TCM376

カテゴリー:

TCM376

For professional presentations requiring a microphone that is heard but not seen, TCM376 offers a compact clip-on design and simple, no-nonsense setup.The unidirectional cardioid polar pattern rejects unwanted sound for superior audio quality and vocal reproduction.Precision-engineered for years of use with all kinds of wireless systems.


Optional connectors


4 Pin with Lock Screw (MIPRO)

Mini 4 pin XLR (SHURE)

Mini 5 pin XLR (LECTROSONICS)

3.5 stereo plug with lock screw (SONY)

3.5 stereo plug with lock screw (SENNHEISER)

Features

  • Extremely rugged and reliable
  • Exceptional audio quality
  • Very low noise
  • Lightweight & Compact, high performing design
  • Natural sound with professional accuracy
  • Low sensitivity to popping & breath overloads at close up situations
  • Battery or phantom powered
  • Compatible with most power modules & wireless transmitters
  • Specifications

  • Directional Characteristics:
  • Omnidirectional
  • Element:
  • Back Electret Condenser
  • Frequency Range:
  • 50Hz ~ 18,000Hz
  • Impedance,
  • 600Ω ± 30% (@ 1KHz),(HIROSE),(SONY),(SENNHEISER)
    600Ω ± 30% (@ 1KHz),(HIROSE),(SONY),(SENNHEISER)
    1KΩ ± 30% (@ 1KHz),(SHURE)
    1.8KΩ ± 30% (@ 1KHz),(LECTRONICS)
  • Sensitivity,
  • -64 dB ± 3 dB (V/μbar),(HIROSE),(SONY),(SENNHEISER)
    -64 dB ± 3 dB (V/μbar),(HIROSE),(SONY),(SENNHEISER)
    -62 dB ± 3 dB (V/μbar),(SHURE)
    -73 dB ± 3 dB (V/μbar),(LECTRONICS)
  • Max.Input SPL:
  • 126 dB @ 1KHz
  • S/N Ratio:
  • Above 70 dB @ 1KHz
  • Operating Voltage:
  • 1 ~ 5V DC
  • Test Condition:
  • RL=2.2KΩ, VD=1.5V
  • Cable:
  • Ø1.6 x 1.1 M (Cable Exposed Length)
  • Connector,
  • Locking 4 Pin (HIROSE)
    Locking 4 Pin (HIROSE)
    Mini 4 Pin XLR (SHURE)
    Mini 5 Pin XLR (LECTROSONICS)
    Ø3.5 stereo plug with lock screw (SONY),(SENNHEISER)
  • Dimensions:
  • Ø5.5 (Mic Head) x 25.5(L) mm
  • Material:
  • Copper
  • Weight,
  • 16g (HIROSE)
    16g (HIROSE)
    12g (SHURE),(LECTROSONICS)
    18g (SONY),(SENNHEISER)

    Diagrams

    Frequency Response
    Polar Pattern