MKH 8090
Article No. 506294
Features12
- Wide cardioid pick-up pattern
- Wide frequency response 30 to 50.000 Hz
- Very natural sound
- Can be used as a digital microphone – with the MZD 8000 digital module
- Exceptionally low inherent self-noise
- Symmetrical transducer technology ensures extremely low distortion
- Transformerless, fully floating balanced output
- High output signal
- Rugged metal housing with non-reflective Nextel® coating
- Extremely weather-proof due to high-frequency circuit
- Extensive range of accessories
- Timbrally identical with the other 8000-series microphones for optimum aural compatibility
Top Specs
- Dimensionsdiameter 19 mm, length 41 mm (incl. XLR- module MZX 8000: 75 mm)
- Weight (g)(incl. XLR-module MZX 8000: 55 g)
- Max. sound pressure level142 dB SPL
- Sensitivity-34 dBV/Pa
- Transducer principleRF condenser microphone
- Transducer typeCondenser
- ConnectionWireless
- Pick-up patternwide cardioid
Tech Specs
Product
- Transducer principleRF condenser microphone
Frequency Specifications
- Frequency response30 Hz to 50 kHz
- Audio frequency response30 - 50,000 Hz
Acoustic Properties
- Equivalent noise level (db)A-weighted 13 dB(A) CCIR-weighted 22 dB
- Pick-up patternwide cardioid
- Max. sound pressure level142 dB SPL
Connectivity
- ConnectionWireless
Ambient Conditions
- Operating temperature (C)-10 °C to 60 °C (14 °F to 140 °F)
Battery & Power
- Battery includedN
- Phantom power48 V ±4 V (P48, IEC 61938)
- Charging current (mA)3.3 mA
- Phantom powering48 V +/- 4 V
Electrical Properties
- Sensitivity-34 dBV/Pa
- Nominal impedance25 Ω
- Min. terminating impedance2000 Ω
Dimensions
- Dimensionsdiameter 19 mm, length 41 mm (incl. XLR- module MZX 8000: 75 mm)
- Height (mm)82
- Length (mm)245
- Weight (g)(incl. XLR-module MZX 8000: 55 g)
- Width (mm)170
- Product height82
- Product length41
- Product weight (g)25
- Product width19
Downloads12
MKH 8090
.PDF
484.52 KB
MKH 8090
.PDF
1.84 MB
MKH 8090
.PDF
2.02 MB
MKH 8090
.PDF
491.2 KB
MKH 8090
.PDF
191.91 KB
MKH 8090
.PDF
1.79 MB
MKH 8090
.PDF
1.18 MB