Integrated circuit packaging
First Claim
1. An assembly of a microelectronic device and a package, the package comprising a dielectric body enclosing the microelectronic device, with a plurality of electrically conductive members extending through the dielectric body to an exterior of the package and electrically connected with the microelectronic device, andthe dielectric body comprising means for shielding electromagnetic radiation consisting of a non-conductive layer of a magnetic material forming at least part of the dielectric body, the non-conductive layer of magnetic material having a high magnetic permeability at selected frequencies of radiation generated by operation of the microelectronic device, and the non-conductive layer of magnetic material extending over the microelectronic device for attenuating electromagnetic emission through the dielectric body radiated from the microelectronic device.
4 Assignments
0 Petitions
Accused Products
Abstract
A package is provided for an integrated circuit comprising a dielectric body enclosing the integrated circuit chip having a plurality of conductive terminal members extend through the dielectric body. The dielectric body includes a magnetic shielding layer for shielding electromagnetic radiation from the integrated circuit. The magnetic shielding layer comprises a material having a high magnetic permeability and a high resistivity, so that the dielectric body absorbs electromagnetic radiation at frequencies generated by the integrated circuit and thereby attenuates electromagnetic emissions from the integrated circuit. Suitable materials having a high dielectric constant and high magnetic permeability include ferrites. Conveniently a shielding layer of ferrimagnetic material comprising a ferrite plate may be applied to surfaces of a conventional plastic or ceramic packaging material. Alternatively, ferrite particles may be incorporated into binder to form a composite material suitable for forming into an IC package. The magnetic nature of the shielding provides that a non-conductive dielectric package may significantly attenuate and suppress electromagnetic interference generated by an enclosed IC. Further to provide effective electromagnetic shielding for a large apparatus, individual packages may be customized to provided shielding to particular integrated circuit chips with higher emissions, thereby reducing the total cost of shielding an electronic system or apparatus.
131 Citations
18 Claims
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1. An assembly of a microelectronic device and a package, the package comprising a dielectric body enclosing the microelectronic device, with a plurality of electrically conductive members extending through the dielectric body to an exterior of the package and electrically connected with the microelectronic device, and
the dielectric body comprising means for shielding electromagnetic radiation consisting of a non-conductive layer of a magnetic material forming at least part of the dielectric body, the non-conductive layer of magnetic material having a high magnetic permeability at selected frequencies of radiation generated by operation of the microelectronic device, and the non-conductive layer of magnetic material extending over the microelectronic device for attenuating electromagnetic emission through the dielectric body radiated from the microelectronic device.
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8. A packaged integrated circuit comprising:
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an integrated circuit chip and a package comprising a dielectric body enclosing the integrated circuit chip, and electrically conductive terminal members electrically connected to the integrated circuit chip and extending through the dielectric body to an exterior of the dielectric body, the dielectric body comprising means for shielding electromagnetic radiation consisting of a non-conductive layer of a magnetic material forming at least part of the dielectric body, the non-conductive layer of magnetic material having a high magnetic permeability at selected frequencies of radiation generated by operation of the integrated circuit chip and the non-conductive layer of magnetic material extending over the integrated circuit chip for attenuating electromagnetic emission through the dielectric body radiated from the integrated circuit chip. - View Dependent Claims (9, 10)
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11. A method of attenuating electromagnetic emission from an electronic apparatus including a plurality of packaged integrated circuits, comprising:
selectively shielding an individual integrated circuit of the plurality of integrated circuits with a package including a dielectric body by providing at least part of the dielectric body with magnetic means for shielding electromagnetic radiation consisting of a non-conductive layer of magnetic material having a high resistivity and a high magnetic permeability at frequencies generated by operation of the enclosed individual integrated circuit, electromagnetic emission through the dielectric body radiated from the individual integrated circuit being attenuated by the non-conductive layer of magnetic material extending over the integrated circuit. - View Dependent Claims (12)
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13. A package for an integrated circuit, comprising:
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a dielectric body cooperable with a substrate for enclosing therein an integrated circuit with electrically conductive terminal members extending from the integrated circuit to an exterior of the dielectric body, and the dielectric body comprising electromagnetic radiation shielding means consisting of a non-conductive layer of a magnetic material forming at least part of the dielectric body, the non-conductive layer of magnetic material having a high magnetic permeability to electromagnetic radiation at frequencies generated by operation of the integrated circuit and the non-conductive layer of magnetic material extending over the integrated circuit for attenuating electromagnetic emission through the dielectric body radiated from the integrated circuit. - View Dependent Claims (14, 15, 16, 17, 18)
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Specification