Keyless entry touch pad system and method
First Claim
1. A keyless entry pad system for unlocking a door of an automobile, comprising:
- a dielectric substrate having first and second opposite surfaces;
a plurality of touch zones disposed on said first surface;
a printed circuit board having first and second sides, said first side adjacent said second surface;
a plurality of electrode patterns disposed on said first side, each of said electrode patterns having an inner electrode and an outer electrode, each of said inner electrodes aligned with one of said touch zones, said electrodes electrically coupled to capacitive plates disposed on said first side;
a plurality of integrated control circuits (ICCs) disposed on said second side, each of said ICCs electrically coupled to capacitive plates disposed on said second side, wherein said plates on said first side are capacitively coupled to said plates on said second side so that said ICCs are electrically coupled to said patterns, each of said ICCs energizing the electrodes of a corresponding pattern such that electric fields emanate from the electrodes, wherein the electric field of the associated inner electrode is disturbed when a stimulus is proximate the corresponding touch zone, thereby causing the corresponding ICC to output a signal indicative of a touch to said touch zone; and
a controller in communication with said ICC, said controller causing the unlocking of said door upon receipt of predetermined signals from said ICCs in a predetermined sequence.
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Accused Products
Abstract
A keyless entry touch pad system for a vehicle includes a substrate with a plurality of touch zones disposed on one surface of the substrate, and a plurality of electrode patterns disposed on the opposite surface. An inner electrode of each pattern is aligned with one of the touch zones. Each pattern is electrically coupled to an integrated control circuit, which outputs a signal to and energizes the electrodes of the pattern such that electric fields emanates therefrom. The electrode patterns may be capacitively coupled to the integrated control circuit. When the electric field of the inner electrode is disturbed by a stimulus proximate the corresponding touch zone, the component is activated. Upon activation of the components in a predetermined sequence, a controller causes the vehicle door to unlock. A method of unlocking a vehicle is also disclosed.
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Citations
11 Claims
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1. A keyless entry pad system for unlocking a door of an automobile, comprising:
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a dielectric substrate having first and second opposite surfaces; a plurality of touch zones disposed on said first surface; a printed circuit board having first and second sides, said first side adjacent said second surface; a plurality of electrode patterns disposed on said first side, each of said electrode patterns having an inner electrode and an outer electrode, each of said inner electrodes aligned with one of said touch zones, said electrodes electrically coupled to capacitive plates disposed on said first side; a plurality of integrated control circuits (ICCs) disposed on said second side, each of said ICCs electrically coupled to capacitive plates disposed on said second side, wherein said plates on said first side are capacitively coupled to said plates on said second side so that said ICCs are electrically coupled to said patterns, each of said ICCs energizing the electrodes of a corresponding pattern such that electric fields emanate from the electrodes, wherein the electric field of the associated inner electrode is disturbed when a stimulus is proximate the corresponding touch zone, thereby causing the corresponding ICC to output a signal indicative of a touch to said touch zone; and a controller in communication with said ICC, said controller causing the unlocking of said door upon receipt of predetermined signals from said ICCs in a predetermined sequence. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A capacitively coupled electrode pattern field effect touch sensor apparatus, comprising:
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a dielectric substrate having first and second opposite surfaces; an electrode pattern having an inner electrode and an outer electrode disposed on said first surface, each of said inner and outer electrodes electrically coupled to capacitive plates disposed on said first surface; an integrated control circuit (ICC) disposed on said second surface, said ICC electrically coupled to capacitive plates disposed on said second surface, wherein said plates on said first surface are capacitively coupled to said plates on said second surface so that said ICC is electrically coupled to said electrodes, said ICC energizes said electrodes such that an electric field emanates from each said electrodes, and said ICC senses disturbances in the electric fields; and a controller in communication with said ICC, wherein said ICC transmits signals to said controller in response to a disturbed electric field. - View Dependent Claims (10, 11)
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Specification