Matrix convertor, power generation system, and method for controlling power factor

What is claimed as new and desired to be secured by Letters Patent of the United States is: 1 . A matrix convertor comprising: a power convertor disposed between a power system and a rotating electric machine and comprising a plurality of bidirectional switches; and a controller configured to control an exciting current flowing from the power convertor to the rotating electric machine so as to control a power factor on a side of the power system. 2 . The matrix convertor according to claim 1 , wherein the controller comprises a detector configured to detect at least one of reactive power and a reactive current supplied from the matrix convertor to the power system, and a current command generator configured to generate an exciting current command based on at least one of the reactive power and the reactive current detected by the detector. 3 . The matrix convertor according to claim 2 , wherein the controller comprises a power factor command generator configured to generate a power factor command for the power system to make at least one of the reactive current and the reactive power have a predetermined value, and a limiter configured to limit the power factor command within a predetermined range, and wherein the current command generator is configured to generate the exciting current command based on a difference between the power factor command and an output of the limiter. 4 . The matrix convertor according to claim 2 , wherein the current command generator is configured to generate the exciting current command based on at least one of the reactive power and the reactive current when a rotation speed of the rotating electric machine is equal to or lower than a predetermined value. 5 . A power generation system comprising a power generator comprising a rotating electric machine, the rotating electric machine comprising: a power convertor disposed between a power system and a rotating electric machine and comprising a plurality of bidirectional switches; and a controller configured to control an exciting current flowing from the power convertor to the rotating electric machine so as to control a power factor on a side of the power system. 6 . A method for controlling a power factor, the method comprising: detecting a reactive current or reactive power supplied from a matrix convertor to a power system, the matrix convertor comprising a power convertor disposed between the power system and a rotating electric machine, the power convertor comprising a plurality of bidirectional switches; and controlling an exciting current flowing from the power convertor to the rotating electric machine so as to control a power factor on a side of the power system based on at least one of the reactive current and the reactive power. 7 . The method according to claim 6 , wherein the controlling step comprises generating an exciting current command based on at least one of the detected reactive power and the detected reactive current, and controlling the power convertor based on the exciting current command. 8 . The method according to claim 7 , further comprising: generating a power factor command for the power system to make at least one of the reactive current and the reactive power have a predetermined value; and limiting the power factor command within a predetermined range, wherein the exciting current command generating step comprises generating the exciting current command based on a difference between a first value and a second value of the power factor command, the first value being a value before the power factor command is limited, the second value being a value after the power factor command has been limited. 9 . A matrix convertor comprising: a power convertor disposed between a power system and a rotating electric machine and comprising a plurality of bidirectional switches; and means for controlling an exciting current flowing from the power convertor to the rotating electric machine so as to control a power factor on a side of the power system.