Claims
- 1. An electric drive for a vehicle at least partially propelled by an electric motor, the drive comprising:
a vehicle drive train; a power converter operatively coupled to the drive train and comprising: a power electronics circuit configured to generate controlled output power; and an electrical and thermal subassembly to which the power electronics circuit is directly mounted, the subassembly including a flow regulating element to provide regulation of temperature of the power electronics circuit in a closed-loop manner.
- 2. The electric vehicle drive of claim 1, wherein the power electronics circuit includes solid state switches configured to bi-directionally or uni-directionally convert incoming power to controlled outgoing power.
- 3. The electric vehicle drive of claim 2, wherein a first portion of the power electronics circuit is supported on a first side of the subassembly and a second portion of the power electronics circuit is supported on a second side of the subassembly opposite the first side.
- 4. The electric vehicle drive of claim 1, wherein the subassembly includes inlet and outlet ports for a cooling fluid and an internal fluid conduit for directing flow of cooling fluid adjacent to the power electronics circuit for removal of heat.
- 5. The electric vehicle drive of claim 4, comprising an interface on which the power electronics circuit is secured, the interface contacting cooling fluid flowing through the internal fluid conduit during operation to convectively and conductively remove heat from the power electronics circuit.
- 6. The electric vehicle drive of claim 5, wherein the interface includes a plate supporting a plurality of solid state switches or power conversion devices directly secured thereto.
- 7. The electric vehicle drive of claim 6, wherein the solid state switches or power conversion devices are bonded to the plate.
- 8. The electric vehicle drive of claim 6, wherein the solid state switches or power conversion devices are mechanically mounted to the interface.
- 9. The electric vehicle drive of claim 5, wherein the interface includes a plurality of heat exchange surfaces extending into the internal fluid conduit.
- 10. The electric vehicle drive of claim 9, wherein the heat exchange surfaces are generally pin shaped.
- 11. The electric vehicle drive of claim 5, further comprising a diverter disposed within the internal fluid conduit to control flow of cooling fluid.
- 12. The electric vehicle drive of claim 11, wherein the diverter directs flow of cooling fluid into contact with the interface.
- 13. The electric vehicle drive of claim 5, further comprising a heat exchanging element disposed in the internal fluid conduit.
- 14. The electric vehicle drive of claim 13, wherein the heat exchanging element is secured to the interface.
- 15. The electric vehicle drive of claim 5, wherein the interface is removably secured to the subassembly.
- 16. The electric vehicle drive of claim 1, further comprising a flow control valve for regulating flow of cooling fluid through the internal fluid conduit.
- 17. The electric vehicle drive of claim 16, further comprising at least one sensor for detecting temperature of a portion of the converter, and wherein the sensor is coupled to the flow control valve for closed loop control of flow of cooling fluid through the internal fluid conduit.
- 18. An electric drive for a vehicle at least partially propelled by an electric motor, the drive comprising:
a vehicle drive train; a power converter for driving the drive train, the power electronic circuit being mounted on a support comprising:
a substrate having inlet and outlet ports and a circulation path coupled between the inlet and outlet ports, the inlet and outlet ports being configured to transmit a coolant for circulation through the circulation path, the substrate being made of a first material; and an interface plate configured to support a power electronics circuit and to be secured to the substrate, the interface plate having integral heat dissipation elements extending therefrom configured to extend into the coolant circulation path when the interface plate is mounted to the substrate for extraction of heat from the interface plate during operation, the interface plate being made of a second material different from the first material.
- 19. The electric vehicle drive of claim 18, comprising a plurality of interface plates configured to be secured to the substrate and to contact coolant circulating therethrough during operation.
- 20. The electric vehicle drive of claim 19, wherein the substrate is configured to receive the interface plates on different sides thereof.
- 21. The electric vehicle drive of claim 20, wherein the different sides include mutually opposed sides of the substrate.
- 22. The electric vehicle drive of claim 18, wherein the interface plate supports a plurality of solid state switches bonded thereto.
- 23. The electric vehicle drive of claim 18, wherein the interface plate includes a plurality of heat exchange surfaces extending into the internal fluid conduit.
- 24. The electric vehicle drive of claim 23, wherein the heat exchange surfaces are generally pin shaped.
- 25. The electric vehicle drive of claim 23, wherein the substrate includes a plurality of heat exchange surfaces configured to cooperate with the heat exchange surfaces of the interface plate for heat transfer.
- 26. The electric vehicle drive of claim 25, wherein the heat exchange surfaces of the interface plate and of the substrate are generally pin shaped.
- 27. The electric vehicle drive of claim 18, further comprising a diverter disposed within the coolant circulation path to control flow of cooling fluid therethrough.
- 28. The electric vehicle drive of claim 27, wherein the diverter directs flow of cooling fluid into toward the interface plate.
- 29. The electric vehicle drive of claim 18, further comprising a heat exchanging element disposed in the coolant circulation path.
- 30. The electric vehicle drive of claim 29, wherein the heat exchanging element is secured to the interface plate.
