Transmission line to waveguide interconnect and method of forming same including a heat spreader
First Claim
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1. An MMIC chip comprising:
- a planar substrate having a first surface and a second surface;
a conductive layer having a ground plane opening on said first surface;
a transmission line on said second surface;
at least one conductor extending from said conductive layer to said second surface defining a waveguide around said opening, said transmission line being connected to said at least one conductor, wherein a projection of said opening defines a waveguide opening defined by a plurality of vias formed in the MMIC chip, leaving a gap for said transmission line to cross an edge of said waveguide opening, wherein the plurality of vias are plated with a conductive material, and wherein the transmission line is connected to one of the plurality of plated vias located opposite the gap; and
a second substrate including a second substrate waveguide and a thermal spreader having a dielectric insert aligned with the second substrate waveguide, wherein the ground plane opening is aligned with the substrate waveguide by aligning the opening with the dielectric insert, and wherein the planar substrate is attached to the second substrate.
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Abstract
An MMIC chip is disclosed that includes a planar substrate having a first surface and a second surface, a conductive layer having an opening on the first surface, a transmission line on the second surface, at least one conductor extending from the conductive layer to the second surface defining a waveguide around the opening, wherein the transmission line is connected to the at least one conductor such that a signal traveling along the transmission line is guided toward the opening in the first side by the at least one conductor.
205 Citations
12 Claims
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1. An MMIC chip comprising:
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a planar substrate having a first surface and a second surface; a conductive layer having a ground plane opening on said first surface; a transmission line on said second surface; at least one conductor extending from said conductive layer to said second surface defining a waveguide around said opening, said transmission line being connected to said at least one conductor, wherein a projection of said opening defines a waveguide opening defined by a plurality of vias formed in the MMIC chip, leaving a gap for said transmission line to cross an edge of said waveguide opening, wherein the plurality of vias are plated with a conductive material, and wherein the transmission line is connected to one of the plurality of plated vias located opposite the gap; and a second substrate including a second substrate waveguide and a thermal spreader having a dielectric insert aligned with the second substrate waveguide, wherein the ground plane opening is aligned with the substrate waveguide by aligning the opening with the dielectric insert, and wherein the planar substrate is attached to the second substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A multichip module comprising a module substrate having a waveguide and at least one chip, said at least one chip comprising:
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a planar chip substrate having a first surface and a second surface; a conductive layer having a ground plane opening on said first surface; a transmission line on said second surface; and a plurality of vias in said at least one chip extending from a periphery of said opening and defining a waveguide having a waveguide opening on said second surface, the waveguide opening having a gap, for said transmission line, to cross an edge of said waveguide opening, wherein, said at least one chip is attached to said module substrate such that said conductive layer opening is aligned with said module substrate waveguide and signals propagating along said transmission line are guided by said vias into said module substrate waveguide; and a second substrate including a second substrate waveguide and a thermal spreader having a dielectric insert aligned with the second substrate waveguide, wherein the ground plane opening is aligned with the substrate waveguide by aligning the opening with the dielectric insert, and wherein the planar chip substrate is attached to the second substrate. - View Dependent Claims (9, 10)
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11. A method of transitioning a signal from a transmission line to a waveguide comprising the steps of:
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providing a first substrate having a ground plane on a first surface and the transmission line on a second surface; forming an opening in the ground plane, a projection of the ground plane opening onto the second surface, to define a waveguide opening; forming a plurality of vias around a periphery of the waveguide opening leaving a gap for the transmission line to cross an edge of the waveguide opening; plating the plurality of vias with a conductive material; connecting the transmission line to one of the plurality of plated vias located opposite the gap; placing a thermal spreader having a dielectric insert on a second substrate with the dielectric insert aligned with the waveguide; aligning the ground plane opening with the waveguide, wherein aligning the ground plane opening with the waveguide comprises aligning the ground plane opening with the dielectric insert; and attaching the first substrate to the second substrate. - View Dependent Claims (12)
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Specification