Activities

Practical implementation of Matrix converter power circuits and industrial applications (2017/2/14 福岡工業大学)

2017/03/03

【科目種別】電気エネルギー講座Ⅱ(英語科目)

■講 師: Dr. Liliana de Lillo,
■ご所属: University of Nottingham

■演 題: Practical implementation of Matrix converter power circuits and industrial applications

■日 時: 平成 29年 2月 14日(火)13:00~14:30
■場 所: 福岡工業大学 E棟3階 Cultivation Site R2教室

■主 催: 福岡工業大学 大学院工学研究科

■概要
  The Matrix converter is an alternative power converter topology to the industry standard voltage source inverter utilising a matrix of bi-directional switches to directly connect the supply to a load. Many advantages exist for the matrix converter such as, high power density, no DC link capacitors or inductors, controllable power factor and a typical use for this type of converter would be in an industrial motor drive although they are notoriously difficult to implement.
  This lecture will give an initial outline of the matrix converter topology and go into detail regarding the issues concerning the construction and practical implementation of this class of power converter. Particular attention will be given to the power circuit implementation; power plane design and input filter implementation and controller issues. Significant emphasis will be given to practical implementation examples ranging from a few kW to several hundred kW together with industrial application examples where this converter has a major advantage over voltage source alternatives.

【学生の関わり様】
  The Matrix converter is an alternative power converter topology to the industry standard voltage source inverter utilising a matrix of bi-directional switches to directly connect the supply to a load. Many advantages exist for the matrix converter such as, high power density, no DC link capacitors or inductors, controllable power factor and a typical use for this type of converter would be in an industrial motor drive although they are notoriously difficult to implement.
  This lecture will give an initial outline of the matrix converter topology and go into detail regarding the issues concerning the construction and practical implementation of this class of power converter. Particular attention will be given to the power circuit implementation; power plane design and input filter implementation and controller issues. Significant emphasis will be given to practical implementation examples ranging from a few kW to several hundred kW together with industrial application examples where this converter has a major advantage over voltage source alternatives.
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