Thyristor starter

The invention claimed is: 1. A thyristor starter for starting a synchronous machine having a rotor having a field winding and a stator, comprising: a converter that converts AC power into DC power; a DC reactor that smooths the DC power; an inverter that converts the DC power applied from the converter through the DC reactor into AC power with a variable frequency, and supplies the AC power with the variable frequency to the stator; and an exciter that supplies field current to the field winding, wherein the thyristor starter accelerates the synchronous machine from a stop state to a predetermined rotation speed by sequentially performing a first mode and a second mode, the first mode performing commutation of the inverter by intermittently setting DC output current of the converter to zero, and the second mode performing commutation of the inverter by induced voltage of the synchronous machine, and the thyristor starter further raises the induced voltage in proportion to a rotation speed of the synchronous machine by keeping the field current constant, and suppresses a rise of the induced voltage by reducing, in the first mode, the field current, after the induced voltage reaches a first voltage value. 2. The thyristor starter according to claim 1 , wherein the thyristor starter keeps the induced voltage at the first voltage value by reducing the field current in accordance with the rotation speed of the synchronous machine, after the induced voltage reaches the first voltage value. 3. The thyristor starter according to claim 1 , wherein in the second mode, the exciter further increases the induced voltage from the first voltage value by keeping the field current constant, and keeps the induced voltage constant by reducing the field current in accordance with the rotation speed of the synchronous machine, after the induced voltage reaches a second voltage value higher than the first voltage value. 4. The thyristor starter according to claim 1 , further comprising: a position detector that detects a position of the rotor of the synchronous machine; a first controller that controls a firing phase of a thyristor in the inverter, based on a detection signal of the position detector; and a second controller that controls a firing phase of a thyristor in the converter such that DC output current of the converter matches a current command value, based on a detection signal of the position detector, wherein in the first mode, the current command value at a first rotation speed at which the induced voltage is the first voltage value is set to a current value larger than the current command value at a second rotation speed at which the induced voltage is lower than the first voltage value. 5. The thyristor starter according to claim 4 , wherein in a rotation speed range in which the induced voltage is the first voltage value, the current command value is set such that a current value is larger as the rotation speed of the synchronous machine is higher. 6. The thyristor starter according to claim 5 , wherein when the rotation speed of the synchronous machine is in the rotation speed range, the current command value discretely changes in accordance with the rotation speed of the synchronous machine. 7. The thyristor starter according to claim 5 , wherein when the rotation speed of the synchronous machine is in the rotation speed range, the current command value continuously changes in accordance with the rotation speed of the synchronous machine. 8. The thyristor starter according to claim 5 , wherein the synchronous machine further includes a fan attached to a rotation shaft of the rotor, the fan circulating a cooling medium through a passage formed in the stator and the rotor.