Product Overview
Model: BoomX-D TX
- For BoomX-D Wireless Mic Systems
- Built-In Omni Mic & Lavalier Mic
- 3.5mm Microphone Input Connector
- 5-Hour Rechargeable Battery + USB
Comica BoomX-D TX
The compact Comica BoomX-D TX is a clip-on digital wireless transmitter compatible with BoomX-D wireless mic systems. It features a built-in omnidirectional microphone and also comes with a lavalier microphone, great for recording dialog, interviews, and speech
The transmitter delivers reliable transmission with a clear sound at a distance up to 164′. It’s built-in rechargeable battery provides up to 5 hours of operation.
Built-In Mic for True Wireless
- The transmitter is equipped with a built-in microphone and a 3.5mm mic input that accepts the included lavalier microphone.
- For a truly wireless experience, the transmitter can be clipped on clothing without having to wire yourself or your talent. You can also hold the transmitter in your hand and use it as a handheld microphone.
- The On/Off switch doubles as a mute button.
Lavalier Mic Included
- For a more discreet setup, use the small lavalier microphone, which can be easily concealed away from the camera’s eye.
Plug-and-Play and Easy-to-Operate Wireless
- Dedicated gain buttons on the receiver allow quick and effortless adjustment of the signal level for each microphone independently.
- The transmitter has a display that shows signal strength, audio level, mono/stereo configuration, and battery life.
- The transmitter is powered via a built-in lithium-ion rechargeable battery. It can also be powered via USB, even while in use, giving you near unlimited operating time.
Easy 2.4 GHz Digital Wireless
- Whereas typical analog wireless systems are susceptible to interference from TV and radio waves, the BoomX-D digital system avoids that by operating in the 2.4 GHz frequency band, which occupies frequencies beyond those of television, radio transmissions, and UHF wireless microphone systems.
- The system automatically changes transmission frequency to mitigate noise and dropouts at a line-of-sight distance of up to 164 feet. For optimal performance, environments with limited Wi-Fi/2.4 GHz traffic and minimal physical obstructions are recommended.