Load design for a 25 kV distribution test line

“…The testing and maintenance costs of this system, however, are very high compared to a real-time simulation with HIL setup. Hydro Quebec also has a purely hardware-based distribution CPT [16]. This test bed operates at 25 kV and has solar, wind, and storage assets attached; it is fed by its own independent transformer from a distribution substation.…”

Review of Design Elements within Power Infrastructure Cyber–Physical Test Beds as Threat Analysis Environments

“…The testing and maintenance costs of this system, however, are very high compared to a real-time simulation with HIL setup. Hydro Quebec also has a purely hardware-based distribution CPT [16]. This test bed operates at 25 kV and has solar, wind, and storage assets attached; it is fed by its own independent transformer from a distribution substation.…”

Review of Design Elements within Power Infrastructure Cyber–Physical Test Beds as Threat Analysis Environments

“…Hydro‐Québec's Research Institute, IREQ, has been involved in a wide variety of innovative projects since 1970 [1], focusing in particular on developing testing infrastructure for power equipment [2] and simulation tools for planning and operating modern power grids [3]. Over the years, two major infrastructures have been developed: a large‐scale real‐time electromagnetic transient (EMT) simulator, called Hypersim [4–6]; and a full‐scale 25‐kV, 10‐MVA experimental distribution test line with a variety of loads and generation equipment [7, 8]. Hypersim was designed for controller hardware‐in‐the‐loop (CHIL) testing of the control systems of high‐voltage direct current (HVDC) interconnections, flexible alternating current transmission systems (FACTS), protection relays and so forth.…”

Contribution to stability analysis of power hardware‐in‐the‐loop simulators

Fault application system design for a 25kV distribution test feeder