Wide Area Monitoring. Enabling synchrophasor based wide area monitoring applications and dynamic disturbance analysis.

Advanced Synchrophasor Technology
Monitoring of electrical grid infrastructure is a critical task carried out continuously by system operators to guarantee safe and reliable operations. Traditional SCADA systems give operators a view of the system's operating conditions with a typical latency in the range of seconds and minutes. The relative low measurement frequency and low speed communications combined with the time required to execute analysis programs have not allowed traditional SCADA systems to handle system emergency operations in real time. The faster and higher resolution measurements introduced with synchrophasor technologies, also known as dynamic monitoring capabilities, enable wide area monitoring at the system level based on accurate and precise data at high-speed data rates with extremely low latency, less than 200ms. When applied to wide area applications, synchrophasors enable operators to optimize system availability, reliability and stability analysis and operations. Phasor Data Concentrators (PDCs) and the Phasor Measurement Units (PMUs), that supply control centers with phasor data, are key components of synchrophasor based wide area monitoring systems.

  • Overview
    Enabling Synchrophasor Based Wide Area Monitoring & Control

    GE Digital Energy has the technology for Smart Transmission Networks. Upon detection of disturbances in the power grid, Multilin N60 Phasor Measurement Unit & P30 Phasor Data Concentrator communicating over a secure, high-speed network using JungleMUX multiplexers, enable advanced disturbance analysis & remedial actions such as load shedding and automatic network re-configuration.



     
  • Wide Area Monitoring
    Enabling Synchrophasor Based Wide Area Monitoring

    Reduce synchrophasor based wide area monitoring deployment and maintenance cost by integrating more PMUs per PDC, while being compliant to NERC-PRC-002-2 dynamic disturbance recording requirements.

    • Integration of Phasor Measurement Units (PMUs)
    • Seamless Interface to Super PDCs
    • Integrate any C37.118 compliant device

     
  • Visualization Software
    EnerVista Synchrophasor Viewer Software

    EnerVista Synchrophasor Viewer is a powerful yet simple to use synchrophasor data management and visualization tool. EnerVista Synchrophasor Viewer can be customized to provide different views of the power system in a time aligned, live view or time aligned replay of historical events over user defined time span.

    The visualization interface is based on an easy to use "worksheet" work environment. Users can create multiple worksheets on which multiple user configurable objects such as Phasor Displays, Trend Charts, Historian Statistics and PMU Status tables are displayed.

    EnerVista Synchrophasor Viewer supports up to 16 Multilin P30 historians simultaneously. Each historian can be accessed by up to seven concurrent users.






Multilin™ P30
Phasor Data Concentrator
 
Voltage Regulator Controller
Equipped with as many as 40 PMU inputs, up to 8 individually configurable C37.118 outputs and an incredibly fast recording capability of up to 120 frames per second.

Learn more about Multilin P30
Multilin™ N60 Network
Stability and Synchrophasor
Measurement System
Capacitor Bank Controller
The Multilin N60 Network Stability and Synchrophasor Measurement System is a flexible device intended for the development of load shedding, special protection schemes and advanced synchrophasor measurements.

Learn more about Multilin N60
Multilin™ UR Family with
PMU Capabilities
 
Field RTU
GE's Multilin UR family of protection and control devices (D60, F60, G60, L30, L90, and T60) support PMU capabilities, meeting or exceeding the requirements of the C37.118 synchrophasors for power systems standard

Learn more about Multilin UR Family