共找到 1179 条与 电力系统 相关的标准,共 79 页
Smart Substation Plug and Play Interface Specification
Smart grid dispatch control system and substation plug-and-play framework specification
Communication networks and systems for power utility automation - Part 6: Configuration description language for communication in power utility automation systems related to IEDs; Amendment 1
Communication networks and systems for power utility automation - Part 6: Configuration description language for communication in power utility automation systems related to IEDs
This part of IEC 62257, which is a Technical Specification, applies to stand-alone renewable energy products having the following characteristics: All components required to provide basic energy services are sold/installed as a kit or integrated into a single component, including at a minimum; A battery/batteries or other energy storage device(s); Power generating device, such as a solar panel, capable of charging the battery/batteries or other energy storage device(s); Cables, switches, wiring, connectors and protective devices sufficient to connect the power generating device, power control unit(s) and energy storage device(s); Loads (optional), such as lighting, load adapter cables (e. g., for mobile devices), and appliances (television, radio, fan, etc.); The PV module maximum power point voltage and the working voltage of any other components in the kit do not exceed 35 V. Exceptions are made for AC-to-DC converters that meet appropriate safety standards. NOTE This voltage limit corresponds to the definition of decisive voltage classification A (DVC-A) for wet locations in Table 6 of IEC 62109-1:2010; The peak power rating of the PV module or other power generating device is less than or equal to 350 W; No design expertise is required to choose appropriate system components. This document was written primarily for off-grid renewable energy products with batteries and solar modules with DC system voltages not exceeding 35 V and peak power ratings not exceeding 350 W. The tests contained herein are capable in many cases of adequately assessing systems at higher voltages and/or power ratings. In situations where the specifying organization agrees to apply these tests to products with higher voltages and power ratings, the test laboratory is responsible for ensuring that adequate safety measures are employed to protect technicians and test equipment. The specifying organization is also responsible for defining the consumer safety requirements of these products.
Recommendations for renewable energy and hybrid systems for rural electrification - Part 9-5: Integrated systems - Laboratory evaluation of stand-alone renewable energy products for rural electrification
Power systems management and associated information exchange - Interoperability in the long term - Part 102: CIM - IEC 61850 harmonization
Guidelines for division of construction budget items for power system safety and stability control projects
This part of IEC 61850, which is a Technical Report, describes scheduling for devices using IEC 61850. The parameters, which identify this new namespace, are: Namespace Version: 2017; Namespace Revision: A; UML model file which reflects this namespace edition: wg10uml02v17-wg18uml02v11b- wg17uml02v18-jwg25uml02v04c.eap, UML model version WG17UML02v18; Namespace release date: 2017-06-12; Namespace name: "(Tr)IEC61850-90-10:2017A" The namespace "(Tr)IEC61850-90-10:2017A" is considered as "transitional" since the models are expected to be included in the next editions of IEC 61850-7-4xx and IEC 61850-7-3. Potential extensions/modifications may happen if/when the models are moved to International Standard status. Only the new data objects and CDCs that are not said inherited from existing LNs will be tagged with this namespace name. The others should still refer to the namespace where they are primarily defined.
Communication networks and systems for power utility automation - Part 90-10: Models for scheduling
Smart Grid Dispatch Control System Technical Specification Part 5: Dispatch Plan
Smart Grid Dispatch Control System Technical Specification Part 6: Dispatch Management
Smart Grid Dispatch Control System Technical Specification Part 7: Grid Operation Cockpit
Power grid short-term and ultra-short-term load forecasting technical specifications
Smart grid dispatching control system technical specification part 4: real-time monitoring and early warning
Smart Grid Dispatch Control System Technical Specification Part 8: Operation Evaluation
Smart Grid Dispatch Control System Technical Specification Part 3: Basic Platform
Code for Design of Series Capacitor Compensation System in Power System
Power systems management and associated information exchange - Data and communications security. - Part 9: Cyber security key management for power system equipment
This part of IEC 62351 defines network and system management (NSM) data object models that are specific to power system operations. These NSM data objects will be used to monitor the health of networks and systems, to detect possible security intrusions, and to manage the performance and reliability of the information infrastructure. The goal is to define a set of abstract objects that will allow the remote monitoring of the health and condition of IEDs (Intelligent Electronic Devices), RTUs (Remote Terminal Units), DERs (Distributed Energy Resources) systems and other systems that are important to power system operations. Power systems operations are increasingly reliant on information infrastructures, including communication networks, IEDs, and self-defining communication protocols. Therefore, management of the information infrastructure has become crucial to providing the necessary high levels of security and reliability in power system operations. The telecommunication infrastructure that is in use for the transport of telecontrol and automation protocols is already subject to health and condition monitoring control, using the concepts developed in the IETF Simple Network Management Protocol (SNMP) standards for network management. However, power system specific devices (like teleprotection, telecontrol, substation automation, synchrophasors, inverters and protections) need instead a specific solution for monitoring their health. The NSM objects provide monitoring data for IEC protocols used for power systems (IEC 61850, IEC 60870-5-104) and device specific environmental and security status. As a derivative of IEC 60870-5-104, IEEE 1815 DNP3 is also included in the list of monitored protocols. The NSM data objects use the naming conventions developed for IEC 61850, expanded to address NSM issues. For the sake of generality these data objects, and the data types of which they are comprised, are defined as abstract models of data objects. In addition to the abstra
Power systems management and associated information exchange - Data and communications security - Part 7: Network and System Management (NSM) data object models
Energy management system application program interface (EMS-API) - Part 452: CIM static transmission network model profiles
Application integration at electric utilities - System interfaces for distribution management - Part 6: Interfaces for maintenance and construction (IEC 61968-6:2015); English version EN 61968-6:2016
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