![]() * Find maximum energy in a surge arrester for a given disturbance. * Analyze Power Quality related issues including harmonics, flicker and resonance problems. ![]() * Find the harmonics generated by a SVC, HVDC link, STATCOM, machine drive (virtually any power electronic device) using accurate models of thyristor, GTO, IGBT, diode, etc., along with the detailed control systems, analog or digital. ![]() This simulation would be performed with a very small time step (nano-seconds). * Find overvoltages in a power system due to a lightning strike. Multiple run facilities are often used to run hundreds of simulations to find the worst case when varying the point on wave of the fault, type of fault, or location of the fault. ![]() saturation) are a critical factor and are represented. * Find overvoltages in a power system due to a fault or breaker operation. Some typical examples of how PSCAD® can be applied to better understand electrical power systems are: PSCAD® is most suitable for simulating time domain instantaneous responses, also known as electromagnetic transients or instantaneous solutions, in both electrical and control systems. PSCAD® is also known as PSCAD®/EMTDC™ because EMTDC™ is the simulation engine, which is now the integral part of PSCAD® graphical user interface. PSCAD® is a fast, accurate, and easy-to-use power system simulation software for the design and verification of all types of power systems.
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