Design and implementation of a 2-level sinusoidal PWM generator with modulation based harmonic elimination

Design and implementation of a 2-level sinusoidal PWM generator with modulation based harmonic elimination

In PWM, harmonic elimination has been achieved traditionally through solution of non-linear equations for switching angles and practically implemented by storing offline calculated solutions in ROM and then reading them in real time. This imposes large memory problems for systems like AC machines re...

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Bibliographische Detailangaben
Hauptverfasser: Rafique, A., Rehman, A., Ahmed, R.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Baseband
Equations
Field programmable gate arrays
Fixed Point
FPGA
Frequency modulation
Look Up Table
Modulation Depth
Natural PWM
Phase modulation
Pulse width modulation
Pulse width modulation inverters
PWM
Sampling methods
Selective Harmonic Elimination
Signal generators
Switching frequency
SystemC
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Beschreibung
Zusammenfassung:In PWM, harmonic elimination has been achieved traditionally through solution of non-linear equations for switching angles and practically implemented by storing offline calculated solutions in ROM and then reading them in real time. This imposes large memory problems for systems like AC machines requiring flexibility both in amplitude and frequency. A modified carrier based naturally sampled PWM approach that closely approximates the performance of harmonic elimination solved this problem in Krein et al. (2004). The modified approach can produce even lower weighted total harmonic distortion than conventional harmonic elimination, and supports dynamic PWM with low harmonics. This paper presents flexible design and efficient implementation of such a scheme with minimum hardware resources. The system was prototyped using SystemC, implemented using VHDL and verified on Xilinx Spartan 3E FPGA.
DOI:10.1109/IC4.2009.4909267