A 4G signal booster from Wilson Electronics, manufacturer of North America’s top-selling line of cellular signal boosters and antennas, has been named by TMC as a recipient of a 2011 Communications Solutions Product of the Year Award.
TMC, a global integrated media company, recognized Wilson’s 4G LTE 700 for the booster’s exceptional innovation. The Communications Solutions Product of the Year Award recognizes the vision, leadership, and thoroughness that are characteristics of the prestigious award. The most innovative products and services brought to the market from March 2011 through March 2012 were chosen as winners.
“Wilson Electronics was chosen to receive a 2011 Product of the Year Award for creating outstanding advancements in communications,” said Rich Tehrani, CEO, TMC. “The 4G LTE 700 has proven benefits for its customers and provides ROI for the companies that use it. Congratulations to the entire team at Wilson. I look forward to more innovative solutions from them in the coming year.”
The 4G LTE 700 is an adjustable-gain indoor booster delivering up to 70 decibels of signal enhancement to provide improved coverage, fewer dropped connections and faster data transfers for any LTE device operating on Verizon Wireless’ 700 MHz 4G network.
For a full list of Communications Solutions Product of the Year Award winners visit tmcnet.com/.
About Wilson Electronics, Inc.
Wilson Electronics, Inc. (wilsonelectronics.com), a leader in the wireless communications industry for more than 40 years, designs and manufactures a wide variety of cellular signal boosters, antennas and related components that significantly improve cellular communication in mobile, indoor, and machine-to-machine (M2M) applications. All Wilson products are engineered, assembled and tested at the company's U.S. headquarters. Wilson products fully comply with FCC regulations for cellular devices and are FCC type accepted and Industry Canada certificated. Wilson Electronics boosters feature cell site protection technologies developed through cooperative effort between Wilson and several major cellular carriers that prevent the possibility of interference with any nearby cell tower.