论文信息 - Real-Time Simulation of Power Electronics in Power Systems using an FPGA

Real-Time Simulation of Power Electronics in Power Systems using an FPGA

Accurate simulation of power electronic converters requires time steps which are too small to be implemented in real-time with conventional processors. This paper describes the use of FPGA hardware for the real-time simulation of power electronic converters. An FPGA computation core implements nodal algorithms to simulate in real time a multiple switch system with a small time step. A dual time step simulation method is also presented and illustrated with a sample three-phase test network. The FPGA computation core simulates a PWM inverter with a 5 mus time step while the non switching part of the system is simulated on a conventional processor operating at 50 mus. The simulated system's dynamic is acceptable and this method yields high precision of the power electronics switching and the modulation scheme

Hoang Le-Huy | Louis-A. Dessaint | Philippe Le-Huy | Sylvain Guerette

[1] Mahmoud Matar,et al. FPGA-Based Real-Time Digital Simulation , 2005 .

[2] S. Hui,et al. A discrete approach to the modelling of power electronic switching networks , 1989, 20th Annual IEEE Power Electronics Specialists Conference.

[3] Hermann W. Dommel,et al. Digital Computer Solution of Electromagnetic Transients in Single-and Multiphase Networks , 1969 .

[4] Shu Yuen Ron Hui,et al. Fast simulation of multistage power electronic systems with widely separated operating frequencies , 1996 .