Wisycom will showcase the latest updates to its MTK982 dual-wideband, stereo IEM/IFB transmitter at the 2024 NAMM Show (Booth 18504).
As the widest switching bandwidth transmitter available among any in-ear monitor system (up to 300 MHz), the MTK982 enables users to find frequency anywhere in the world.
With new fonts for improved visibility of the transmitter name, frequency and TX status, user control will be improved. There will also be key parameter information displayed on the front panel LCD screen, such as receiver type, audio output and IP address, and the RF power information will be more prominently shown.
“Customers have been very excited about the advanced functionality of the MTK982 since we launched it earlier this year,” commented John Kowalski, Vice President of Sales and Marketing, Wisycom. “These latest updates are the direct result of feedback we have received from our users in the field, and we look forward to showcasing them, along with the wideband capabilities of the system, to all 2024 NAMM Show attendees.”
In addition, the MTK982 transmitter features DIGICOM multi-brand compatibility software, which makes it possible for users to integrate the transmitter with a variety of third-party receivers. The transmitter also has stereo, mono and intercom audio modulation, along with an optional redundant power supply and an output power of up to 2 Watts.
The MTK982 can generate multiple types of RF modulations, the transmitter’s low interference output features wideband intermodulation phase cancellation.
The MTK982 also has Stationary Wave Ratio (SWR) sensing on its antenna outputs. The 470-770 MHz frequency range in Europe (470-663 MHz in North America), in conjunction with the BFLT1 transmitter and BFLR1 receiver, enables the MTK982 to transmit signals over fiber to a remote area, with very low latency. With multi-companding DSP audio processing, analog and digital AES3 inputs, and primary/secondary outputs for distributed applications, the MTK982 is a powerful solution that will prove essential to audio systems.