The Dayton Audio EMM-6 precision electret condenser microphone is designed
for measurement and critical recording applications where extremely flat
frequency response and a true omni-directional polar pattern is a must for
accuracy.
Key Features
Perfect for use with room acoustic analyzers and audio measurement
systems
Low noise FET input reduces low-frequency distortion
Gold-plated XLR output connector for accurate signal transfer
High-quality components and rugged construction
Includes its own unique calibration response graph
Includes stand mount, foam windscreen, and transport case
Works with phantom power from +15V to +48V
The Dayton Audio EMM-6 is a precision electret condenser microphone
designed for measurement and critical recording applications. The extremely flat
frequency response and true omni-directional polar pattern make it perfect for
use with room acoustic analyzers and audio measurement systems. The EMM-6
microphone is individually hand calibrated using a laboratory standard Brüel
& Kjar microphone in conjunction with a DAAS computer measuring system. Each
microphone includes stand mount, foam windscreen, transport case, and its own
unique printed and downloadable calibration response graph and .txt data file
(see below).
FREE! Download your unique calibration .txt file.
A unique serialized calibration .txt file is available for the EMM-6. Once
you receive your microphone, Visit the Dayton Audio calibration download tool
where you will be prompted to enter the serial number found on the base of your
EMM-6. After entering the serial number, your unique calibration .txt file will
be available for you to download.
Specifications:
• Capsule type: 6 mm electret condenser
• Polar pattern:
omni-directional
• Frequency response: 18 Hz - 20 kHz
• Impedance: 200 ohms
between pins 2 and 3
• Sensitivity at 1 kHz into 1K ohm: 10mV/Pa (-40 dBV, re. 0
dB = 1V/Pa)
• Max SPL for 1% THD @ 1 kHz: 127 dB
• S/N ratio: 70 dB A-weighted
•
Connector: gold plated XLR
• Phantom power: +15V to +48V, 4 mA • Weight: 144
grams.