TOYOTA MOTOR ENGINEERING & MANUFACTURING NORTH AMERICA, INC.
대리인 / 주소
Dinsmore & Shohl LLP
인용정보
피인용 횟수 :
0인용 특허 :
19
초록▼
Electronics assemblies incorporating three-dimensional heat flow structures are disclosed herein. In one embodiment, an electronics assembly includes a substrate having a surface defining a plane, a heat generating component coupled to the surface of the substrate, a cooling device positioned outsid
Electronics assemblies incorporating three-dimensional heat flow structures are disclosed herein. In one embodiment, an electronics assembly includes a substrate having a surface defining a plane, a heat generating component coupled to the surface of the substrate, a cooling device positioned outside of the plane defined by the surface of the substrate, and a three-dimensional heat flow structure. The three-dimensional heat flow structure includes a first portion thermally coupled to the heat generating component and a second portion extending from the first portion. At least a portion of the first portion is parallel to the plane defined by the substrate. The second portion is transverse to the plane defined by the surface of the substrate. The second portion is thermally coupled to the cooling device such that the three-dimensional heat flow structure thermally couples the heat generating component to the cooling device.
대표청구항▼
1. An electronics assembly comprising: a substrate comprising a surface defining a plane;a heat generating component coupled to the surface of the substrate;a cooling device positioned outside of the plane defined by the surface of the substrate; anda three-dimensional heat flow structure comprising
1. An electronics assembly comprising: a substrate comprising a surface defining a plane;a heat generating component coupled to the surface of the substrate;a cooling device positioned outside of the plane defined by the surface of the substrate; anda three-dimensional heat flow structure comprising: a first portion thermally coupled to the heat generating component, wherein at least a portion of the first portion is parallel to the plane defined by the substrate, and the first portion comprises: a convergence region;a first arm extending from the convergence region; anda second arm extending from the convergence region, wherein the convergence region, the first arm, and the second arm are planar and parallel to the plane defined by the surface of the substrate;a second portion extending from the convergence region of the first portion and is transverse to the first portion, wherein: the second portion is transverse to the plane defined by the surface of the substrate; andthe second portion is thermally coupled to the cooling device such that the three-dimensional heat flow structure thermally couples the heat generating component to the cooling device. 2. The electronics assembly of claim 1, wherein the second portion is orthogonal to the first portion. 3. The electronics assembly of claim 1, wherein: the cooling device comprises a cold plate; andthe second portion of the three-dimensional heat flow structure is thermally coupled to the cold plate. 4. The electronics assembly of claim 1, further comprising at least one additional substrate, each additional substrate comprising a surface and an additional heat generating component, wherein: the three-dimensional heat flow structure comprises at least one additional first portion coupled to the additional heat generating component of the at least one additional substrate;the substrate and the at least one additional substrate each comprise a notch; andthe second portion of the three-dimensional heat flow structure is disposed within the notch of the substrate and the at least one additional substrate. 5. The electronics assembly of claim 1, further comprising a second heat generating component, wherein the second heat generating component is directly coupled to the cooling device. 6. The electronics assembly of claim 5, wherein: the cooling device comprises a first cold plate and a second cold plate;the second heat generating component is disposed between the first cold plate and the second cold plate. 7. The electronics assembly of claim 5, wherein the heat generating component is operable to control operation of the second heat generating component. 8. The electronics assembly of claim 5, wherein the heat generating component is a gate-drive integrated circuit and the second heat generating component is a power switching device. 9. The electronics assembly of claim 1, wherein the three-dimensional heat flow structure comprises an anisotropic heat flow path having an anisotropic material embedded in the first portion such that heat flows within the first arm and the second arm toward a central location in the convergence region. 10. The electronics assembly of claim 1, further comprising: a plurality of additional heat generating components coupled to the surface of the substrate and thermally coupled to the three-dimensional heat flow structure; anda plurality of additional second heat generating components directly coupled to the cooling device. 11. The electronics assembly of claim 1, further comprising: a second heat generating component, wherein the second heat generating component is directly coupled to the cooling device;a housing, the housing defining an enclosure and comprising a component surface, wherein: the component surface comprises an opening;the cooling device and the second heat generating component are disposed within the enclosure;the first portion of the three-dimensional heat flow structure is disposed on the component surface of the housing such that the second portion extends through the opening of the component surface;the second heat generating component comprises at least one electrically conductive lead that extends from the second heat generating component and into the opening;the surface of the substrate faces the component surface of the housing such that the heat generating component is disposed between the surface of the substrate and the first portion of the three-dimensional heat flow structure; andthe at least one electrically conductive lead is electrically coupled to the substrate. 12. An electronics assembly comprising: a housing defining an enclosure and comprising a component surface, the component surface comprising an opening;a substrate comprising a surface defining a plane, wherein the surface of the substrate faces the component surface of the housing;a heat generating component coupled to the surface of the substrate;a cooling device positioned outside of the plane defined by the surface of the substrate and disposed within the enclosure; anda three-dimensional heat flow structure comprising: a first portion thermally coupled to the heat generating component, the first portion comprising: a convergence region;a first arm extending from the convergence region; anda second arm extending from the convergence region, wherein the convergence region, the first arm, and the second arm are planar and parallel to the plane defined by the surface of the substrate;a second portion extending from the first portion, wherein: the second portion is transverse to the first portion;the second portion extends through the opening of the component surface of the housing; andthe second portion is thermally coupled to the cooling device such that the three-dimensional heat flow structure thermally couples the heat generating component to the cooling device. 13. The electronics assembly of claim 12, wherein the second portion is orthogonal to the first portion. 14. The electronics assembly of claim 12, wherein: the cooling device comprises a cold plate; andthe second portion of the three-dimensional heat flow structure is thermally coupled to the cold plate. 15. The electronics assembly of claim 12, further comprising a second heat generating component, wherein: the cooling device comprises a first cold plate and a second cold plate; andthe second heat generating component is disposed between the first cold plate and the second cold plate. 16. The electronics assembly of claim 15, wherein the heat generating component is a gate-drive integrated circuit and the second heat generating component is a power switching device. 17. The electronics assembly of claim 12, wherein the three-dimensional heat flow structure comprises an anisotropic heat flow path comprises an anisotropic material embedded in the first portion such that heat flows within the first arm and the second arm toward a convergence location in the convergence region. 18. The electronics assembly of claim 12, further comprising: a plurality of additional heat generating components coupled to the surface of the substrate and thermally coupled to the three-dimensional heat flow structure; anda plurality of additional second heat generating components directly coupled to the cooling device.
Nikkhoo, Michael; Heirich, Doug; Riccomini, Roy; Ye, Maosheng; Beerman, Michael; Taylor, Joseph Daniel, Flexible thermal conduit for an electronic device.
Shirakami, Takashi; Yamazaki, Naoya; Iino, Kazuhiro; Tada, Yoshiaki; Ueda, Satoshi, Heat transfer mechanism, heat dissipation system, and communication apparatus.
Maeda, Kazuhiko; Horikoshi, Hideto, Power generating mechanism that has a duct, heat pipe, or heat sink to efficiently diffuse heat generated by a heat.
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