The d:screet 4063 Omnidirectional Microphone, Lo-Sens & DC is highly unobtrusive and provides quality pickup even off-axis. No adapter included.
Originally designed for use with wireless systems in theater, television and close-miked instrument applications, the d:screet 4063 Omnidirectional Microphone, Lo-Sens & DC is highly unobtrusive. Because of its small size, it exhibits an exceedingly accurate omnidirectional pattern and therefore does not need to be aimed directly at the sound source to achieve quality pickup.
The mic is acoustically identical to the d:screet 4060 Miniature Omnidirectional Microphone, Hi-Sens, but the FET preamplifier in the input stage is designed for working with lower supply voltage.
The d:screet 4063 Omnidirectional Microphone, Lo-Sens & DC is available in four colors: black, beige and white.
Flexible adapter system
The adapters for wireless systems give you flexible, simple and affordable possibilities. You are no longer bound to one wireless system. As circumstances change, you can just switch your adapter, instead of incurring the cost of a whole new microphone. And when you make the switch, you won't hear any loss or change in sound quality.
The d:fine, d:screet and d:vote series of miniature microphones work with all leading wireless mic solutions, such as Lectrosonics, Sennheiser, Shure, Sony, Wisycom, Zaxcom and many more. DPA Microphones' ingenious adapter system is one of a kind in the industry. It protects your investment in fantastic sound for years to come.
Extremely rugged and reliable
Exceptional audio quality
Low noise and high sensitivity
Large selection of accessories
Modular adapter system fits most professional wireless systems
Directional characteristics: Omnidirectional
Principle of operation: Pressure
Cartridge type: Pre-polarized condenser element with vertical diaphragm
Frequency range, ± 2 dB: Soft boost grid: 20 Hz - 20 kHz, 3 dB soft boost at 8 - 20 kHz. High boost grid: 20 Hz - 20 kHz, 10 dB boost at 12 kHz.
Sensitivity, nominal, ±3 dB at 1 kHz: 6 mV/Pa; -44 dB re. 1 V/Pa