Power inverter with balanced power flow for multiple electrical machines

What is claimed is: 1. A power inverter assembly configured to provide a balanced power flow to each of a plurality of electrical machines, the power inverter assembly comprising: at least one heat sink having a top side and a bottom side; a plurality of pairs of power semiconductor modules mounted along the top and bottom sides of at least one of the at least one heat sink for thermal exchange with the at least one heat sink; and a plurality of gate driver boards configured to control a supply of direct current (DC) power to each of the plurality of pairs of power semiconductor modules; each pair of power semiconductor modules being configured to switch DC electrical power on and off to one phase of one of a three phase alternating current (AC) electrical motor or a three phase AC electrical generator of the plurality of electrical machines, a first pair of the plurality of pairs of power semiconductor modules being configured to supply electrical power to a first phase of a first one of a three phase AC electrical motor or generator, the first pair being located on and connected to one of a top side or a bottom side of one of the at least one heat sink for thermal exchange therewith, second and third pairs of the plurality of pairs of power semiconductor modules being configured to supply electrical power to second and third phases, respectively, of the first three phase AC electrical motor or generator, the second and third pairs being located on and connected to the other of a top side or a bottom side of one of the at least one heat sink for thermal exchange therewith, the first pair being symmetrically arranged relative to the second and third pairs such that the arrangement of the first, second, and third pairs of power semiconductor modules forms a geometric pattern with at least one of the second and third pairs at least partially overhanging the first pair, a fourth pair of the plurality of pairs of power semiconductor modules being configured to supply electrical power to a first phase of a second one of a three phase AC electrical motor or generator, the fourth pair being located on an opposite side of a heat sink from the first pair; fifth and sixth pairs of the plurality of pairs of power semiconductor modules being configured to supply electrical power to second and third phases, respectively, of the second one of the three phase AC electrical motor or generator, the fifth and sixth pairs being located on an opposite side of a heat sink from the fourth pair, and the fourth pair being symmetrically arranged relative to the fifth and sixth pairs such that the arrangement of the fourth, fifth, and sixth pairs of power semiconductor modules forms a geometric pattern with at least one of the fifth and sixth pairs at least partially overhanging the fourth pair, and with at least a portion of the pairs of power semiconductor modules that supply electrical power to the second one of the three phase AC electrical motor or generator overlapping relative to a portion of the pairs of power semiconductor modules that supply electrical power to the first one of the three phase AC electrical motor or generator. 2. The power inverter assembly of claim 1 , wherein AC outputs of each pair of power semiconductor modules are connected together and to a common start connection point and a common finish connection point in parallel by broad flat plate connectors designed to each have an electrical impedance that is approximately within ±10% of each other. 3. The power inverter assembly of claim 1 , further including a third one of a three phase AC electrical motor or generator of the plurality of electrical machines, a seventh pair of the plurality of pairs of power semiconductor modules being configured to supply electrical power to a first phase of the third one of the three phase AC electrical motor or generator, the seventh pair being located on an opposite side of a heat sink from the fourth pair; eighth and ninth pairs of the plurality of pairs of power semiconductor modules being configured to supply electrical power to second and third phases, respectively, of the third one of the three phase AC electrical motor or generator, the eighth and ninth pairs being located on an opposite side of a heat sink from the seventh pair, and the seventh pair being symmetrically arranged relative to the eighth and ninth pairs such that the arrangement of the seventh, eighth, and ninth pairs of power semiconductor modules forms an isosceles triangle-shaped pattern, with the base of the triangle formed by the eighth and ninth pairs, and the apex of the triangle formed by the seventh pair, and with at least a portion of the pairs of power semiconductor modules that supply electrical power to the third one of the three phase AC electrical motor or generator overlapping relative to a portion of the pairs of power semiconductor modules that supply electrical power to the second one of the three phase AC electrical motor or generator. 4. The power inverter assembly of claim 1 , wherein AC outputs of each pair of power semiconductor modules are connected together and to a common start connection point and a common finish connection point in parallel by broad flat plate connectors designed to each have an electrical impedance that is approximately within ±10% of each other. 5. The power inverter assembly of claim 3 , wherein AC outputs of each pair of power semiconductor modules are connected together and to a common start connection point and a common finish connection point in parallel by broad flat plate connectors designed to each have an electrical impedance that is approximately within ±10% of each other. 6. The power inverter assembly of claim 1 , wherein each of the plurality of pairs of semiconductor modules includes at least one insulated gate bipolar transistor (IGBT). 7. The power inverter assembly of claim 1 , wherein each of the plurality of gate driver boards is located on an opposite side of one of the plurality of pairs of semiconductor modules from the heat sink. 8. The power inverter assembly of claim 1 , wherein each of the plurality of gate driver boards is located on the same side of one of the plurality of pairs of semiconductor modules as the heat sink. 9. A power inverter assembly configured to provide a balanced power flow to each of a plurality of electrical machines, the power inverter assembly comprising: at least one heat sink having a top side and a bottom side; a plurality of pairs of power semiconductor modules mounted along the top and bottom sides of at least one of the at least one heat sink for thermal exchange with the at least one heat sink; and a plurality of gate driver boards configured to control a supply of direct current (DC) power to each of the plurality of pairs of power semiconductor modules; each pair of power semiconductor modules being configured to switch DC electrical power on and off to one phase of one of a three phase alternating current (AC) electrical motor or a three phase AC electrical generator of the plurality of electrical machines, a first pair of the plurality of pairs of power semiconductor modules being configured to supply electrical power to a first phase of a first one of a three phase AC electrical motor or generator, the first pair being located on and connected to one of a top side or a bottom side of one of the at least one heat sink for thermal exchange therewith, second and third pairs of the plurality of pairs of power semiconductor modules being configured to supply electrical power to second and third phases, respectively, of the first three phase AC electrical motor or generator, the second and third pairs being located on and connected to the other of a top side or a bottom