DC voltage detector and power converter using the same

The invention claimed is: 1. A DC voltage detector configured to detect, in a power converter which converts a first AC voltage to a DC voltage and converts said DC voltage to a second AC voltage to be supplied to a load, said DC voltage, comprising: an AC voltage detector configured to detect said first AC voltage or said second AC voltage; and an arithmetic circuit configured to determine said DC voltage on the basis of said first AC voltage or said second AC voltage detected by said AC voltage detector, wherein said load is a synchronous motor, said power converter is a thyristor starter for starting said synchronous motor, said power converter including a converter configured to convert a first AC power to a DC power, a DC reactor configured to smooth a direct current, and an inverter configured to convert said DC power supplied from said converter via said DC reactor to a second AC power which is supplied to said synchronous motor, each of said converter and said inverter includes a plurality of thyristors, each of said first AC voltage and said second AC voltage is a three-phase AC voltage, said first AC voltage is a voltage input to said converter, said second AC voltage is a voltage output from said inverter, the frequency of said second AC voltage is variable, and said arithmetic circuit, on the basis of said first or second AC voltage detected by said AC voltage detector and a plurality of control signals for controlling said plurality of thyristors included in said converter or said inverter, determines said DC voltage output from said converter or said DC voltage input to said inverter. 2. A power converter comprising: a converter configured to convert a first AC power to a DC power; a DC reactor configured to smooth a direct current; an inverter configured to convert said DC power supplied from said converter via said DC reactor to a second AC power which is supplied to a load; an AC voltage detector configured to detect a first AC voltage input to said converter or a second AC voltage output from said inverter; and a control circuit configured to control said converter and said inverter on the basis of a detection result from said AC voltage detector, wherein each of said first AC voltage and said second AC voltage is a three-phase AC voltage, the frequency of said second AC voltage is variable, said load is a synchronous motor, said power converter is a thyristor starter for starting said synchronous motor and each of said converter and said inverter includes a plurality of thyristors, and said control circuit is configured to generate a plurality of control signals for controlling said plurality of thyristors included in said inverter on the basis of said second AC voltage detected by said AC voltage detector, and determine said DC voltage input to said inverter on the basis of said plurality of control signals and said second AC voltage detected by said AC voltage detector. 3. A power converter comprising: a converter configured to convert a first AC power to a DC power; a DC reactor configured to smooth a direct current; an inverter configured to convert said DC power supplied from said converter via said DC reactor to a second AC power which is supplied to a load; an AC voltage detector configured to detect a first AC voltage input to said converter or a second AC voltage output from said inverter; and a control circuit configured to control said converter and said inverter on the basis of a detection result from said AC voltage detector, wherein each of said first AC voltage and said second AC voltage is a three-phase AC voltage, the frequency of said second AC voltage is variable, said load is a synchronous motor, said power converter is a thyristor starter for starting said synchronous motor and each of said converter and said inverter includes a plurality of thyristors, and said control circuit is configured to generate a plurality of control signals for controlling said plurality of thyristors included in said converter on the basis of said first AC voltage detected by said AC voltage detector, and determine said DC voltage output from said converter on the basis of said plurality of control signals and said first AC voltage detected by said AC voltage detector. 4. The power converter according to claim 2 , wherein said thyristor starter starts a synchronous generator in a power plant as said synchronous motor. 5. The power converter according to claim 3 , wherein said thyristor starter starts a synchronous generator in a power plant as said synchronous motor.