Manual

ManualsBrandsSCHOEPS ManualsCondenserCMC 6 - Microphone output stage with clamp

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Specifications

Capsules

Capsule Type Polar Frequency Range Sensitivity Equivalent Noise Level Signal-to-Noise Max. SPL

Pattern CCIR A-weighted Ratio (0.5% THD)

A-weighted

MK 2 omni 20 Hz – 20 kHz* 15 mV/Pa 23 dB 11 dB 83 dB 130 dB

MK 2H omni 20 Hz – 20 kHz* 15 mV/Pa 23 dB 12 dB 82 dB 130 dB

MK 2S omni 20 Hz – 20 kHz* 12 mV/Pa 24 dB 12 dB 82 dB 132 dB

MK 2XS omni 20 Hz – 20 kHz* 10 mV/Pa 26 dB 14 dB 80 dB 134 dB

BLM 3g hemisphere 20 Hz – 20 kHz 19 mV/Pa 23 dB 12 dB 82 dB 128 dB

BLM 03 Cg hemisphere 20 Hz – 20 kHz 19 mV/Pa 23 dB 12 dB 82 dB 128 dB

MK 21 wide cardioid 30 Hz – 20 kHz* 13 mV/Pa 25 dB 15 dB 79 dB 132 dB

MK 21H wide cardioid 30 Hz – 20 kHz* 10 mV/Pa 26 dB 16 dB 78 dB 134 dB

MK 22 Open Cardioid 40 Hz – 20 kHz* 14mV/Pa 23 dB 14 dB 80 dB 131 dB

MK 4 cardioid 40 Hz – 20 kHz* 13 mV/Pa 24 dB 15 dB 79 dB 132 dB

MK 4V cardioid 40 Hz – 20 kHz 13 mV/Pa 24 dB 14 dB 80 dB 132 dB

MK 41 supercardioid 40 Hz – 20 kHz* 13 mV/Pa 24 dB 16 dB 78 dB 132 dB

MK 41V supercardioid 40 Hz – 20 kHz 13 mV/Pa 24 dB 15 dB 79 dB 132 dB

MK 8 figure-8 40 Hz – 16 kHz 10 mV/Pa 26 dB 18 dB 76 dB 134 dB

MK 5 omni 20 Hz – 20 kHz* 11 mV/Pa 26 dB 14 dB 80 dB 133 dB

cardioid 40 Hz – 20 kHz 13 mV/Pa 25 dB 16 dB 78 dB 132 dB

MK 4P cardioid close pickup 13 mV/Pa 24 dB 15 dB 79 dB 132 dB

MK 4VP cardioid close pickup 13 mV/Pa 24 dB 15 dB 79 dB 132 dB

MK 4XP cardioid close pickup 12 mV/Pa 25 dB 15 dB 79 B 132 dB

MK 4VXP cardioid close pickup 10 mV/Pa 25 dB 14 dB 80 dB 134 dB

Specifications for Complete Microphones: MK -- Capsules with CMC 6 Microphone Amplifier

* When the CMC 6 xt microphone amplifier is used with axially addressed capsules, the frequency response extends

beyond 40 kHz.

A word about signal-to-noise specifications for studio micro-

phones: The standard method, which we follow, is really just

an alternate way of stating a microphone's equivalent noise

level. It is designed to allow comparison of noise floor levels

for different microphones. Unlike the signal-to-noise specifica-

tions for other types of audio equipment, which give the ratio

of a component's clipping point to its noise floor, these values

do not indicate a microphone's entire available dynamic range.

Instead, the values are measured with reference to a standard

sound pressure level of 1 Pascal (1 Pa = 94 dB SPL). But the

actual maximum SPL capability of any usable microphone

exceeds that reference level substantially. The signal-to-noise

specifications of our microphones would be 35 to 40 dB (!)

greater if the ”hi-fi” approach were used.

The use of ”A” weighting when specifying the equivalent

noise level of microphones is another often-misunderstood

aspect of the standards. ”A” weighting yields a distinctly

lower noise specification – often by 10 dB or thereabouts –

and this figure, of course, becomes the one most often cited

in advertising. But the CCIR weighted noise level may well be

a more accurate indicator of a microphone's perceived noise

level in practice.