Keeping the future of wireless in mind, Shure designed the AD600’s tuning range to support frequency bands from 174 MHz to 2 GHz, which includes and expands on the frequencies where AXT600 is operable.
Compared to AXT600, AD600 boasts faster scanning that finds available frequencies and analyzes RF spectrum in real-time, streamlining site surveys and spectrum management.
AD600 delivers six antenna inputs to support coverage for multiple antennas and locations. AD600 also provides the ability to listen to analog signals as well as Axient Digital standard and HD Modes, a new DC power option for remote production, USB connections for external data storage of scans, event logs and other data, as well as Dante Connectivity for advanced audio monitoring.
The AD600 is outfitted with a large, full-color, 6.6-inch front panel screen, which makes viewing information easy, while the real-time scanning and monitoring of RF activities keeps live information available. AD600 is also compatible with Shure Wireless Workbench, extending control and monitoring options.
Paired with additional Axient Digital solutions, AD600 users benefit from interference avoidance features available with ShowLink, a feature of Axient Digital ecosystem that enables real-time control and communication with all ADX transmitters.
Guided Coordination features available on AD600 provide users with the ability to plan, scan, and deploy frequencies to their entire system, or dive deep for complete control in challenging RF environments. Additionally, advanced tools are available to analyze the spectrum, listen to RF activity, capture data, and perform site surveys.
The key features of AD600 have already been put to the test at events around the world. Steve Caldwell, RF Coordinator, used AD600 and Axient Digital at the international Tokyo-based athletic competition last summer: “In my opinion, the best feature of the AD600 is its ability to sample up to six different antenna (or distribution network) sources concurrently. This allowed me to see comparable levels of four separate antenna inputs (the Axient Digital Quadversity distribution) and two localized wideband antennas,” shared Steve. “This ability to compare the six discrete antennas allowed quite accurate localization of any transmitter in the Tokyo stadium. As the six antennas were varied in both location and beamwidth direction, including two antennas on the opposite side of the stadium on an RF over Fiber (RFoF) network, the ability to locate a transmitter based purely on RSSI was remarkably accurate.”