Vertically-connected packageless fuse device
First Claim
1. A vertically-connected packageless fuse device comprising:
- an electrically-insulating base substrate;
a first via and a second via vertically drilled into the electrically-insulating base substrate, wherein the first via and the second via are subsequently filled with an electrically-conductive substance;
a first frontside metal pad located on top of the first via and at least a portion of the electrically-insulating base substrate;
a second frontside metal pad located on top of the second via and at least a portion of the electrically-insulating base substrate;
an electrically-insulating gap positioned between the first frontside metal pad and the second frontside metal pad;
a solder bridge mounted over the electrically-insulating gap, wherein the solder bridge is attached to the first frontside metal pad and the second frontside metal pad to conduct electricity unless the solder bridge is broken at a prespecified fuse activation condition;
a first backside metal pad located below the first via and at least a portion of the electrically-insulating base substrate, wherein the first backside metal pad is configured to directly and packagelessly mount onto a printed circuit board (PCB) containing an electronic circuit requiring power surge protection without encapsulation in a leadframe or cavity package, and wherein the first backside metal pad and the first frontside metal pad are vertically and electrically connected by the first via; and
a second backside metal pad located below the second via and at least a portion of the electrically-insulating base substrate, wherein the second backside metal pad does not contact the first backside metal pad, and is configured to directly and packagelessly mount onto the PCB containing the electronic circuit requiring power surge protection without encapsulation in the leadframe or cavity package, and wherein the second backside metal pad and the second frontside metal pad are vertically and electrically connected by the second via.
1 Assignment
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Accused Products
Abstract
A novel fuse device incorporates electrically-conductive metal-filled vias that vertically connect frontside metal pads with backside metal pads through an electrically-insulated base substrate. The vias are initially created by drilling through the base substrate and then completed by filling the drilled vias with an electrically highly-conductive metallic substance. The vertical electrical connection between the frontside metal pads and the backside metal pads, established by the vias in the fuse structure, enables packageless integration of the novel fuse device to an electronic circuit by eliminating the structural need for wire bond pads and conventional leadframe or cavity packages. Preferably, each frontside metal pad of the novel fuse device is connected to an electrical terminal of the electronic circuit requiring fuse-based power protection, and each backside metal pad is attached to a printed circuit board (PCB) containing the electronic circuit for seamless direct mounting of the fuse structure.
10 Citations
15 Claims
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1. A vertically-connected packageless fuse device comprising:
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an electrically-insulating base substrate; a first via and a second via vertically drilled into the electrically-insulating base substrate, wherein the first via and the second via are subsequently filled with an electrically-conductive substance; a first frontside metal pad located on top of the first via and at least a portion of the electrically-insulating base substrate; a second frontside metal pad located on top of the second via and at least a portion of the electrically-insulating base substrate; an electrically-insulating gap positioned between the first frontside metal pad and the second frontside metal pad; a solder bridge mounted over the electrically-insulating gap, wherein the solder bridge is attached to the first frontside metal pad and the second frontside metal pad to conduct electricity unless the solder bridge is broken at a prespecified fuse activation condition; a first backside metal pad located below the first via and at least a portion of the electrically-insulating base substrate, wherein the first backside metal pad is configured to directly and packagelessly mount onto a printed circuit board (PCB) containing an electronic circuit requiring power surge protection without encapsulation in a leadframe or cavity package, and wherein the first backside metal pad and the first frontside metal pad are vertically and electrically connected by the first via; and a second backside metal pad located below the second via and at least a portion of the electrically-insulating base substrate, wherein the second backside metal pad does not contact the first backside metal pad, and is configured to directly and packagelessly mount onto the PCB containing the electronic circuit requiring power surge protection without encapsulation in the leadframe or cavity package, and wherein the second backside metal pad and the second frontside metal pad are vertically and electrically connected by the second via. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A vertically-connected packageless fuse device manufacturing method comprising the steps of:
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drilling vertically to create a first via and a second via through a base substrate; filling each of the first via and the second via with an electrically-conductive substance; depositing a first frontside metal pad and a second frontside metal pad on top of the base substrate; patterning the first frontside metal pad and the second frontside metal pad with etching or screening to create an electrically-insulating gap between the first frontside metal pad and the second frontside metal pad, and to optimize geometry of the first frontside metal pad and the second frontside metal pad for packageless and space-saving soldering configurations with electronic device circuit terminals requiring fuse-based power surge protection; coating the first frontside metal pad and the second frontside metal pad with a protective coating to prevent solder from running out and accidentally covering the first frontside metal pad and the second frontside metal pad; constructing and mounting a solder bridge on top of the first frontside metal pad and the second frontside metal pad across the electrically-insulating gap; removing the protective coating after a solder reflow process to construct and mount the solder bridge is completed; depositing a first backside metal pad and a second backside metal pad underneath the base substrate; and patterning the first backside metal pad and the second backside metal pad with etching or screening to create a separation between the first backside metal pad and the second backside metal pad, and to optimize geometry of the first backside metal pad and the second backside metal pad for packageless and space-saving attachment to a printed circuit board (PCB) containing the electronic device circuit terminals requiring fuse-based power surge protection. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification