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DSP-based natural frame control schemes for three-phase unity-power-factor rectifiers

Author
Guzman, R.; Garcia de Vicuña, J.; Pena, R.
Type of activity
Book chapter
Book
Control circuits in power electronics: Practical issues in design and implementation
First page
357
Last page
379
Publisher
The institution of Engineering and Technology
Date of publication
2016-05-01
ISBN
978-1-84919-822-6 Open in new window
DOI
https://doi.org/10.1049/PBPO072E Open in new window
Repository
http://digital-library.theiet.org/content/books/10.1049/pbpo072e_ch13;jsessionid=1f66l2w6hbhqk.x-iet-live-01 Open in new window
http://hdl.handle.net/2117/87219 Open in new window
URL
http://www.theiet.org/resources/books/energy/controlcir.cfm Open in new window
Abstract
Traditionally, digital signal processor (DSP) control algorithms for three-phase power converters are designed in rotating or stationary reference frames. These approaches require the use of rotation matrices and employ linear controllers such as proportional integral (PI) and proportional resonant. This chapter presents an alternative control solution developed in the natural reference frame and applied to a three-phase unity power factor rectifier (UPFR). This solution requires no transformati...
Citation
Guzman, R., Garcia de Vicuña, J., Pena, R. DSP-based natural frame control schemes for three-phase unity-power-factor rectifiers. A: "Control circuits in power electronics: Practical issues in design and implementation". The institution of Engineering and Technology, 2016, p. 357-379.
Keywords
DSP based natural frame control schemes, Digital signal processor control algorithms, Kalman filter, Linear controllers, Nonlinear techniques, Power converters, Proportional integral, Proportional resonant, SMC, Sliding mode control, UPFR, Unity power factor rectifier
Group of research
PERC-UPC - Power Electronics Research Centre
SEPIC - Power and Control Electronics Systems

Participants