Abstract
A method for the characterization of non-pulse-width modulation algorithms (non PWM) for high-voltage direct current (HVDC) applications is proposed which includes balancing and protection functions. The effects and dependencies of the modulator on stability of the HVDC transmission system are examined. The results were validated for a real designed MMC modulator for HVDC applications in off-line simulations and on-line hardware-in-the-loop (HIL) test.Minimal or non-effect to stability of the system is shown for the studied modulator in HVDC applications.
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