Frequency-agile system for professional applications including live performance, sound companies, fixed installation, houses of worship and more.
The Audix RAD-360 is a frequency agile UHF wireless microphone system with 193 selectable frequencies and dual tuner, true diversity receivers. Operating in the UHF band between 614-638 MHz, The RAD-360 is designed for a wide range of professional applications. Users of this wireless must be eligible and licensed under FCC regulation Part 74.832.
The RAD-360 features easy-to-use and easy-to-read menu driven displays in every component of the system. Both the receiver and the transmitter are synthesizer controlled via Phase Locked Loop (PLL) for stable Radio Frequency (RF) signals.
The RAD-360 handheld transmitters are constructed with durable metal housings and feature legendary performance of the OM-series dynamic microphones from Audix—microphones that have set standards in the pro audio industry for clarity, feedback rejection, and dependability. The hand-held transmitters have a convenient gain setting control that will enable a -10, -20, or -30 dB pad to help prevent overload or distortion. The modular design of the threaded capsule housing assembly means that the user can easily change the transmitter mic capsule from one model to another in a matter of seconds.
The body pack transmitter, constructed of durable ABS composite, is housed in a protective metal cradle. It may be used with lavaliere, headset, and specialty instrument microphones. A guitar system is also available. Mic/line input adjustments are provided as well as sensitivity/gain control.
The receiver is rack-mountable for either 1 or 2 systems into a standard 19-inch rack with optional rack mount kits. An optional Amplified Antenna Distribution System (ADS-4) is available, allowing up to 4 systems to be run off a single pair of antennas, and one DC power supply. An optional antenna booster (AB-1), which can be wall-mounted or mic stand mounted, is available to strengthen incoming signals, improve signal to noise ratio, and increase the RF range.