Sensor probe assembly
First Claim
1. A sensor probe assembly comprising:
- a flexible, electrically conductive pin securement member, the flexible, electrically conductive pin securement member provides a plurality of pin securement pass through apertures; and
a plurality of electrically conductive pins, in which the plurality of electrically conductive pins is not less than three electrically conductive pins, each of the plurality of electrically conductive pins cooperating with a corresponding securement pass through aperture of the plurality of securement pass through apertures forms a highly conductive, low impedance neurophysiological signal sensor component, wherein each electrically conductive pin, along a full length of its entirety, has a plurality of degrees of freedom relative to, as well as independent, separate and distinct from, each of the remaining plurality of electrically conductive pins, the flexible, electrically conductive pin securement member provides a direct electrical connection between and among each of the plurality of electrically conductive pins, such that when any of the plurality of electrically conductive pins are in electrical contact with the flexible, electrically conductive pin securement member, the highly conductive, low impedance neurophysiological signal sensor component is formed from the union of the plurality of electrically conductive pins with the flexible, electrically conductive pin securement member, and wherein each of the electrically conductive pins of the plurality of electrically conductive pins is electrically conductive, formed from a polymer filled with conductive particles, and comprises a head portion, a tip portion, and a body portion disposed between the head portion and the tip portion, and in which each the head portion, tip portion, and body portion are formed from the polymer filled with conductive particles.
2 Assignments
0 Petitions
Accused Products
Abstract
Preferably, an embodiment of a sensor probe assembly includes at least a conductive pin securement member, and a multitude of conductive pins cooperating with the conductive pin securement member. Each conductive pin has a multitude of degrees of freedom relative to, as well as separate and distinct from, each of the remaining plurality of conductive pins. More preferably, an embodiment of a sensor probe assembly includes at least a flexible, electrically conductive pin securement member formed from a polymer filled with conductive particles. Interacting with the flexible, electrically conductive pin securement member is a plurality of electrically conductive pins, wherein each electrically conductive pin has a multitude of degrees of freedom relative to each of the remaining plurality of conductive pins, and cooperates with the electrically conductive pin securement member in a pressing engagement relationship.
25 Citations
19 Claims
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1. A sensor probe assembly comprising:
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a flexible, electrically conductive pin securement member, the flexible, electrically conductive pin securement member provides a plurality of pin securement pass through apertures; and a plurality of electrically conductive pins, in which the plurality of electrically conductive pins is not less than three electrically conductive pins, each of the plurality of electrically conductive pins cooperating with a corresponding securement pass through aperture of the plurality of securement pass through apertures forms a highly conductive, low impedance neurophysiological signal sensor component, wherein each electrically conductive pin, along a full length of its entirety, has a plurality of degrees of freedom relative to, as well as independent, separate and distinct from, each of the remaining plurality of electrically conductive pins, the flexible, electrically conductive pin securement member provides a direct electrical connection between and among each of the plurality of electrically conductive pins, such that when any of the plurality of electrically conductive pins are in electrical contact with the flexible, electrically conductive pin securement member, the highly conductive, low impedance neurophysiological signal sensor component is formed from the union of the plurality of electrically conductive pins with the flexible, electrically conductive pin securement member, and wherein each of the electrically conductive pins of the plurality of electrically conductive pins is electrically conductive, formed from a polymer filled with conductive particles, and comprises a head portion, a tip portion, and a body portion disposed between the head portion and the tip portion, and in which each the head portion, tip portion, and body portion are formed from the polymer filled with conductive particles. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A sensor probe assembly comprising:
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a flexible, electrically conductive pin securement member formed from a polymer filled with conductive particles, the flexible, electrically conductive pin securement member provides a plurality of pin securement pass through apertures; and a plurality of electrically conductive pins, in which the plurality of electrically conductive pins is not less than three electrically conductive pins, each of the plurality of electrically conductive pins cooperating with a corresponding securement pass through aperture of the plurality of securement pass through apertures of the flexible, electrically conductive pin securement member forms a highly conductive, low impedance neurophysiological signal sensor component, wherein each electrically conductive pin, along a full length of its entirety, has a plurality of degrees of freedom relative to, as well as independent, separate and distinct from, each of the remaining plurality of electrically conductive pins, each of the electrically conductive pin cooperates with the flexible, electrically conductive pin securement member in a pressing engagement relationship, the flexible, electrically conductive pin securement member provides a direct electrical connection between and among each of the plurality of electrically conductive pins, such that the highly conductive, low impedance neurophysiological signal sensor component is formed from the union of the plurality of electrically conductive pins with the flexible, electrically conductive pin securement member, and wherein each of the electrically conductive pins of the plurality of electrically conductive pins is electrically conductive, formed from a polymer filled with conductive particles, and comprises a head portion, a tip portion, and a body portion disposed between the head portion and the tip portion, and in which each the head portion, tip portion, and body portion are formed from the polymer filled with conductive particles.
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Specification