Smart Grid
Smart Grid
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Technical committeeTypeAcronymSAE J2953-1Published year2013KeywordsDescription
This SAE Recommended Practice J2953/1 establishes requirements and specification by which a specific Plug-In Electric Vehicle (PEV) and Electric Vehicle Supply Equipment (EVSE) pair can be considered interoperable. The test procedures are further described in J2953/2.
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Technical committeeTypeAcronymSAE J2894-1Published year2019KeywordsDescription
The intent of this document is to develop a recommended practice for PEV chargers, whether on-board or off-board the vehicle, that will enable equipment manufacturers, vehicle manufacturers, electric utilities, and others to make reasonable design decisions regarding power quality. The three main purposes are as follows:
1. To identify those parameters of PEV battery charger that must be controlled in order to preserve the quality of the AC service.
2. To identify those characteristics of the AC service that may significantly impact the performance of the charger.
3. To identify values for power quality, susceptibility, and power control parameters which are based on current U.S. and international standards. These values should be technically feasible and cost effective to implement into PEV battery chargers.
SAE J2894/2 will describe the test methods for the parameters/requirements in this document.Technology -
Technical committeeTypeAcronymSAE J2836Published year2018KeywordsDescription
This SAE Information Report J2836 establishes the instructions for the documents required for the variety of potential functions for PEV communications, energy transfer options, interoperability and security. This includes the history, current status and future plans for migrating through these documents created in the Hybrid Communication and Interoperability Task Force, based on functional objective (e.g., (1) if I want to do V2G with an off-board inverter, what documents and items within them do I need, (2) What do we intend for V3 of SAE J2953, …).
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Technical committeeTypeAcronymNISTIR 7761Published year2014KeywordsDescription
This report is a draft of key tools and methods to assist smart grid system designers in making informed decisions about existing and emerging wireless technologies. An initial set of quantified requirements have been brought together for advanced metering infrastructure (AMI) and initial distribution automation (DA) communications. These two areas present technological challenges due to their scope and scale. These systems will span widely diverse geographic areas and operating environments and population densities ranging from urban to rural.
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Technical committeeTypeAcronymNIST Smart Grid RoadmapPublished year2014KeywordsDescription
The Energy Independence and Security Act (EISA) of 2007 requires that NIST develop a framework of standards for the Smart Grid. This document is the second release of the framework first published in January, 2010. It covers the activities and outputs of the Smart Grid Interoperability Panel(SGIP), which is a public-private partnership to support development of this NIST framework. It includes progress on and plans for further development of the Conceptual Architectural Framework; an update to the list of standards identified by NIST and the SGIP for the Smart Grid; a description of the SGIP organization, its activities, processes, and working groups, including the Priority Action Plans for addressing Smart Grid standards gaps and overlaps; cybersecurity strategy and plans for and work products of the SGIP Cybersecurity Working Group (CSWG); development of a framework for interoperability testing and certification, including the Interoperability Process Reference Manual (IPRM); and a discussion of the next steps in the development of the NIST interoperability framework.
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TypeAcronymNEMA SG-AMI 1-2009 (R2015)Published year2016Description
Defines requirements for smart meter firmware upgradeability in the context of an advanced metering infrastructure system for industry stakeholders such as regulators, utilities and vendors.
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Technical committeeTypeAcronymITU-T X.1332 (03/2020)Published year2020Description
Smart metering services have been widely deployed worldwide to make electricity grids more efficient and reliable by gathering/providing electricity usage information from/to customers, respectively. This information can be used to estimate customers' electricity demands, and the estimation can be used to shift demand or to change customers' electricity consumption behaviour by providing electricity usage information to them. However, smart metering services can malfunction because of various threats. For example, invalid metering information can lead to erroneous demand management decisions, and abusing load control functions can cause economic and physical damage to customers. Recommendation ITU-T X.1332 provides security guidelines for smart metering services to enable service providers to implement appropriate security measures to ensure the security of their service. This Recommendation identifies security threats and attack methods against smart metering services, and specifies security requirements and capabilities to mitigate these threats and attacks accordingly.
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Technical committeeTypeAcronymISO 17800:2017CommitteePublished year2017Description
ISO 17800:2017 provides the basis for common information exchange between control systems and end use devices found in single - and multi-family homes, commercial and institutional buildings, and industrial facilities that is independent of the communication protocol in use. It provides a common basis for electrical energy consumers to describe, manage, and communicate about electrical energy consumption and forecasts. ISO 17800:2017 defines a comprehensive set of data objects and actions that support a wide range of energy management applications and electrical service provider interactions including: a) on-site generation, b) demand response, c) electrical storage, d) peak demand management, e) forward power usage estimation, f) load shedding capability estimation, g) end load monitoring (sub metering), h) power quality of service monitoring, i) utilization of historical energy consumption data, and j) direct load control.
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Technical committeeTypeAcronymIEEE 802.15.4g-2012CommitteePublished year2012KeywordsDescription
In this amendment to IEEE Std 802.15.4-2011, outdoor low-data-rate, wireless, smart metering utility network requirements are addressed. Alternate PHYs are defined as well as only those MAC modifications needed to support their implementation.
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Technical committeeTypeAcronymIEEE 1377-2012CommitteePublished year2012Description
Common structures are provided in this standard for encoding data in communication between End Devices (meters, home appliances, IEEE 1703 Nodes) and Utility enterprise collection and control systems using binary codes and Extensible Markup Language (XML) content. The Advanced Metering Infrastructure (AMI) and SmartGrid requirements are addressed as identified by the Office of Electricity Delivery and Energy Reliability of the U.S. Department of Energy and by the Smart Metering Initiative of the Ontario Ministry of Energy (Canada) and of Measurement Canada. Sets of tables are exposed that are grouped together into sections that pertain to a particular feature-set and related function such as Time-of-use, Load Profile, Security, Power Quality, and more. Each standard Table Set (Data Model) can be expanded or restricted by the Manufacturer of the IEEE 1377 Device or home appliance using XML/TDL descriptive registered syntax (XML-based Table Definition Language) and enterprise data-value management using EDL (Exchange Data Language) in a manner that is machine readable. Published jointly with NEMA and Measurement Canada, Tables are provided in support of Gas, Water, and Electric sensors and related appliances. Tables are also provided for network configuration and management by referencing its companion standard IEEE Std 1703TM-2012. IEEE Std 1377-2012 is co-published as ANSI C12.19 and MC12.19.