System for mutual inductance cancellation for X-type multilevel converters

The invention claimed is: 1. A multi-phase power inverter for an electric propulsion system, the multi-phase power inverter comprising: a plurality of X-type multilevel power converters arranged to transfer electric power between a high-voltage direct current (DC) power supply and an electric machine, wherein each of the plurality of X-type multilevel power converters is arranged as a solid-state integrated circuit (IC) including: a positive DC power bus; a negative DC power bus; a first neutral bus; a second neutral bus; a first alternating current (AC) bus; a second AC bus; a plurality of semiconductor switches disposed in a tiered arrangement, the plurality of semiconductor switches including a first semiconductor switch, a second semiconductor switch, a third semiconductor switch, a fourth semiconductor switch, a fifth semiconductor switch, a sixth semiconductor switch, a seventh semiconductor switch, and an eighth semiconductor switch; a first power diode, and a second power diode; a first heat sink adjoined to the positive DC power bus of each of the X-type multilevel power converters via a first direct bonded copper (DBC) substrate; and a second heat sink adjoined to the negative DC power bus of each of the X-type multilevel power converters via a second DBC substrate; and wherein the first semiconductor switch, the second semiconductor switch, the third semiconductor switch, and the fourth semiconductor switch are connected in series between the positive DC power bus and the negative DC power bus; wherein the fifth semiconductor switch, the sixth semiconductor switch, the seventh semiconductor switch, and the eighth semiconductor switch are connected in series between the positive DC power bus and the negative DC power bus; wherein the first semiconductor switch is connected to the second semiconductor switch at a first node, wherein the second semiconductor switch is connected to the third semiconductor switch at a second node, and wherein third semiconductor switch is connected to the fourth semiconductor switch at a third node; wherein the fifth semiconductor switch is connected to the sixth semiconductor switch at a fourth node, wherein the sixth semiconductor switch is connected to the seventh semiconductor switch at a fifth node, and wherein the seventh semiconductor switch is connected to the eighth semiconductor switch at a sixth node; wherein the first power diode is connected between the third node and the fourth node; wherein the second power diode is connected between the first node and the sixth node; wherein the second node is connected to the first AC bus; and wherein the fifth node is connected to the second AC bus. 2. The multi-phase power inverter as recited in claim 1 , wherein the plurality of semiconductor switches, the positive DC power bus, the negative DC power bus, the first AC bus, the second AC bus, the first power diode, and the second power diode are arranged into a plurality of tiers including: a first tier composed of the first semiconductor switch arranged coplanar with the second semiconductor switch that is arranged coplanar with the third semiconductor switch that is arranged coplanar with the fourth semiconductor switch; a second tier composed of the first power diode, the second power diode, the positive DC power bus that is arranged coplanar with the first AC bus, and the negative DC power bus that is arranged coplanar with the negative AC bus; and a third tier composed of the second semiconductor switch arranged coplanar with the third semiconductor switch that is arranged coplanar with the sixth semiconductor switch that is arranged coplanar with the seventh semiconductor switch, wherein the first tier is arranged parallel to the second tier that is arranged parallel to the third tier. 3. The multi-phase power inverter as recited in claim 2 , wherein the first AC bus is arranged parallel to the second AC bus. 4. The multi-phase power inverter as recited in claim 3 , wherein the positive DC power bus is arranged parallel to the negative DC power bus. 5. The multi-phase power inverter as recited in claim 4 , wherein the positive DC power bus and the negative DC power bus are arranged at a first end of the X-type multilevel power converter, and wherein the first AC bus and the second AC bus are arranged at a second end of the X-type multilevel power converter. 6. The multi-phase power inverter as recited in claim 2 , wherein the first semiconductor switch, the second semiconductor switch, the third semiconductor switch, and the fourth semiconductor switch are adjoined to a first side of the first DBC substrate, and the first heat sink is adjoined to a second side of the first DBC substrate; and wherein the fifth semiconductor switch, the sixth semiconductor switch, the seventh semiconductor switch, and the eighth semiconductor switch are adjoined to a first side of the second DBC substrate, and the second heat sink is adjoined to a second side of the second DBC substrate. 7. The multi-phase power inverter as recited in claim 1 , wherein the plurality of semiconductor switches, the positive DC power bus, the negative DC power bus, the first AC bus, the second AC bus, the first power diode, and the second power diode are arranged into a plurality of tiers including: a first tier composed of the first semiconductor switch arranged coplanar with the second semiconductor switch that is arranged coplanar with the third semiconductor switch that is arranged coplanar with the fourth semiconductor switch, the positive DC power bus, and the first AC bus; a second tier composed of the first power diode and the second power diode; and a third tier composed of the second semiconductor switch arranged coplanar with the third semiconductor switch that is arranged coplanar with the sixth semiconductor switch that is arranged coplanar with the seventh semiconductor switch, the negative DC power bus, and the second AC bus; and wherein the first tier is arranged parallel to the second tier that is arranged parallel to the third tier. 8. The multi-phase power inverter as recited in claim 7 , wherein the first AC bus is arranged parallel to the second AC bus. 9. The multi-phase power inverter as recited in claim 7 , wherein the positive DC power bus is arranged parallel to the negative DC power bus. 10. The multi-phase power inverter as recited in claim 1 , wherein the first semiconductor switch, the second semiconductor switch, the third semiconductor switch, and the fourth semiconductor switch are adjoined to a first side of the first DBC substrate, and the first heat sink is adjoined to a second side of the first DBC substrate; and wherein the fifth semiconductor switch, the sixth semiconductor switch, the seventh semiconductor switch, and the eighth semiconductor switch are adjoined to a first side of the second DBC substrate, and the second heat sink is adjoined to a second side of the second DBC substrate. 11. An X-type multilevel power converter for a multi-phase electric power inverter, the X-type multilevel power converter comprising: a positive direct current (DC) power bus; a negative DC power bus; a first neutral bus; a second neutral bus; a first alternating current (AC) bus; a second AC bus; and a plurality of semiconductor switches arranged as a solid-state integrated circuit (IC), the plurality of semiconductor switches disposed in a tiered arrangement, and interconnected via the positive DC power bus, the negative DC power bus, the first neutral bus, and the second neutral bus, the plurality of semiconductor switches including: a first semiconductor switch connected at a first node; a second semiconductor switch