Reactive power compensation device having function of detecting system impedance

What is claimed is: 1. A reactive power compensation device, comprising: a reactive power output unit outputting reactive power to a power system; a voltage detection unit detecting a system voltage of said power system; and a control unit having first and second operation modes, wherein, in said first operation mode, said control unit controls a magnitude of the reactive power to be output by said reactive power output unit, based on the detected system voltage and one or more control parameters, and thereby adjusts the system voltage to be within a prescribed range or to be a prescribed value, and wherein, in said second operation mode, said control unit provides an output change period, changes the magnitude of the reactive power to be output by said reactive power output unit to said power system in said output change period, calculates, for adjusting said one or more control parameters, a plurality of system impedances of said power system at a plurality of detection time points within said output change period, based on change amounts of the system voltage detected at said plurality of detection time points and corresponding change amounts of the reactive power, evaluates a variation between the calculated system impedances, and, based on the evaluated variation, determines whether to adjust said one or more control parameters based on the calculated system impedances. 2. The reactive power compensation device according to claim 1 , wherein a changed portion of the reactive power output from said reactive power output unit in said output change period has a triangular waveform. 3. The reactive power compensation device according to claim 1 , wherein a changed portion of the reactive power output from said reactive power output unit in said output change period has a waveform generated by applying a first-order lag transfer function to a rectangular wave. 4. The reactive power compensation device according to claim 1 , wherein, in said second operation mode, said control unit provides a plurality of said output change periods, changes the magnitude of the reactive power to be output by said reactive power output unit to said power system in each of said output change periods, calculates, for adjusting said one or more control parameters, a plurality of system impedances of said power system at a plurality of detection time points within each of said output change periods, based on change amounts of the system voltage detected at said plurality of detection time points within each of said output change periods and corresponding change amounts of the reactive power, evaluates a variation between the calculated system impedances in each of said output change periods and a variation of the calculated system impedances between said output chance periods, and, based on the evaluated variations, determines whether to adjust said one or more control parameters based on the calculated system impedances. 5. The reactive power compensation device according to claim 4 , wherein changed portions of the reactive power output from said reactive power output unit in the plurality of said output change periods have a waveform which includes at least one of a triangular waveform and a waveform generated by applying a first-order lag transfer function to a rectangular wave. 6. A reactive power compensation system, comprising first and second reactive power compensation devices connected to a power system, said first reactive power compensation device including: a first reactive power output unit outputting reactive power to said power system; a first voltage detection unit detecting a system voltage of said power system; a first communication device capable of communicating with a second communication device provided in said second reactive power compensation device; and a first control unit having first and second operation modes, wherein, in said first operation mode, said first control unit controls a magnitude of the reactive power to be output by said first reactive power output unit, based on the system voltage detected by said first voltage detection unit and one or more control parameters, and thereby adjusts the system voltage to be within a prescribed range or to be a prescribed value, wherein, when said first control unit shifts from said first operation mode to said second operation mode, said first control unit notifies the second communication device provided in said second reactive power compensation device of information regarding the shift of the operation mode, via said first communication device, and wherein, in said second operation mode, said first control unit further provides an output change period, changes the magnitude of the reactive power to be output by said first reactive power output unit to said power system in said output change period, calculates, for adjusting said one or more control parameters, a plurality of system impedances of said power system at a plurality of detection time points within said output change period, based on change amounts of the system voltage detected at said plurality of detection time points and corresponding change amounts of the reactive power, evaluates a variation between the calculated system impedances, and, based on the evaluated variation, determines whether to adjust said one or more control parameters based on the calculated system impedances, said second reactive power compensation device including: a second reactive power output unit outputting reactive power to said power system; a second voltage detection unit detecting the system voltage of said power system; the second communication device capable of communicating with the first communication device provided in said first reactive power compensation device; and a second control unit configured to control a magnitude of the reactive power to be output by said second reactive power output unit, based on the system voltage detected by said second voltage detection unit, and thereby to adjust the system voltage to be within a prescribed range or to be a prescribed value, wherein, when said second control unit detects, via said second communication device, that said first control unit has shifted from said first operation mode to said second operation mode, said second control unit does not change the reactive power to be output by said second reactive power output unit to said power system for a period of said second operation mode. 7. The reactive power compensation system according to claim 6 , wherein, based on comparison between the system voltage detected by said second voltage detection unit before a shift to said second operation mode and that after the shift to said second operation mode, said second control unit determines whether to adjust the magnitude of the reactive power to be output by said second reactive power output unit, based on the detected system voltage, even in said second operation mode. 8. The reactive power compensation system according to claim 6 , wherein a changed portion of the reactive power output from said first reactive power output unit in said output change period has a triangular waveform. 9. The reactive power compensation system according to claim 6 , wherein a changed portion of the reactive power output from said first reactive power output unit in said output change period has a waveform generated by applying a first-order lag transfer function to a rectangular wave. 10. The reactive power compensation system according to claim 6 , wherein, in said second operation mode, said first control unit provides a plurality of said output change periods, changes the magnitude of the reactive power to be output by said first reactive power output unit to said power sy