Patent ID: 9142342
Filing Date: 2015-09-22
Classification: H01F,H03H,Y10T

Abstract:
1. A resonant circuit component, comprising: an insulating substrate comprised of at least four layers, each layer having opposing first and second surfaces; conductive materials comprised of at least three layers, each layer having opposing first and second surfaces, with each of the conductive layers positioned between a pair of the insulating substrate layers; a spiral inductor, the spiral inductor being formed in a spiral shape of conductive material on a first conductive layer, with the spiral inductor having more than one turn; the spiral inductor residing between opposing first and second surfaces of a first pair of the substrate layers; the spiral inductor terminating with a pair of terminals, one at each end of the spiral shape, with the pair of terminals extending outside a periphery of the spiral shape; the spiral inductor having at least one overpass or underpass so that the first and second terminals can extend outside the periphery of the spiral shape without direct contact between distal sections of the spiral inductor; the overpass or underpass of the spiral inductor is comprised of at least one via and at least one connective conductive segment, the connective conductive segment residing on a second conductive layer between opposing first and second surfaces of a second pair of substrate layers; a floating conductive shield made of conductive material residing on a third conductive layer between the second and first surfaces of a third pair of substrate layers, and opposing and following the spiral shape of the spiral inductor; the floating conductive shield having at least one overpass or underpass; the overpass or underpass of the floating conductive shield is comprised of at least one via and at least one connective conductive segment, the segment being formed on a conductive layer other than the third conductive layer; the floating conductive shield spanning the pair of terminals and having a path length measured from a center of a portion that spans the pair of terminals; the floating shield having a non-conductive gap in the conductive material, where the gap is positioned to include a middle of the path length of the conductive shield; and where the gap has a length that is sufficient to inhibit eddy currents in the floating shield and to enhance a quality factor (Q) of a resulting LC tank circuit component over a value of a Q of the spiral inductor alone, without the floating shield, with the spiral inductor tuned to the circuit's tank frequency with an amount of capacitance placed outside the periphery of the spiral shape.