NIST releases Smart Grid Framework 3.0

he National Institute of Standards and Technology (NIST) has published its NIST Framework and Roadmap for Smart Grid Interoperability Standards, Release 3.0, a document that reflects advances in smart grid technologies and developments from NIST’s collaborative work with industry stakeholders. Revisions to its guidelines for smart grid cybersecurity are available as well.

The 3.0 framework updates the plan for transforming the nation’s aging electric power system into an interoperable smart grid—a network that will integrate information and communication technologies with the power-delivery infrastructure, enabling two-way flows of energy and communications. The Energy Independence and Security Act of 2007 established a goal to modernize the nation’s electricity system and assigned to NIST the primary responsibility to coordinate development of a framework to achieve interoperability of smart grid devices and systems.

The document first appeared in January 2010 and was last updated in February 2012 to its 2.0 version. The 3.0 version was needed in part because of recent progress in grid modernization, including the following developments:

In the past few years, the nation has seen wide deployment of smart electric meters as well as devices called phasor measurement units. These devices, also called synchrophasors, help engineers monitor the flow of electricity at various points in the grid to better maintain grid stability and increase grid efficiency. The 3.0 framework addresses these deployments.

NIST has identified new standards that support interoperability of the smart grid. This list now includes 74 standards and protocols, including seven standards not listed in the 2.0 framework.

Significant updates have been made to the reference architecture model of the smart grid. This model, which offers a broad picture of how the fundamental elements of the smart grid connect and communicate, has now been harmonized with a similar model being developed by the European Community. The updated model reflects the growing importance of “distributed energy resources,” which include nontraditional sources such as customer-owned solar and wind power systems.

New developments and publications in smart grid cybersecurity are documented in the 3.0 framework. In particular, the role of smart grid cybersecurity is discussed in the context of cybersecurity of other critical infrastructures.

Testing and certification is taking on increased urgency as industry reaches consensus on the underlying standards for the smart grid, and the 3.0 framework includes an expanded discussion of this topic. Version 2 of the “Interoperability Process Reference Manual” provides a guide for those setting up new test programs or improving existing ones.

Don't miss