- 31. The electric vehicle drive of claim 18, wherein the interface plate is removably secured to the substrate.
- 32. The electric vehicle drive of claim 18, further comprising a flow control valve for regulating flow of cooling fluid through the coolant circulation path.
- 33. The electric vehicle drive of claim 32, further comprising at least one sensor for detecting temperature, and wherein the sensor is coupled to the flow control valve for closed loop control of flow of cooling fluid through the coolant circulation path.
- 34. An electric drive for a vehicle at least partially propelled by an electric motor, the drive comprising:
a vehicle drive train; a plurality of controlled power electronics circuits including solid state switches configured to convert incoming power to controlled outgoing power for driving the drive train; a fluid cooled support for supporting at least the power electronics circuits, the fluid cooled support including inlet and outlet ports for a cooling fluid and an internal fluid conduit for directing flow of cooling fluid adjacent to the power electronics circuits for removal of heat therefrom; and a plurality of interfaces on which the respective power electronics circuits are secured, the interfaces contacting cooling fluid flowing through the internal fluid conduit during operation to convectively remove heat from the power electronics circuit.
- 35. The electric vehicle drive of claim 34, wherein the power electronic circuits are supported on opposing sides of the support.
- 36. The electric vehicle drive of claim 35 wherein each interface includes a plate supporting a plurality of solid state switches bonded thereto.
- 37. The electric vehicle drive of claim 35, wherein each interface includes a plurality of heat exchange elements extending into the internal fluid conduit.
- 38. The electric vehicle drive of claim 37, wherein the heat exchange elements are generally pin shaped.
- 39. The electric vehicle drive of claim 34, further comprising a diverter disposed within the internal fluid conduit to control flow of cooling fluid therethrough.
- 40. The electric vehicle drive of claim 34, further comprising a heat exchanging element disposed in the internal fluid conduit.
- 41. The electric vehicle drive of claim 34, wherein each interface is removably secured to the support.
- 42. The electric vehicle drive of claim 34, further comprising a flow control valve coupled to the support for regulating flow of cooling fluid through the internal fluid conduit.
- 43. The electric vehicle drive of claim 34, further comprising at least one sensor for detecting temperature of a portion of the converter, and wherein the sensor is coupled to the flow control valve for closed loop control of flow of cooling fluid through the internal fluid conduit.
- 44. An electric drive for a vehicle at least partially propelled by an electric motor, the drive comprising:
a vehicle drive train; a power electronics circuit configured to produce output power for driving the drive train; a substrate having inlet and outlet ports and a circulation path coupled between the inlet and outlet ports, the inlet and outlet ports being configured to transmit a coolant for circulation through the circulation path, the substrate being made of a first material; and an interface plate supporting the power electronics circuit and to be secured to the substrate, the interface plate having integral heat dissipation elements extending therefrom configured to extend into the coolant circulation path when the interface plate is mounted to the substrate for extraction of heat from the interface plate during operation, the interface plate being made of a second material different from the first material, the interface plate further including a plurality of heat exchange surfaces extending into the internal fluid conduit.
- 45. The modular power converter of claim 44, wherein the heat exchange surfaces are generally pin shaped.
- 46. The modular power converter of claim 44, wherein the substrate includes a plurality of heat exchange surfaces configured to cooperate with the heat exchange surfaces of the interface plate for heat transfer.
- 47. The modular power converter of claim 46, wherein the heat exchange surfaces of the interface plate and of the substrate are generally pin shaped.
- 48. The modular power converter of claim 44, comprising a plurality of interface plates configured to be secured to the substrate and to contact coolant circulating therethrough during operation.
- 49. The modular power converter of claim 48, wherein the substrate is configured to receive the interface plates on different sides thereof.
- 50. The modular power converter of claim 49, wherein the different sides include mutually opposed sides of the substrate.
- 51. The modular power converter of claim 44, wherein the interface plate supports a plurality of solid state switches bonded thereto.
- 52. The modular power converter of claim 44, further comprising a diverter disposed within the coolant circulation path to control flow of cooling fluid therethrough.
- 53. The modular power converter of claim 52, wherein the diverter directs flow of cooling fluid into toward the interface plate.
- 54. The modular power converter of claim 44, wherein the interface plate is removably secured to the substrate.
- 55. The modular power converter of claim 44, further comprising a flow control valve for regulating flow of cooling fluid through the coolant circulation path.
- 56. The modular power converter of claim 55, further comprising at least one sensor for detecting temperature, and wherein the sensor is coupled to the flow control valve for closed loop control of flow of cooling fluid through the coolant circulation path.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional Application No. 60/349,259, filed Jan. 16, 2002.
GOVERNMENT LICENSE RIGHTS
[0002] This invention was made with Government support under Cooperative Agreement No. DE-FC02-99EE50571 awarded by the Department of Energy. The Government has certain rights in this invention.
Provisional Applications (1)
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Number |
Date |
Country |
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60349259 |
Jan 2002 |
US |