TY - GEN
T1 - New control scheme for series DC active power filters coupled by transformers applied to high performance magnet power supplies
AU - Li, Kuang
AU - Xiao, Guochun
AU - Liu, Jinjun
AU - Wang, Zhaoan
PY - 2004
Y1 - 2004
N2 - This paper proposes a transformer-coupled series DC active power filter (DCAPF) applied to high performance magnet power supplies with large current and low ripples. In the condition of heavy magnet loads, this type of DCAPF has much better filtering performance compared with the parallel DCAPF. Firstly, the configuration of the magnet power supplies with the series DCAPF is proposed. Then a novel control strategy for the DCAPF, i.e. detecting the ripple voltage across the R-C branch filter as the reference signal of the DCAPF, is presented and analyzed in detail. After that, the most important component in the whole power system, the coupling transformer, is described in particular. The difference between it and ordinary transformers is introduced. Furthermore, the main steps of designing the coupling transformer are sketched out. With the novel control approach and the coupling transformer, a set of laboratory prototype of 5kVA high performance magnet power supply system was developed. Simulation and experimental studies have been carried out. For 600Hz component, the ripple voltage decreases to 1.14V, only 6.52% of the value without the DCAPF. It is nearly the same case with other ripple components. The results verify the high performance of the transformer-coupled series DCAPF.
AB - This paper proposes a transformer-coupled series DC active power filter (DCAPF) applied to high performance magnet power supplies with large current and low ripples. In the condition of heavy magnet loads, this type of DCAPF has much better filtering performance compared with the parallel DCAPF. Firstly, the configuration of the magnet power supplies with the series DCAPF is proposed. Then a novel control strategy for the DCAPF, i.e. detecting the ripple voltage across the R-C branch filter as the reference signal of the DCAPF, is presented and analyzed in detail. After that, the most important component in the whole power system, the coupling transformer, is described in particular. The difference between it and ordinary transformers is introduced. Furthermore, the main steps of designing the coupling transformer are sketched out. With the novel control approach and the coupling transformer, a set of laboratory prototype of 5kVA high performance magnet power supply system was developed. Simulation and experimental studies have been carried out. For 600Hz component, the ripple voltage decreases to 1.14V, only 6.52% of the value without the DCAPF. It is nearly the same case with other ripple components. The results verify the high performance of the transformer-coupled series DCAPF.
KW - Coupling transformer
KW - Current ripple
KW - DCAPF
KW - Magnet power supplies
KW - Voltage ripple
UR - https://www.scopus.com/pages/publications/17444378961
M3 - 会议稿件
AN - SCOPUS:17444378961
SN - 7560518699
T3 - Conference Proceedings - IPEMC 2004: 4th International Power Electronics and Motion Control Conference
SP - 462
EP - 467
BT - Conference Proceedings - IPEMC 2004
A2 - Wang, Z.
T2 - Conference Proceedings - IPEMC 2004: 4th International Power Electronics and Motion Control Conference
Y2 - 14 August 2004 through 16 August 2004
ER -