Audio-Technica AT898 Subminiature Cardioid Condenser Lavalier Microphone - Free Shipping!
MT830ROmnidirectional Condenser Lavalier Microphone
Audio-Technica PRO70 Condenser Mic
Audio Technica AT2041SP Studio Pack w/Mount , Clamp Sonar LE, 2 20' Mi – AudioTopia
The Audio-Technica MT830cW omnidirectional condenser lavalier microphone is terminated with a cW-style connector for use with UniPak wireless transmitters. It includes a clothing clip and windscreens, and a 55-inch (1.4 m) cable. Designed to be worn as a lavalier or hidden in loose clothing or in the hair, the MT830cW provides high intelligibility for lecturers, stage/TV performers and singers. The mic's wide-range capability ensures clean, accurate reproduction.
Audio Technica MT830cW Lavalier Microphone
Audio Technica Save! Only $359.95 with coupon! Audio-Technica ATW-1702 System 10 Camera-Mount Wireless Hypercardioid Handheld Microphone System (2.4 GHz) ATW-1702
Audio-Technica ATW-1101/L Wireless System - Lavalier Microphone – Kraft Music
Audio-Technica's System 10 is a digital high-fidelity wireless system designed to provide performing musicians and presenters with advanced 24-bit operation, easy setup and clear, natural sound quality. Operating in the 2.4 GHz range, far from TV and DTV interference, System 10 offers extremely easy operation and instantaneous channel selection. Up to eight channels may be used together without any frequency coordination problems or group selection issues.
Audio-Technica ATW-1101/L System 10 Digital Wireless Lavalier Microphone System
Audio-Technica ATW-1701/L - System 10 Camera-mount Digital WirelessSystem includes: ATW-R1700 receiver and ATW-T1001 UniPak transmitter with MT830cW
Audio-Technica ATW-1312/L Digital Dual Combination System
Audio-Technica BP899cw Omnidirectional Lavalier Microphone - CW Connector
Audio-Technica ATW-1311/L System 10 PRO Dual Lavalier Wireless Microphone
MT830CW Audio-Technica MT830cW Omnidirectional Condenser Lavalier Microphone
Audio-Technica ATW-1312/L System 10 PRO Lavalier & Handheld System