Notice:Supports all cameras with 3.5mm Audio input or output jack.
Comica Directional Condenser Shotgun Video Microphone utilizes the Super-cardioid Polar pattern design, is specially
used for video and interview for machines including camera, camcorder as well as professional video device;
Meanwhile the Microphone is designed with +10dB sensitivity adjustment, Low-cut filter functions, and match with super
strong shock-absorbing support, which provides your video with more excellent voice.
. Super – Cardioid Polar Pattern
. Low Self-noise
. Low-cut Filter
. Super Anti-interference
. Special Design for Excellent Shock-absorbing
. Packed with Wind-screen and Wind-muff
. Cold-shoe Design with 1/4 Thread at the Bottom
Indication lamp status:
Normal Working Status: Green
Low-power Working Status: Red (Be aware to replace batteries now)
Transducer Principle:Back Electric Condenser
Polar Pattern:Super Cardioid
Dynamic Range:110 dB
Sensitivity:-28dB±3 dB / -38dB±3 dB
Signal to Noise Ratio:≥58 dB
Power:DC3V (AAA 1.5 V x 2 )
Mic body ×1(including windscreen)
Wind muff ×1
Warranty card ×1
Extended:31.5inchExcellent shock-absorbing: Shock-resistant structural design, can effectively reduce vibration noise. Which provides your video with more excellent voice.
Application: Specially used for video and interview for machines including camera, camcorder as well as professional video device. It can excellent to enhance the quality of the recording.
Low-cut Filter feature: 10dB sensitivity enhancement and 100Hz low-frequency attenuation to meet the different field Co-use.
Super – Cardioid Polar Pattern: Giving excellent off-axis rejection for desired sounds, can effectively reduce the noise of the surrounding environment to be picked up.
PACKAGE :1* CVM-V30 Microphone 1* Windscreen 1*Wind muff 1*Warranty card 1* English User’s Manual.1 YEAR WARRANTY and 100% money back satisfaction guarantee. (Contact the seller or Ask a question). We will try our best to help you solve the problem till you are satisfied.
(as of Jun 09,2019 22:18:06 UTC – Details)