Electrographic position location apparatus and method
First Claim
Patent Images
1. An antenna apparatus that controls the magnitude and gradient of a radiated electric field, including an antenna comprising:
- a) a voltage divider having at least two electrical contacts coupled to it;
b) a plurality of spaced apart, low resistance, finger elements coupled to the voltage divider at intervals between the at least two contacts, such that the electrical potential along a long axis of each element is approximately uniform and each finger element radiates at an electric potential that is a function of the potential on the voltage divider where the element is coupled,wherein the voltage divider is a resistive divider; and
c) a processor coupled to the voltage divider, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of three drive-signal states to the voltage divider, the three states comprising;
i) zero voltage to the voltage divider,ii) a gradient voltage to the voltage divider, andiii) a constant voltage to the voltage divider.
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Abstract
An apparatus for use in an electrographic position sensing system comprises an antenna system and a signal strength detector. In one embodiment, the antenna system comprises two antennas. The detector measures the signal strength from each antenna. A microprocessor contains an algorithm to calculate the position of the detector near the antennas.
75 Citations
27 Claims
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1. An antenna apparatus that controls the magnitude and gradient of a radiated electric field, including an antenna comprising:
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a) a voltage divider having at least two electrical contacts coupled to it; b) a plurality of spaced apart, low resistance, finger elements coupled to the voltage divider at intervals between the at least two contacts, such that the electrical potential along a long axis of each element is approximately uniform and each finger element radiates at an electric potential that is a function of the potential on the voltage divider where the element is coupled, wherein the voltage divider is a resistive divider; and c) a processor coupled to the voltage divider, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of three drive-signal states to the voltage divider, the three states comprising; i) zero voltage to the voltage divider, ii) a gradient voltage to the voltage divider, and iii) a constant voltage to the voltage divider. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An antenna apparatus comprising:
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a) a first antenna and a second antenna separated by an electrical insulator; b) the first antenna comprising, i) a first voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the first voltage divider between the at least two electrical contacts; c) the second antenna comprising, i) a second voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the second voltage divider between the at least two electrical contacts; wherein the first antenna is oriented so that the finger elements of the first antenna overlay a portion of the finger elements of the second antenna; and
an angle between the finger elements of the first antenna and the finger elements of the second antenna is between 0° and
180°
, andwherein the first antenna is disposed on a first side of an insulating surface and the second antenna is disposed on a second side of an insulating surface; and d) a processor coupled to the first voltage divider and coupled to the second voltage divider, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of five states to the first and second voltage dividers independently, the five states comprising; i) zero voltage to the first and the second voltage dividers, ii) a gradient voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iii) a constant voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iv) a gradient voltage to the voltage divider of the second antenna and zero voltage to the first antenna, and v) a constant voltage to the voltage divider of the second antenna and zero voltage to the first antenna. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. An antenna apparatus comprising:
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a) a first antenna and a second antenna separated by an electrical insulator; b) the first antenna comprising, i) a first voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the first voltage divider between the at least two electrical contacts; c) the second antenna comprising, i) a second voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the second voltage divider between the at least two electrical contacts; wherein the first antenna is oriented so that the finger elements of the first antenna overlay a portion of the finger elements of the second antenna; and
an angle between the finger elements of the first antenna and the finger elements of the second antenna is between 0° and
180°
,wherein the first voltage divider has a linear shape, wherein the second voltage divider has a linear shape, wherein the long axes of the finger elements are substantially straight, wherein the finger elements of the first antenna are substantially orthogonal to the line of the first voltage divider, and the first voltage divider and finger elements lie substantially in a plane, wherein the finger elements of the second antenna are substantially orthogonal to the line of the second voltage divider, and the second voltage divider and finger elements lie substantially in a plane, and wherein the first antenna is disposed on a first side of an insulating surface and the second antenna is disposed on a second side of an insulating surface; and d) a processor coupled to the first voltage divider and coupled to the second voltage divider, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of five states to the first and second voltage dividers independently, the five states comprising; i) zero voltage to the first and the second voltage dividers, ii) a gradient voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iii) a constant voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iv) a gradient voltage to the voltage divider of the second antenna and zero voltage to the first antenna, and v) a constant voltage to the voltage divider of the second antenna and zero voltage to the first antenna.
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19. An antenna apparatus comprising:
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a) a first antenna and a second antenna separated by an electrical insulator; b) the first antenna comprising, i) a first voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the first voltage divider between the at least two electrical contacts; c) the second antenna comprising, i) a second voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the second voltage divider between the at least two electrical contacts; wherein the first antenna is oriented so that the finger elements of the first antenna overlay a portion of the finger elements of the second antenna; and
an angle between the finger elements of the first antenna and the finger elements of the second antenna is between 0° and
180° and
wherein,the first antenna is disposed on a first side of a first insulating surface; the second antenna is disposed on a first side of a second insulating surface; and the second antenna is positioned adjacent to a second side of the first insulating surface; and d) a processor coupled to the first voltage divider and coupled to the second voltage divider, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of five states to the first and second voltage dividers independently, the five states comprising; i) zero voltage to the first and the second voltage dividers, ii) a gradient voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iii) a constant voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iv) a gradient voltage to the voltage divider of the second antenna and zero voltage to the first antenna, and v) a constant voltage to the voltage divider of the second antenna and zero voltage to the first antenna.
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20. An electrographic position sensing system comprising:
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a) a first transmitting antenna and a second transmitting antenna separated by an electrical insulator; the first antenna comprising, i) a first voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the first voltage divider between the at least two electrical contacts; and the second antenna comprising, i) a second voltage divider having at least two electrical contacts coupled to it; and ii) a plurality of spaced apart, electrically conductive, finger elements coupled to the second voltage divider between the at least two electrical contacts; wherein the first antenna is oriented so that the finger elements of the first antenna overlay a portion of the finger elements of the second antenna; and
the finger elements of the first antenna form a non-zero angle with the finger elements of the second antenna;b) a processor coupled to the first voltage divider at two or more electrical contacts and coupled to the second voltage divider at two or more electrical contacts, wherein the processor sends commands to a drive signal transmitter, the commands causing the transmitter to send a sequence of five states to the first and second voltage dividers independently, the five states comprising; i) zero voltage to the first and the second voltage dividers, ii) a gradient voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iii) a constant voltage to the voltage divider of the first antenna and zero voltage to the second antenna, iv) a gradient voltage to the voltage divider of the second antenna and zero voltage to the first antenna, and v) a constant voltage to the voltage divider of the second antenna and zero voltage to the first antenna; and c) a receiving antenna coupled to the processor, wherein the receiving antenna receives a signal measurement in each state. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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Specification