Abstract :
The paper is concerned with the research work carried out in the area of holistic modelling of electronic systems for industry, with field programmable gate arrays (FPGA) rapid prototyping of the digital electronic controllers. The novel method deals with the functional modelling of complete power systems using the behavioural features of hardware description languages. Case studies of using VHDL for power electronic system modelling, simulation, controller design and implementation are presented. The control systems, based on neural networks, fuzzy logic and vector control, are implemented using FPGAs. There are major advantages of the new approach, such as: a unique modelling and evaluation environment for complete power systems, the same environment (VHDL) is used for the FPGA rapid prototyping of the digital controller, fast design development, short time to market, a CAD platform independent model, reusability of the model/design, generation of valuable IP, concurrent engineering basic rules (unique EDA environment and common design database) are fulfilled. The new modelling approach is validated experimentally
Keywords :
concurrent engineering; digital control; field programmable gate arrays; fuzzy control; hardware description languages; neurocontrollers; power electronics; software prototyping; FPGA; VHDL; concurrent engineering; digital electronic controller rapid prototyping; field programmable gate arrays; fuzzy logic; hardware description languages; industrial electronic systems; neural networks; power electronic system; vector control; Consumer electronics; Digital control; Electrical equipment industry; Electronics industry; Field programmable gate arrays; Industrial control; Industrial electronics; Power system modeling; Power system simulation; Prototypes; Electronic Systems; FPGAs; Modelling; VHDL;
