad implementation or perhaps horrendous local conditions (like measuring next to an active high power antenna field) some noise does get induced, then a balanced system does offer an advantage. The typical home user with an unbalanced system can avoid those problems without a pro-audio balanced system. It works for Brüel & Kjær and their competitors on their CCLD and equivalent systems. I wish to try to follow their lead.
BTW, check this out for a CCLD type project that discusses these issues. I could not sim it with LTS so I went no further. If anyone has an working LTS file of this project, or at least its front end, please post it. I would love to see it function. Heck, I might use it instead of mine. It is simpler than mine. But if I cannot sim it in LTS, I will not build it.
**broken link removed**
Thanks