Patent ID: 8649197
Filing Date: 2014-02-11
Classification: H02M

Abstract:
1. A multilevel inverter comprising: a plurality of direct current power supplies which are connected in series; a first output terminal and a second output terminal which output an alternating current voltage; a first inverter arm which supplies, to the first output terminal, any one of (i) a direct current voltage applied to a highest electric potential point in the plurality of direct current power supplies, (ii) a direct current voltage applied to a lowest electric potential point in the plurality of direct current power supplies, and (iii) a direct current voltage applied to each power supply connection point at which the plurality of direct current power supplies that are adjacent to each other are connected; and a second inverter arm which supplies, to the second output terminal, any one of (i) the direct current voltage applied to the highest electric potential point, (ii) the direct current voltage applied to the lowest electric potential point, and (iii) the direct current voltage applied to the each power supply connection point, the first inverter arm including a first switching element group to which odd-numbered switching elements belong, the odd-numbered switching elements being (i) connected in series, (ii) provided between the highest electric potential point and the lowest electric potential point, and (iii) connected to respective diodes which are connected in an opposite polarity and in parallel, the first inverter arm further including a third switching element and a first diode for the each power supply connection point, the third switching element having (i) one end which is connected to the each power supply connection point and (ii) the other end which is connected to the highest electric potential point via at least one of the odd-numbered switching elements belonging to the first switching element group, the at least one switching element being equal in number to at least one of the plurality of direct current power supplies, the at least one direct current power supply being provided between the highest electric potential point and the each power supply connection point, the first diode having (i) a cathode which is connected to the each power supply connection point and (ii) an anode which is connected to the lowest electric potential point via the other switching elements which belong to the first switching element group and are equal in number to the other direct current power supplies, the other direct current power supplies being provided between the lowest electric potential point and the each power supply connection point, (i) the first output terminal and (ii) one of connection points at which the odd-numbered switching elements belonging to the first switching element group are connected to each other being connected, the one connection point being located such that at least one of the odd-numbered switching elements provided between the one connection point and the highest electric potential point is smaller in number by one than the other switching elements which belong to the first switching element group and are provided between the one connection point and the lowest electric potential point, the second inverter arm including a second switching element group to which odd-numbered switching elements belong, the odd-numbered switching elements being (i) connected in series, (ii) provided between the highest electric potential point and the lowest electric potential point, and (iii) connected to respective diodes which are connected in an opposite polarity and in parallel, the second inverter arm further including a fourth switching element and a second diode for the each power supply connection point, the fourth switching element having (i) one end which is connected to the each power supply connection point and (ii) the other end which is connected to the highest electric potential point via at least one of the odd-numbered switching elements belonging to the second switching element group, the at least one switching element being equal in number to at least one of the plurality of direct current power supplies, the at least one direct current power supply being provided between the highest electric potential point and the each power supply connection point, the second diode having (i) a cathode which is connected to the each power supply connection point and (ii) an anode which is connected to the lowest electric potential point via the other switching elements which belong to the second switching element group and are equal in number to the other direct current power supplies, the other direct current power supplies being provided between the lowest electric potential point and the each power supply connection point, (i) the second output terminal and (ii) one of connection points at which the odd-numbered switching elements belonging to the second switching element group are connected to each other being connected, the one connection point being located such that at least one of the odd-numbered switching elements provided between the one connection point and the highest electric potential point is smaller in number by one than the other switching elements which belong to the second switching element group and are provided between the one connection point and the lowest electric potential point.