Harmonic Distortion Analysis of an eGPU-Fed Aircraft EPDS with Phase-Shifted Carrier PWM

Harmonic Distortion Analysis of an eGPU-Fed Aircraft EPDS with Phase-Shifted Carrier PWM

The integration of power electronics devices into on-board electrical power distribution systems (EPDS) has steadily increased due to the trend toward more electric aircraft (MEA) and all electric aircraft (AEA). Digital control and pulse width modulation (PWM) of these devices give rise to the elec...

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Bibliographic Details
Main Authors: Peng Q., Sun J., Yang J., Buticchi G., Tan N.M.L., Guenter S., Wheeler P.
Other Authors: 57804706700
Format: Conference paper
Published: Institute of Electrical and Electronics Engineers Inc. 2025
Subjects:
Acoustic surface wave filters
Aircraft power systems
Asynchronous machinery
Computer debugging
Computer resource management
Computer workstations
DC distribution systems
Electric distortion
High pass filters
Modems
More electric aircraft
Notch filters
Passive filters
Signal receivers
Ac-dc converters
Electrical power distribution systems
Ground power units
Harmonic distortion analysis
Harmonics distortion
Phase shifted
Power electronics converters
Pulsewidth modulations (PWM)
Total harmonic distortions
Harmonic distortion
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Summary:The integration of power electronics devices into on-board electrical power distribution systems (EPDS) has steadily increased due to the trend toward more electric aircraft (MEA) and all electric aircraft (AEA). Digital control and pulse width modulation (PWM) of these devices give rise to the electrical harmonics, which have been extensively discussed for utility grids. However, the variable fundamental frequency and relatively lower switching-to-fundamental (S2F) frequency ratio in the EPDS result in more severe harmonic distortion and coupling between different subsystems. Onboard power electronic converters (PECs) exhibit greater transparency in compacted environments compared to utility power systems. Therefore, their relative PWM phase-shifted carrier (PSC) angles can be harnessed to cancel switching harmonics. In this work, a 3-bus system with an electric ground power unit (eGPU) converter and two active front end (AFE) converters is used to restore the situation of ground powering of an aircraft. The effect of PSC angles of the PECs on the system harmonics distortion is studied with both balanced and unbalanced load situation. On this basis, an online total harmonic distortion (THD) monitor unit is proposed which could calculate the real-time THD level of the EPDS ac bus within one fundamental period. The accuracy of the proposed THD monitor is verified by PLECS simulation. ? 2024 IEEE.

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