A new automatic voltage regulator of self-excited induction generator using SVC magnetic energy recovery switch (MERS)

In this paper, a new voltage regulator applied to self-excited induction generator using SVC magnetic energy recovery switch (MERS) is proposed. Reactive compensation is required to maintain rated voltage when operating in load varying conditions or variable speeds. The proposed system consists of a bidirectional current switch, dc capacitor and inductor as a filter and operates as a variable reactive compensator. Two types of experiments were conducted to perform voltage control in load varying conditions at constant and variable speed. The proposed system has the following advantages: i) simple and fast control, where only two voltage sensors are required, PI controller for feedback operation gives fast response, ii) low switching losses can be achieved using zero voltage switching and low switching frequency, iii) low harmonic distortion; optimal selection of capacitor and inductor will lead to low distortion. The proposed system is proved to have good performance when being applied as a voltage regulation to induction generator. Further more, rating reduction of SVC MERS of about 60% can be achieved by connecting fixed capacitor in parallel to induction generator terminal.

[1]  Takanori Isobe,et al.  A New Induction Generator Voltage Controller Using Controlled Shunt Capacitor, SVC Magnetic Energy Recovery Switch , 2009 .

[2]  F. M. Porter,et al.  Capacitive excitation for induction generators , 1935, Electrical Engineering.

[3]  F. M. Potter,et al.  Capacitive excitation for induction generators , 1935, Electrical Engineering.

[4]  T.A. Lipo,et al.  Controlled shunt capacitor self-excited induction generator , 1998, Conference Record of 1998 IEEE Industry Applications Conference. Thirty-Third IAS Annual Meeting (Cat. No.98CH36242).

[5]  M. Nakaoka,et al.  Static VAR compensator-based terminal voltage control for stand-alone AC and DC outputted self-excited induction generator , 2004 .

[6]  T. F. Chan,et al.  Analysis of self-excited induction generators using an iterative method , 1995 .

[7]  R. Shimada,et al.  Improved Performance of Induction Motor Using Magnetic Energy Recovery Switch , 2007, 2007 Power Conversion Conference - Nagoya.

[8]  J.A. Wiik,et al.  An innovative series connected power flow controller, Magnetic Energy Recovery Switch (MERS) , 2007, 2007 IEEE Power Engineering Society General Meeting.

[9]  M. Naidu,et al.  A 4 kW, 42 V induction machine based automotive power generation system with a diode bridge rectifier and a PWM inverter , 2001, Conference Record of the 2001 IEEE Industry Applications Conference. 36th IAS Annual Meeting (Cat. No.01CH37248).

[10]  E. Hiraki,et al.  Terminal voltage regulation characteristics by static var compensator for a three-phase self-excited induction generator , 2004, IEEE Transactions on Industry Applications.

[11]  M. I. Valla,et al.  Induction Generator Controller Based on the Instantaneous Reactive Power Theory , 2002, IEEE Power Engineering Review.