abstract

• This work proposes a controller for a three-phase cascade H-bridge seven-level converter used in a shunt active power filter (SAPF) application which includes a repetitive scheme for the compensation of harmonics 6h ± 1. A model description in terms of more appropriate variables facilitates the control design process as it can be split into three independent loops, namely an inner current tracking loop, and outer voltage regulation and balance loops. As a first approach, the inner current loop includes a bank of resonator scheme as the harmonic distortion compensator (HDC), which is later replaced by a repetitive scheme with the aim to reduce the computational effort. However, the required delay to implement the delay lines in the repetitive scheme turns out to be a function of the fundamental frequency, which in real applications may exhibit gradual variations. This entails an implementation issue referred to as the variable fractional delay (VFD), which is compensated by incorporating a Farrow structure. The performance of the proposed controller has been tested in an SAPF based on a cascade H-bridge seven-level converter prototype.

authors

• Catzin-Contreras G.A.
• Escobar G.
• Morales-Caporal R.
• Valdéz Fernández Andrés Alejandro

publication date

• 2024-01-01

published in

• IEEE Journal of Emerging and Selected Topics in Power Electronics  Journal

keywords

• Finite-impulse response filter; multilevel converters; power system harmonics; repetitive control; shunt active power filter (SAPF) Active filters; Bandpass filters; Bridge circuits; Harmonic analysis; Impulse response; Power converters; Voltage regulators; Active power Filter; Delay; Level converter; Multilevel converter; Power harmonic filters; Power systems harmonics; Repetitive control; Resonator filters; Shunt active power filter; Three phasis; Controllers

Digital Object Identifier (DOI)

• 10.1109/JESTPE.2024.3349933

PubMed ID

start page

• 1641

end page

• 1653

volume

• 12

issue

• 2