Capacitive keyboard operable through a thick dielectric wall
First Claim
1. A keyboard responsive to the proximity of an electrical surface such as the tip of a finger and adapted to be operated through a dielectric protective wall of up to about 30 mm in thickness, comprising:
- a supporting panel adapted to be secured to one side of the protective wall in confronting relationship therewith;
a plurality of sensing electrodes forming keys of the keyboard, said sensing electrodes being mounted on the supporting panel and facing the one side of the protective wall, each electrode having a relatively low capacitance and being responsive to the proximity of the electrical surface at an opposite, second side of said protective wall;
a plurality of free running oscillators, at least one of said free running oscillators being connected to the sensing electrodes and having a relatively high variable natural frequency, said natural frequency being dependent upon a capacitance value exhibited by the associated key and varying in response to the proximity of the electrical surface to the key;
control circuitry means for selectively blocking and unblocking sequentially the free running oscillators such that only one oscillator is activated at a given time; and
microprocessor means coupled to the control circuitry means for controlling the sequence of oscillator selection and for analyzing the number of counts produced by any oscillator during its activation and deriving therefrom an output indicative of a selected key.
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Abstract
A keyboard with capacitive keys is operable through a thick dielectric wall which may be integral therewith. The keyboard may be installed inside an agency or store and coupled to a micro-informatic system providing audiovisual information selected at the request of a passer-by on the street operating the keyboard through a thick shop window. The keyboard includes a base panel (1) made of insulating material provided with Cnm electrodes integrated into the panel. with a free running oscillator being associated with each electrode key. A method of scanning the keyboard is provided.
83 Citations
12 Claims
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1. A keyboard responsive to the proximity of an electrical surface such as the tip of a finger and adapted to be operated through a dielectric protective wall of up to about 30 mm in thickness, comprising:
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a supporting panel adapted to be secured to one side of the protective wall in confronting relationship therewith; a plurality of sensing electrodes forming keys of the keyboard, said sensing electrodes being mounted on the supporting panel and facing the one side of the protective wall, each electrode having a relatively low capacitance and being responsive to the proximity of the electrical surface at an opposite, second side of said protective wall; a plurality of free running oscillators, at least one of said free running oscillators being connected to the sensing electrodes and having a relatively high variable natural frequency, said natural frequency being dependent upon a capacitance value exhibited by the associated key and varying in response to the proximity of the electrical surface to the key; control circuitry means for selectively blocking and unblocking sequentially the free running oscillators such that only one oscillator is activated at a given time; and microprocessor means coupled to the control circuitry means for controlling the sequence of oscillator selection and for analyzing the number of counts produced by any oscillator during its activation and deriving therefrom an output indicative of a selected key. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of scanning a keyboard having a plurality of capacitive keys, each key being activated by a change in capacitance thereof in response to the proximity of an electrical surface such as the tip of a finger and being driven by an associated free running oscillator having a variable output depending on the capacitance of the associated key, the method comprising the steps of:
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synchronously generating logic signals for selecting each oscillator in sequence; selectively blocking and unblocking each oscillator to produce cyclical output successively in sequence for a predetermined interval in synchronism with the logic signals; counting the cycles of the cyclical output of each oscillator during the interval to determine whether the key associated with the oscillator whose cyclical output is being counted has been touched; resetting the count to zero after each interval; generating a synchronizing reference signal for the selected oscillator; comparing the number of counts for a given key of the selected oscillator with preceding counts of the oscillator to determine if the key has been touched; determining if the key is activated in accordance with said comparison step; and providing a sensible validation signal to permit verification that the key has been activated.
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Specification