The common dc-bus concept has become an attractive solution for future aircraft electrical power systems. This article considers the case where a battery connected dc–dc converter and a permanent magnet generator connected ac–dc converter are supplying a common dc bus. Applying a proper modulation scheme for dc–dc converters, suppression of the first-band harmonics ( $f_{c} \pm 3f_{0}$ ) from the ac–dc converter can be achieved. The proposed harmonic suppression scheme essentially uses the fact that two sinusoidal waveforms with phase shift of $\pi $ will counteract to each other. For an aircraft engine driving generator, the fundamental frequency $f_{0}$ is time-varying and dependent on aircraft engine speeds. This time-varying $f_{0}$ is normally derived with a resolver and some measurement error is expected. To ensure the effectiveness of the proposed harmonic suppression scheme, an enhanced pulse width modulation (PWM) compensation scheme has been proposed and implemented every fundamental cycle when the rotor position is detected a zero crossing. The effectiveness of the proposed suppression scheme is validated by experimental results with selected $f_{c} -3f_{0}$ component for one dc–dc converter.
Suppression of First Sideband Switching Harmonics Using DC–DC Converters With an Advanced Modulation Scheme
IEEE Transactions on Transportation Electrification ; 8 , 1 ; 778-787
2022-03-01
2535522 byte
Article (Journal)
Electronic Resource
English
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