Self-calibrating smoke detector and method
First Claim
1. The method of detecting an aerosol such as smoke in a gaseous medium, comprising the steps of(a) directing at least one beam of light through said medium,(b) converting the light energy of said beam after passing through said medium to analog electrical signals,(c) converting said analog signals to digital signals,(d) cyclically and at relatively long intervals quantifying said digital signals and storing the quantity as a reference in place of the previous quantity,(e) cyclically and at relatively short intervals quantifying said digital signals and comparing the short interval quantity with the reference,(f) actuating an alarm in the event that any difference between the short interval quantity and the reference exceeds a predetermined amount,(g) measuring the ambient temperature to obtain second analog electrical signals corresponding to said temperature,(h) converting said second analog signals into second digital signals, and,(i) applying said second digital signals to said first-mentioned digital signals at short intervals as a compensation for short term thermal effects in the conversion of said light energy to said first-mentioned analog signals.
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Abstract
A self-calibrating obscuration smoke detector is provided along with a method for the operation thereof. A light source and a photodetector are mounted in spaced relation to one another with the output of the photodetector being a function of the amount of light sensed by the detector from the light source. The photodetector analog output is converted into digital signals by an A/D converter and digital signals are then delivered to a digital processor adapted to periodically calibrate the detector and to perform sampling operations between calibrations. Other sensing devices may be connected to the system with automatic self-calibrating capabilities with respect thereto including a temperature responsive element the output of which may be used to compensate for changes in ambient temperature. By using a pair of photodetecting cells directly visible to separate light sources or indirectly visible to a single source, a thermally stable system is provided where one cell provides a reference output for the other cell.
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Citations
8 Claims
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1. The method of detecting an aerosol such as smoke in a gaseous medium, comprising the steps of
(a) directing at least one beam of light through said medium, (b) converting the light energy of said beam after passing through said medium to analog electrical signals, (c) converting said analog signals to digital signals, (d) cyclically and at relatively long intervals quantifying said digital signals and storing the quantity as a reference in place of the previous quantity, (e) cyclically and at relatively short intervals quantifying said digital signals and comparing the short interval quantity with the reference, (f) actuating an alarm in the event that any difference between the short interval quantity and the reference exceeds a predetermined amount, (g) measuring the ambient temperature to obtain second analog electrical signals corresponding to said temperature, (h) converting said second analog signals into second digital signals, and, (i) applying said second digital signals to said first-mentioned digital signals at short intervals as a compensation for short term thermal effects in the conversion of said light energy to said first-mentioned analog signals.
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2. A system for detecting the presence of an aerosol such as smoke in a gaseous medium, comprising
(a) a light source adapted to direct a beam of light through said medium, (b) photoresponsive means spaced from and in the path of said beam and adapted to generate analog electrical signals corresponding to the intensity of said beam, (c) analog-to-digital converter means connected to said photoresponsive means and adapted to convert the analog signals therefrom into digital signals, (d) digital processing means including memory means adapted to store reference data therein connected to said converter means for cyclically and at relatively short intervals comparing the output of said converter means with said reference and cyclically and at relatively long intervals measuring the output of said converter means and placing the measurement in said memory as a new reference, (e) alarm means connected to said processing means and adapted to generate an alarm signal in the event that any difference beyond a predetermined amount is detected during a short interval comparison, and, (f) temperature sensing means adapted to generate an analog electrical signal connected to said converter means for obtaining digital signals therefrom corresponding to the output of said temperature sensing means, (g) said digital processing means adapted to process said digital signals from said temperature sensing means with said digital signals from said photo responsive means for adjusting short interval data in said memory means according to predetermined thermal operating characteristics of said light source and said photo responsive means.
Specification