LV IPR-150

Low Voltage 150kVA In-line Power Regulator

The Gridco Systems Low Voltage, Three-Phase, 50/60 Hertz, 150 kVA In-line Power Regulator™ (IPR-150) is a new class of agile grid infrastructure that combines utility-scale power electronics, high accuracy sensors, and advanced control algorithms to provide dynamic, continuous and precise load voltage regulation, VAR compensation, harmonic cancellation, and power monitoring.

Leveraging a combined series-connected voltage-source and shunt-connected current-source power electronics architecture, these multi-function devices can be used for residential-, commercial- or utility-scale renewable integration, Volt-VAR Optimization (VVO) / Conservation Voltage Reduction (CVR) for improved energy efficiency and peak capacity management, Fault Detection, Isolation, and Restoration (FDIR) for improved system reliability, and improved power quality.

The IPR-150 is a ruggedized hardware system purpose-built for harsh outdoor environments and designed for 25-year life with no maintenance. Available with or without a Distributed Grid Controller (DGC), the IPR-150 can be deployed on a pad or a pedestal next to the distribution transformer or further downstream.

Key Features

  • Load voltage regulation under forward and reverse power flow
  • Reactive power compensation, leading or lagging
  • Load voltage and source current harmonic cancellation (3rd to 7th harmonic)
  • Power quality monitoring
  • Dynamic (sub-cycle), continuous and precise performance
  • Purpose built, utility-scale power electronics designed for 25-year lifetime with no maintenance
  • Autonomous operation, or local or remote (centralized) management
  • Built-in bypass mechanism
  • Flexible mounting options for pad or pedestal
  • Operating temperature: -40° to 50°C
  • NEMA-4/IP-65 enclosure

Key Benefits

  • Reliably and scalably integrate intermittent renewable generation
  • Augment VVO/CVR approaches to achieve greater energy efficiency and peak demand reduction
  • Alleviate capacity constraints and avoid/defer costly generation and system upgrades or demand charges
  • Mitigate sags and swells
  • Improve power quality
  • Extend life of existing assets
  • Reduce outages and improve restoration times
  • Improve system efficiency, reliability and safety