Abstract
Increasing penetration levels of inverter-based distributed energy resources (DERs) in distribution systems are creating challenges in system operation. Currently, wired or proprietary wireless communications are used by advanced distribution management systems (ADMS) to detect the state of the system and control the DERs for optimal operation. Wireless communications are an alternative solution that can enable connectivity between the dispersed assets used in distribution system applications. This paper demonstrates an experimental test bed to enable the realistic evaluation of communications system characteristics for direct transfer trip (DTT) relaying of a photovoltaic inverter system using a private 900-MHz spectrum wireless LTE network. Private LTE network communications can be deployed to many remote DERs and other grid-edge devices to prevent costly infrastructure upgrades across distribution systems. In addition, this paper provides a framework for evaluating the impact of signal strength and network traffic in communications systems. The results shown develop a better understanding of the best practices for using LTE communications systems across multiple utility applications, such as protective relaying, voltage regulation, and supervisory control and data acquisition system messages.
Original language | American English |
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Number of pages | 6 |
DOIs | |
State | Published - 28 Sep 2020 |
Event | 2020 IEEE International Smart Cities Conference, ISC2 2020 - Piscataway, United States Duration: 28 Sep 2020 → 1 Oct 2020 |
Conference
Conference | 2020 IEEE International Smart Cities Conference, ISC2 2020 |
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Country/Territory | United States |
City | Piscataway |
Period | 28/09/20 → 1/10/20 |
Bibliographical note
See NREL/CP-5D00-76897 for preprintNREL Publication Number
- NREL/CP-5D00-78714
Keywords
- 900-MHz LTE network
- direct transfer trip (DTT)
- inverter protection
- message prioritization
- smart grid
- wireless communication