Pontificia Universidad Católica de Chile Pontificia Universidad Católica de Chile
Rojas F., Cardenas R., Clare J., Diaz M., Pereda J., Kennel R. (2019)

A Design Methodology of Multi-Resonant Controllers for High Performance 400Hz Ground Power Units

Revista : IEEE Transactions on Industrial Electronics
Volumen : 66
Número : 8
Páginas : 6549-6559
Tipo de publicación : ISI Ir a publicación

Abstract

In aerospace applications, a ground power unit has to provide balanced and sinusoidal 400 Hz phase-toneutral voltages to unbalanced and nonlinear single-phase loads. Compensation of high-order harmonics is complex, as the ratio between the sampling frequency and compensated harmonics can be very small. Thus, multiple superimposed resonant controllers or proportional-integral (PI) nested controllers in multiple dq frames are not good alternatives. The first approach cannot ensure stability, while the second cannot track the sinusoidal zero-sequence components typically present in unbalanced systems, and unattainably high bandwidth at the inner current control loop is typically required. In this paper, a simple methodology for designing a single-loop, multiple resonant controller for simultaneous mitigation of several high-order harmonics, ensuring stability, is presented. Experimental results, based on a 6 kW four-leg neutral point clamped converter, validate the proposed controller design, showing excellent steady-state and transient performance.