Stub Mandrel Posted 13 hours ago Posted 13 hours ago I've been experimenting with testing microphones. I used a Scarlett interface into my laptop and Friture to produce Mel & A-weighted spectrograms. I used a HH Vector 8" producing pink noise over bluetooth as a sound source. Speaker and mic 1.25m apart and 1.25m above the floor in large room with lots of soft furnishings, curtains. Most obvious thing was the speaker had limitations, as you could see the same notches across all the mics. The flatest response was... a £30 generic BM800 mid-sized condenser microphone. Often used with 5V from a PC, these run well on 48V phantom power and are very sensitive. Lots of hacks for their circuit or putting larger inserts in them. I haven't modded this yet, but it gave the biggest signal and flattest curve with widest frequency response of all the mics I tested... I think this gives the best idea of the HH Vector's output. Note the dips at 450 and 550Hz which I guess may be the crossover frequency. My other condenser mic - Behringer C2, used flat and with low cut, which drops around 3dB from around 100Hz ish. Interestingly the 550 dip is not very pronounced. I think I need a better white noise source before repeating the experiment... things are going on for different types of mic, but I don't have confidence the sound source is flat enough to draw meaningful conclusions on anything but the sensitivity and the extent of the high/low frequency response. If anyone can recommend the ideal spectrogram settings, better software (Friture has no manual and appears to lack a simple save screenshot function) or any advice at all, all welcome! Quote
tauzero Posted 12 hours ago Posted 12 hours ago You might want to have a look at sweep frequency generators - these generate a single variable frequency sweeping typically from 20Hz to 20kHz, and so you can get a frequency response by mapping amplitude against frequency. Quote
Stub Mandrel Posted 12 hours ago Author Posted 12 hours ago 11 minutes ago, tauzero said: You might want to have a look at sweep frequency generators - these generate a single variable frequency sweeping typically from 20Hz to 20kHz, and so you can get a frequency response by mapping amplitude against frequency. Good call. I asked Chatgpt for advice and that was one recommendation. Another was to use software that allows me to calibrate using a reference mic... I know someone who may lend me one. Quote
tauzero Posted 11 hours ago Posted 11 hours ago There is a very elderly website that has at least some relevant information - https://www.ymec.com/hp/signal2/index.htm 1 Quote
tauzero Posted 11 hours ago Posted 11 hours ago @stevie and @Phil Starr might have some suggestions - after all, measuring speaker frequency responses with a specific microphone and measuring microphone frequency responses with a specific speaker are two sides of the same coin. 1 Quote
itu Posted 1 hour ago Posted 1 hour ago 1.25 m is a very unstandard measure. Use 1.00 m as a reference. Although your room has furniture, it is recommended to have a space that has minimal amount of reflections and reflective surfaces. They tend to boost suitable frequencies. Measuring a speaker, beware: the placement of the microphone can boost the low or the high end. You should have a calibrator to your system. Quote
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