| 摘要 |
A coolant-cooled electronic module is provided which includes a multi-component assembly and a module lid with openings aligned over respective electronic components. Thermally conductive elements are disposed within the openings, each including opposite coolant-cooled and conduction surfaces, with the conduction surface being thermally coupled to the respective electronic component. A manifold assembly disposed over the module lid includes inner and outer manifold elements, with the inner element configured to facilitate flow of coolant onto the coolant-cooled surfaces. The outer manifold element is disposed over the inner manifold element and coupled to the module lid, with the inner and outer manifold elements defining a coolant supply manifold, and the outer manifold element and module lid defining a coolant return manifold. The coolant supply openings are in fluid communication with the coolant supply manifold, and the coolant exhaust channels are in fluid communication with the coolant return manifold. |
| 主权项 |
1. A coolant-cooled electronic module comprising:
a multi-component assembly comprising multiple electronic components disposed on a substrate; a module lid assembly, the module lid assembly comprising:
a module lid comprising multiple openings through the module lid, each opening being aligned over a respective electronic component of the multiple electronic components of the multi-component assembly;multiple thermally conductive elements disposed within the multiple openings in the module lid, each thermally conductive element of the multiple thermally conductive elements comprising a coolant-cooled surface and a conduction surface, the coolant-cooled surface and the conduction surface being opposite surfaces of the thermally conductive element, and the conduction surface being coupled to the respective electronic component of the multiple electronic components of the multi-component assembly; an inner manifold element disposed over the lid assembly, the inner manifold element comprising opposite first and second main surfaces, the first main surface being configured to facilitate flow of coolant onto, at least in part, the coolant-cooled surfaces of the multiple thermally conductive elements, and including coolant supply openings disposed over the coolant-cooled surfaces of the thermally conductive elements, and coolant exhaust channels disposed, at least in part, adjacent to the coolant-cooled surfaces of the thermally conductive elements; an outer manifold element disposed over the inner manifold element and coupled to the module lid, with the inner manifold element between the outer manifold element and the module lid, wherein the inner manifold element and the outer manifold element define, at least in part, a coolant supply manifold over the second main surface of the inner manifold element, and the outer manifold element and the module lid define, at least in part, a coolant return manifold, the coolant supply openings being in fluid communication with the coolant supply manifold, and the coolant exhaust channels being in fluid communication with the coolant return manifold, and the coolant supply manifold, coolant supply openings, coolant exhaust channels, and coolant return manifold facilitate flow of coolant across the coolant-cooled surfaces of the thermally conductive elements; and wherein the inner manifold element further comprises a manifold wall extending from the second main surface, and the coolant supply manifold is defined within the manifold wall of the inner manifold element, and the coolant return manifold is defined, at least in part, outside and around the manifold wall of the inner manifold element. |
