Thermal management of active discharge function in automotive inverters

What is claimed is: 1. A thermal management system, the system comprising: an active discharge circuit of an automotive inverter in thermal communication with a DC link capacitor; a thermal interface material positioned between the active discharge circuit and the DC link capacitor such that heat generated from the active discharge circuit is transferred to the DC link capacitor by the thermal interface material; and a coolant channel for a cooling fluid extending between the DC link capacitor and a base plate of the automotive inverter, wherein the heat generated from the active discharge circuit of the automotive inverter is transferred from the DC link capacitor to the cooling fluid to dissipate the heat. 2. The thermal management system of claim 1 , wherein the active discharge circuit is formed on a printed circuit board separate from a main controller board that includes a passive discharge circuit. 3. The thermal management system of claim 1 , wherein the active discharge circuit comprises an array of resistors that is in contact with the thermal interface material. 4. The thermal management system of claim 1 , wherein a thermal property of the thermal interface material matches the thermal requirements of the automotive inverter. 5. The thermal management system of claim 1 , wherein the DC link capacitor forms a metallic housing providing a heat sink for the heat generated from the active discharge circuit. 6. A thermal management assembly for an automotive inverter, comprising: a main controller board including a passive discharge circuit; an active discharge board coupled to the main controller board, the active discharge board including an active discharge circuit; a DC link capacitor forming a metallic housing; a thermal interface material thermally connecting the active discharge board with the metallic housing; and a coolant channel for carrying heat dissipated by the passive discharge circuit and the active discharge circuit to a cooling fluid circulating within the coolant channel regulating a temperature of the automotive inverter. 7. The thermal management assembly of claim 6 , wherein an upper coolant channel is formed in the metallic housing of the DC link capacitor and a lower coolant channel is formed in a base plate of the automotive inverter, and wherein the cooling fluid circulates within the lower coolant channel. 8. The thermal management assembly of claim 6 , wherein the active discharge board includes an array of resistors in contact with the thermal interface material. 9. The thermal management assembly of claim 6 , wherein the active discharge board is positioned adjacent to the main controller board. 10. A method to thermally manage heat dissipated from automotive inverter, comprising: thermally connecting a printed circuit board including an active discharge circuit and a DC link capacitor by a thermal interface material, the DC link capacitor forming a metallic housing; transferring heat dissipated from the active discharge circuit to the metallic housing via the thermal interface material; and transferring the dissipated heat from a coolant channel formed in the metallic housing to a cooling fluid flowing in the coolant channel. 11. The method of claim 9 , wherein the metallic housing provides a heat sink for the heat generated from the active discharge circuit.