Dielectric will strengthen its global Powerlite brand for broadcasters with new systems built specifically for NextGen TV, based on the ATSC 3.0 standard. To be introduced at the 2020 NAB Show, the new Powerlite TFU-WB-LP Series addresses the unique requirements of ATSC 3.0 single-frequency networks (SFNs). The series offers multiple variations, patterns and software-defined proposal generators to help broadcasters develop perfectly-defined, multi-site low-power antenna systems.
Dielectric developed the Powerlite Series to address low-power TV and FM radio budgets. Powerlite systems combine antennas, transmission line, tunable filters and other RF components into one affordable, all-inclusive package. They have proven particularly popular in Asia, Latin America and other international regions.
The Powerlite TFU-WB-LP Series is the first to specifically target next-generation television, or NextGen TV, covering US broadcasters and international regions that adopt ATSC 3.0. The series evolves from Dielectric’s popular TFU-WB family, a range of main and auxiliary UHF antennas developed for the US spectrum repack. While the new Powerlite TFU-WB-LP Series offers a solution for UHF broadcasters in the upcoming low-power repack phase, they are optimized for use in ATSC 3.0 NextGen TV networks.
“The TFU-WB-LP antennas, as well as our low-power antenna options, will all provide low-power broadcasters with repack-related reimbursement opportunities,” said Jay Martin, Vice President of Sales, Dielectric. “However, the Powerlite TFU-WB-LP Series is built with ATSC 3.0 in mind, and designed to prepare and transition broadcasters to NextGen TV. Beyond supplying a complete antenna system, we’re offering online Proposal Generator software to help broadcasters configure systems that meet very specific network designs.”
The Powerlite TFU-WB-LP antennas are built in four-bay increments, with a maximum ERP of 100 kW for each antenna (higher power options are also available). As ATSC 3.0 SFNs will comprise multiple low-power transmitter sites, Dielectric’s Proposal Generator software will help customers design an antenna for coverage needs specific to each site. This means that broadcasters can select the proper power level, directional pattern, height above ground level, and other pertinent design criteria for each location.
“Our customers can essentially design SFN antennas to optimize service within their respective DMAs, complementing the service provided by their primary antenna,” said Martin. “After they design systems using our intelligent configuration software, they can cleanly export the azimuth pattern files to a network planning software program, such as Progira Plan, to complete, evaluate and optimize the SFN system performance.”