Alternating current electric system and control method thereof

The invention claimed is: 1. An alternating current electric system, comprising: an alternating current electric machine having a plurality of electric terminals; a power converter that is connected to the electric terminals of the alternating current electric machine and that exchanges power with the alternating current electric machine, the power converter including semiconductor switching elements, such that each of the electric terminals is connected between an upper arm switching element and a lower arm switching element, the upper arm switching element and the lower arm switching element connected in series between direct current terminals of a direct current power source; a control device that controls the switching elements of the power converter; and current information acquisition means for acquiring a point at which current flowing through each electric terminal of the alternating current electric machine is in the vicinity of zero, wherein the control device is configured to control an on-state of switching elements in the converter to short-circuit at least two of the plurality of electric terminals in the transition period to cause the current flowing through the electric terminals to reach the vicinity of zero and switching off the upper arm switching element and the lower arm switching element of a third electric terminal, and wherein the control device is configured to, after short-circuiting the at least two of the electric terminals and determining that current has restarted through the third electric terminal after the third electric terminal reaching a current of zero, perform sequentially, for each of the at least two electric terminals, an operation of opening the at least two electric terminals or putting the at least two electric terminals in a conductive state via rectifying elements in the power converter. 2. An alternating current electric system control method for an alternating current electric system having an alternating current electric machine, a power converter that is connected to a plurality of electric terminals of the alternating current electric machine and that exchanges power with the alternating current electric machine, and a control device that controls semiconductor switching elements that configure the power converter, each of the electric terminals being connected between an upper arm switching element and a lower arm switching element, the upper arm switching element and the lower arm switching element connected in series between direct current terminals of a direct current power source, said control method comprising: determining a converter transition period for transitioning from a converter operation period in which power is exchanged between the power converter and alternating current electric machine to a converter stop period in which no exchange of power is carried out; short-circuiting at least two of the plurality of electric terminals in the transition period by controlling switching elements in the power converter to cause the current flowing through the electric terminals to reach the vicinity of zero and switching off the upper arm switching element and the lower arm switching element of a third electric terminal; and after short-circuiting the at least two of the electric terminals and determining that current has restarted through the third electric terminal after the third electric terminal reaching a current of zero, performing sequentially, for each of the at least two electric terminals, an operation of opening the at least two electric terminals or putting the at least two electric terminals in a conductive state via rectifying elements in the power converter. 3. The alternating current electric system control method according to claim 2 , wherein the power converter is a full-bridge type inverter, and wherein the operation short-circuiting the at least two electric terminals is carried out by causing current to flow back by switching semiconductor switching elements that make up the inverter and using reflux diodes connected in anti-parallel with the switching elements. 4. The alternating current electric system control method according to claim 3 , wherein: in the converter transition period, when the direction of the current flowing through each electric terminal is a forward direction from the power converter toward the alternating current electric machine, or when the size of the current flowing through each electric terminal is within a range from a predetermined negative value to zero, upper and lower arm semiconductor switching elements of the power converter connected to the relevant electric terminal are put into an off-state and the state maintained, when the size of the current flowing through each electric terminal is equal to or lower than the predetermined negative value, the upper arm switching element connected to the relevant electric terminal is put into an off-state and the lower arm switching element is put into an on-state, and the operation of opening the at least two electric terminals or putting the at least two electric terminals in a conductive state via rectifying elements in the power converter includes an operation of putting the lower arm switching element into an off-state at the point at which the current flowing through the respective terminal reaches the vicinity of zero. 5. The alternating current electric system control method according to claim 4 , wherein the operation of each switching element is realized by projecting subsequent system behavior from the state of the system at the point at which the converter transition period starts. 6. The alternating current electric system control method according to claim 4 , wherein the operation of opening the at least two electric terminals or putting the at least two electric terminals in a conductive state via rectifying elements in the power converter includes: putting into an off-state the lower arm switching element and, when the current flowing is positive, putting the upper arm switching element into an on-state, and at the point at which the current flowing reaches the vicinity of zero, putting the upper arm switching element into an off-state. 7. The alternating current electric system control method according to claim 4 , wherein the operation of opening the at least two electric terminals or putting the at least two electric terminals in a conductive state via rectifying elements in the power converter includes: putting the upper arm switching element into an off-state and, when the current flowing is negative, putting the lower arm switching element into an on-state, and, after putting the lower arm switching element into the on-state, at the point at which the current flowing reaches the vicinity of zero, putting the lower arm switching element into an off-state. 8. The alternating current electric system control method according to claim 4 , wherein: the direct current power supply is connected via a direct current switch to a direct current voltage unit of the power converter, and in the converter transition period, the direct current switch is turned off while the at least two of the plurality of electric terminals are short-circuited by controlling the switching elements in the power converter to cause the current flowing through the electric terminals to reach the vicinity of zero. 9. The alternating current electric system control method according to claim 3 , wherein: in the converter transition period, when the direction of the current flowing through each electric terminal is a forward direction from the power converter toward the alternating current electric machine, or when the size of the current flowing through each electric terminal is within a range from