The microPMU is a synchrophasor that high speed records and streams real-time stamped data measurements of electricity, including voltage, current, and frequency, as phasors at different points on a utility electric grid transmission system. Use a synchrophasor for wide area measurement and control to understand complex and dynamic power grid applications in utility distribution grids and microgrids.
How our Synchrophasor Technology Works?
Our microPMU works like a microscope with micro-second resolution and accuracy needed to understand the distribution of power grid applications. The microPMU data provides grid operators with a precise and high-resolution image and pmu measurements of the power grid in real-time.
Our microPMU takes PMU measurements at 30 observations per second. Each measurement is time-stamped according to a common time reference using GPS. The time-stamping of the measurements allows data from different locations and utilities to be time-aligned (synchronized) and combined together. This data provides a precise and complete overview of the entire gride interconnection.
This time-sensitive information helps to alert the grid operators to grid stress early on, potentially avoiding power outages and maintaining power quality.
It’s easy for system operators to install. It can be installed in electrical panels, on distribution poles, in pad mount transformers, and more.
The microPMU is also ideal for smart grid projects that need precise synchrophasor measurements to investigate grid stability problems and to answer questions on blockages.
Our product meets the standard of the US Department of Energy and also forms part of the North American Synchrophasor initiative.
Easy installation, can be installed in electrical
panels, on distribution poles, pad mount, and
Supports connections via PTs and CTs
Ultra-accurate phasor measurements: TVE
Simultaneous recording and streaming of
Compliant with IEEE C37.118.1-2011 and
Fully compatible with OpenPDC, and with
Powerside microPMU plotting application
30 days of micro-synchrophasor
measurement stored in internal memory
Protects equipment from harmonics caused by other equipment
Increases operation reliability reducing maintenance costs
Extends the lifetime of electrical equipment
Provides additional capacity in an existing electrical network
Eliminates the need for engineering analysis
Reduces energy costs by lowering CO2 emissions
The basic system building blocks of an application are GPS satellite-synchronized clocks, phasor measurement units (PMUs), a phasor data concentrator (PDC), communications equipment, and visualization software. Some applications for the microPMU include:
Stability of microgrids or distribution grids, or power generation systems
Event identification and characterization
Topology change detection (open/closed state of switches)
Detection of cyber-attacks rehearsals at substations
“serving wide ranges of services in energy and power quality disciplines”