Signal preconditioning for touch entry device
First Claim
1. An input detection apparatus for detecting the intrusion of an opaque element into an irradiatd field comprising:
- an array of light emitting means and an array of light detecting means, located on the periphery of the irradiated field, individual light emitting means being aligned with associated individual light detecting means, intrusion of the opaque element into the irradiated field blocking light from at least one individual light emitting means normally incident on the associated light detecting means;
analog to digital converting means, responsive to an analog signal dependent upon the intensity of light incident on each light detecting means, for transmitting a digital signal corresponding to the analog signal;
digital computing means receiving the digital signal from the analog to digital converting means, the digital computing means comprising means for denoting the absence of incident light on individual light detecting means to detect the intrusion of an opaque element into the irradiated field, andprogrammable amplification means responsive to the digital computing means for preconditioning the analog signal from the light detecting means upon detection of unblocked incident light, the preconditioned analog signal being input to the analog to digital converting means.
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Abstract
A touch entry system employing arrays of emitter and detector opto devices located around the periphery of an irradiated field detects intrusion of an opaque element such as a stylus within the field. The detector analog output is converted to a digital signal for input into a microprocessor. Digital signals input into the microprocessor can vary due to inconsistencies in conventional opto devices. A programmable amplifier responsive to the microprocessors preconditions the analog signals prior to analog to digital conversion to bring all digital signals corresponding to the unblocked emitter beam condition within a normalized range before input into the microprocessor.
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Citations
12 Claims
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1. An input detection apparatus for detecting the intrusion of an opaque element into an irradiatd field comprising:
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an array of light emitting means and an array of light detecting means, located on the periphery of the irradiated field, individual light emitting means being aligned with associated individual light detecting means, intrusion of the opaque element into the irradiated field blocking light from at least one individual light emitting means normally incident on the associated light detecting means; analog to digital converting means, responsive to an analog signal dependent upon the intensity of light incident on each light detecting means, for transmitting a digital signal corresponding to the analog signal; digital computing means receiving the digital signal from the analog to digital converting means, the digital computing means comprising means for denoting the absence of incident light on individual light detecting means to detect the intrusion of an opaque element into the irradiated field, and programmable amplification means responsive to the digital computing means for preconditioning the analog signal from the light detecting means upon detection of unblocked incident light, the preconditioned analog signal being input to the analog to digital converting means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of detecting an input to a touch sensitive device comprising an array of light emitters and an array of light detectors located on the periphery of a display field, the light emitters and the light detectors being configured in aligned emitter/detector pairs, such that intrusion of an opaque element into the display field blocks light between associated emitters and detectors in at least one emitter/detector pair, the method comprising the steps of:
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sequentially energizing emitter/detector pairs prior to intrusion of an opaque element; converting an analog signal from each detector to a digital signal and inputing the digital signal into digital computing means; comparing each digital signal with a normalized range and storing the digital signal in memory; separately amplifying subsequent analog signals from each detector prior to conversion of the subsequent analog signal to a subsequent digital signal in response to the comparison between the previous digital signal and the normalized range; and replacing the previous digital signal by the subsequent digital signal in memory until each digital signal in memory is within the normalized range and updating the amplification of each subsequent analog signal until the corresponding digital signals are within the normalized range. - View Dependent Claims (12)
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Specification