Self-calibrating photoelectric control system
First Claim
1. A self-calibrating photoelectric control system for use in a checkstand, said system comprising:
- a light source for emitting a light beam having an intensity;
a photoelectric sensor for receiving light from said light source and for generating an output signal when said received light is equal to or greater than a light-state threshold of said photoelectric sensor; and
a calibration circuit for automatically calibrating the sensitivity of said photoelectric control system after occurrence of at least one of a plurality of predetermined events during operation of said checkstand, said calibration circuit operative for performing a calibration process which adjusts the intensity of the light beam emitted by the light source such that said intensity is greater than said light-state threshold of said photoelectric sensor,wherein said calibration comprises;
reducing the intensity of the light source such that said photoelectric sensor is in a dark-state mode;
increasing the intensity of said light source until said photoelectric sensor transitions into a light-state mode so as to determine the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode; and
adjusting the intensity of said light source such that the intensity is greater than the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode.
1 Assignment
0 Petitions
Accused Products
Abstract
A self-calibrating photoelectric control system for use in a checkstand to control the starting and stopping of a conveyer belt utilized to move products closer to a checkout clerk. The self-calibrating photoelectric control system including a light source for emitting a light beam having an intensity, a photoelectric sensor for receiving light from the light source and for generating an output signal when the received light is equal to or greater than a light-state threshold of the photoelectric sensor; and a calibration circuit for automatically calibrating the sensitivity of the photoelectric control system to partial beam breaks after occurrence of any one of a plurality of predefined events. The calibration circuit is operative for performing a calibration process which adjusts the intensity of the light beam emitted by the light source such that the intensity is slightly greater than the light-state threshold of the photoelectric sensor. By repeatedly performing the calibration process at selected times, the present invention optimizes the detection of objects that partially block the light beam, and thereby greatly enhances the system'"'"'s ability to detect translucent and low-profile products.
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Citations
25 Claims
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1. A self-calibrating photoelectric control system for use in a checkstand, said system comprising:
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a light source for emitting a light beam having an intensity; a photoelectric sensor for receiving light from said light source and for generating an output signal when said received light is equal to or greater than a light-state threshold of said photoelectric sensor; and a calibration circuit for automatically calibrating the sensitivity of said photoelectric control system after occurrence of at least one of a plurality of predetermined events during operation of said checkstand, said calibration circuit operative for performing a calibration process which adjusts the intensity of the light beam emitted by the light source such that said intensity is greater than said light-state threshold of said photoelectric sensor, wherein said calibration comprises; reducing the intensity of the light source such that said photoelectric sensor is in a dark-state mode; increasing the intensity of said light source until said photoelectric sensor transitions into a light-state mode so as to determine the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode; and adjusting the intensity of said light source such that the intensity is greater than the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for operating a self-calibrating photoelectric control system comprising the steps of:
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utilizing a light source for emitting a light beam having an intensity; utilizing a photoelectric sensor for receiving light from said light source and for generating an output signal when said received light is equal to or greater than a light-state threshold of said photoelectric sensor; and automatically calibrating the sensitivity of said photoelectric control system after occurrence of at least one of a plurality of predetermined events during operation of said checkstand, said calibration circuit operative for performing a calibration process which adjusts the intensity of the light beam emitted by the light source such that said intensity is greater than said light-state threshold of said photoelectric sensor, wherein said calibration comprises; reducing the intensity of the light source such that said photoelectric sensor is in a dark-state mode; increasing the intensity of said light source until said photoelectric sensor transitions into a light-state mode so as to determine the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode; and adjusting the intensity of said light source such that the intensity is greater than the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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20. A self-calibrating photoelectric control system for use in a checkstand, said self-calibrating photoelectric control system comprising:
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a light source for emitting a light beam having an intensity; a photoelectric sensor for receiving light from said light source and for generating an output signal when said received light is equal to or greater than a light-state threshold of said photoelectric sensor, said photoelectric sensor having a variable light-state threshold; and a calibration circuit for automatically calibrating the sensitivity of said photoelectric control system after occurrence of at least one of a plurality of predetermined events during operation of said checkstand, said calibration circuit operative for performing a calibration process which adjusts the light-state threshold of the photoelectric sensor such that intensity of the light beam emitted by the light source is greater than said light-state threshold of said photoelectric sensor, wherein said calibration comprises; reducing the intensity of the light source such that said photoelectric sensor is in a dark-state mode; increasing the intensity of said light source until said photoelectric sensor transitions into a light-state mode so as to determine the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode; and adjusting the intensity of said light source such that the intensity is greater than the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode. - View Dependent Claims (21, 22)
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23. A self-calibrating photoelectric control system for use in a checkstand, said self-calibrating photoelectric control system comprising:
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a light source for emitting a light beam having an intensity; a photoelectric sensor for receiving light from said light source and for generating an output signal when said received light is equal to or greater than a light-state threshold of said photoelectric sensor, said photoelectric sensor comprising an amplifier having a variable gain; and a calibration circuit for automatically calibrating the sensitivity of said photoelectric control system after occurrence of at least one of a plurality of predetermined events during operation of said checkstand, said calibration circuit operative for performing a calibration process which adjusts the gain of said amplifier in said photoelectric sensor such that intensity of the light beam emitted by the light source is greater than said light-state threshold of said photoelectric sensor, wherein said calibration comprises; reducing the intensity of the light source such that said photoelectric sensor is in a dark-state mode; increasing the intensity of said light source until said photoelectric sensor transitions into a light-state mode so as to determine the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode; and adjusting the intensity of said light source such that the intensity is greater than the intensity of the light source which causes said photoelectric sensor to transition from said dark-state mode to said light-state mode. - View Dependent Claims (24, 25)
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Specification