Anterix Completes First Phase of 900 MHz NREL Private LTE Project
Friday, September 13, 2019 | Comments

Anterix completed phase one of the company's ongoing project with the U.S. Department of Energy (DOE) National Renewable Energy Laboratory (NREL) in Denver.

Leveraging Anterix's 900 MHz spectrum, NREL demonstrated increased reliability for distributed generation systems such as solar and wind using private Long Term Evolution (LTE) communications. The results show the potential for private LTE networks to effectively transmit control information without interruption or delay, regardless of usage level or other congestion conditions, a statement said.

NREL and Anterix have been working with an independent industrial advisory board (IAB), comprised of seven utilities that provide service across 18 states, as well as Pete Tseronis, the former DOE chief technology officer (CTO). The members of the IAB include Consumers Energy, Duke Energy, Evergy, Eversource Energy, Hawaiian Electric, Holy Cross Energy and Xcel Energy.

The group analyzed the performance of private LTE broadband networks to accelerate the development and validation of innovative approaches to enhance the resilience of distribution systems, including microgrids, with high penetration of distributed energy resources (DERs). The initial results show that Anterix's private 900 MHz broadband spectrum can enable a private LTE network to quickly communicate signals to energy grid devices, the company said.

"Adding more renewable and advanced energy technologies to the grid requires a backbone of secure, reliable communications," said Juan Torres, NREL's associate laboratory director for energy systems integration. "NREL's work with Anterix at the Energy Systems Integration Facility is answering questions and identifying scalable solutions to allow communications to keep pace with deployment."

Moving into phase two, the private LTE network will be expanded to include a full suite of utility grid automation devices and the advanced distribution management system (ADMS) control system. Similar wireless congestion scenarios will be tested with high-impact communications, such as control signals, prioritized over normal traffic such as meter reads. The IAB will guide these efforts to ensure the testing scenarios reflect real-world utility conditions.

"Anterix is proud to support the NREL project to help define resilient and secure communications for our nation's critical infrastructure," said Mike Brozek, senior vice president of technology for Anterix. “These initial results give a baseline for controlling intermittent energy sources that utilities can refer to as they plan for a future filled with solar generation. Technology moves fast; the utility industry is moving with it, and Anterix is committed to supporting these transformative changes leveraging private 900 MHz broadband spectrum.”

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