This paper presents the implementation on a field programmable gate array (FPGA) of a space vector modulator (SVM) for a voltage inverter, as an approach to the design of reusable and reconfigurable control software for electric drives. In electric drives control, a traditional “main-program-and-subroutine” architecture involves several software issues that must be re-considered at any hardware platform change. The paper describes the first step of a process whose target is the creation of a library of optimised VHDL modules that incorporates the best expertise on each part of the drive. Due to FPGA structure, the portability is intrinsic and also the flexibility will be preserved, since all new solutions can be evaluated and included in the library. Experimental results, carried on a three-phase voltage inverter, are used to highlight potentials and pitfalls of the proposed approach.
FPGA-Based Random PWM with Real-Time Deadtime Compensation
BOLOGNANI, SILVERIO;PACCAGNELLA, ALESSANDRO;ZIGLIOTTO, MAURO
2003
Abstract
This paper presents the implementation on a field programmable gate array (FPGA) of a space vector modulator (SVM) for a voltage inverter, as an approach to the design of reusable and reconfigurable control software for electric drives. In electric drives control, a traditional “main-program-and-subroutine” architecture involves several software issues that must be re-considered at any hardware platform change. The paper describes the first step of a process whose target is the creation of a library of optimised VHDL modules that incorporates the best expertise on each part of the drive. Due to FPGA structure, the portability is intrinsic and also the flexibility will be preserved, since all new solutions can be evaluated and included in the library. Experimental results, carried on a three-phase voltage inverter, are used to highlight potentials and pitfalls of the proposed approach.Pubblicazioni consigliate
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