TIGHTLY-COUPLED PCB GNSS CIRCUIT AND MANUFACTURING METHOD
First Claim
1. A method of tightly coupling a printed circuit board (PCB), which method comprises the steps of:
- providing a PCB with multiple conductive layers;
separating said conductive layers with insulating layers;
providing a positive reference layer;
providing a ground plane comprising a grounded reference layer;
providing a signal layer;
photoetching the signal layer to define a circuit;
providing electrical components;
connecting each electrical component to one or more layers;
forming a decoupling line in said PCB; and
forming an electrical isolation island in said PCB with said decoupling line.
4 Assignments
0 Petitions
Accused Products
Abstract
A tightly-coupled printed circuit board (PCB) circuit includes components mounted on a PCB enabling smaller integrations using decoupled lines extending between reference layers, such as ground planes, form isolation islands on the PCB. The decouplers are capacitors, inductors and/or resistors in tandem with ground layers of tie PCB. The isolated components can comprise high-frequency RF antennas and receivers, for example in a GNSS antenna-receiver circuit. Multiple antennas can be connected to one for more receivers with multiple, independent RF front end components by RF traces, which are either embedded within the PC
151 Citations
15 Claims
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1. A method of tightly coupling a printed circuit board (PCB), which method comprises the steps of:
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providing a PCB with multiple conductive layers; separating said conductive layers with insulating layers; providing a positive reference layer; providing a ground plane comprising a grounded reference layer; providing a signal layer; photoetching the signal layer to define a circuit; providing electrical components; connecting each electrical component to one or more layers; forming a decoupling line in said PCB; and forming an electrical isolation island in said PCB with said decoupling line. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of manufacturing a tightly-coupled PCB circuit with a power supply, a GNSS receiver and first and second GNSS antennas, which method comprises the steps of:
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providing a PCB with multiple conductive layers; separating said conductive layers with insulating layers; providing a positive reference layer; providing a ground plane comprising a grounded reference layer; providing a signal layer; photoetching the signal layer to define a circuit; providing said PCB with a perimeter; mounting said power supply and said GNSS receiver on said PCB; connecting said power supply and said GNSS receiver to said positive and grounded reference layers; providing multiple decoupling capacitors; connecting each said capacitors to multiple said PCB layers and electrically closely-coupling said PCB layers with said capacitors; determining optimal first and second RF paths from the antennas to the receiver; aligning multiple said decoupling capacitors along said optimal RF paths and thereby creating first and second decoupling lines each extending from said receiver to said PCB edge in proximity to a respective antenna; forming first and second isolation islands along said first and second decoupling line paths respectively; providing first and second RF transmission lines connecting said receiver to said first and second antennas respectively; and locating said first and second antennas in said first and second isolation islands respectively.
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9. A tightly-coupled printed circuit board (PCB) circuit, which includes:
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multiple conductive layers; insulating layers separating said conductive layers; a positive reference layer; a ground plane comprising a grounded reference layer; a signal layer; a circuit photoetched in the signal layer; multiple electrical components each connected to one or more layers; a decoupling line in said PCB; and an electrical isolation island formed by said decoupling line in said PCB. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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Specification