Temperature compensated gas analyzer
First Claim
1. In an infrared gas analyzer including a sample cell for containing a gas mixture to be analyzed, source means for directing infrared energy through the sample cell, means for periodically interrupting the infrared energy at a predetermined frequency, detector means responsive to infrared energy of at least one preselected wavelength for producing a signal representative of the infrared energy passing through the sample cell and having a frequency corresponding to the predetermined frequency, and signal processing means for processing the signal output of said detector means to produce an output signal having an amplitude proportional to the concentration of the preselected gas in the mixture being analyzed, the improvement comprising amplifier means forming part of the signal processing means for receiving the signal from the detector means, said amplifier means including temperature responsive means adapted to compensate for variations in the signal from the detector means resulting from a change in ambient temperature, and an output amplifier also forming part of the signal processing means, said output amplifier including a manually adjustable input resistor for establishing a zero setting in the output of said output amplifier, a variable feedback resistor for adjusting the span of said output amplifier, and temperature responsive calibration means coupled with said output amplifier for indicating signal change in said output amplifier due to temperature variation to permit readjustment of span by said variable feedback resistor.
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Abstract
An infrared gas analyzer is described wherein infrared energy is directed from a suitable source through a sample cell, the infrared energy being interrupted at a predetermined frequency. Infrared energy of a preselected wavelength causes a detector for each monitored gas to produce a signal proportional to the infrared energy passing through the sample cell and having a frequency corresponding to the predetermined frequency. Each preselected wavelength corresponds to the characteristic absorption wavelength of a preselected gas. A signal processor for the analyzer includes a preamplifier adapted to compensate for temperature variations in the detector while an output amplifier is adapted to compensate for temperature variations in the sample cell in order to provide a more accurate output signal.
19 Citations
5 Claims
- 1. In an infrared gas analyzer including a sample cell for containing a gas mixture to be analyzed, source means for directing infrared energy through the sample cell, means for periodically interrupting the infrared energy at a predetermined frequency, detector means responsive to infrared energy of at least one preselected wavelength for producing a signal representative of the infrared energy passing through the sample cell and having a frequency corresponding to the predetermined frequency, and signal processing means for processing the signal output of said detector means to produce an output signal having an amplitude proportional to the concentration of the preselected gas in the mixture being analyzed, the improvement comprising amplifier means forming part of the signal processing means for receiving the signal from the detector means, said amplifier means including temperature responsive means adapted to compensate for variations in the signal from the detector means resulting from a change in ambient temperature, and an output amplifier also forming part of the signal processing means, said output amplifier including a manually adjustable input resistor for establishing a zero setting in the output of said output amplifier, a variable feedback resistor for adjusting the span of said output amplifier, and temperature responsive calibration means coupled with said output amplifier for indicating signal change in said output amplifier due to temperature variation to permit readjustment of span by said variable feedback resistor.
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4. In an infrared gas analyzer including a sample cell for containing a gas mixture to be analyzed, source means for directing infrared energy through the sample cell, means for periodically interrupting the infrared energy at a predetermined frequency, detector means responsive to infrared energy of at least one preselected wavelength for producing a signal representative of the infrared energy passing through the sample cell and having a frequency corresponding to the predetermined frequency, and signal processing means for processing the signal output of said detector means to produce an output signal having an amplitude proportional to the concentration of the preselected gas in the mixture being analyzed, the improvement comprising amplifier means forming part of the signal processing means for receiving the signal from the detector means, said amplifier means including temperature responsive means adapted to compensate for variations in the signal from the detector means resulting from a change in ambient temperature, said amplifier means comprising an operational amplifier coupled with the processing means for receiving an input signal at one of its terminals, a feedback variable resistor being coupled between the output of said operational amplifier and its other terminal, and a thermistor and biasing resistor coupled in series between the other terminal of said operational amplifier and ground.
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5. In an infrared gas analyzer including a sample cell for containing a gas mixture to be analyzed, source means for directing infrared energy through the sample cell, means for periodically interrupting the infrared energy at a predetermined frequency, detector means responsive to infrared energy of at least one preselected wavelength for producing a signal representative of the infrared energy passing through the sample cell and having a frequency corresponding to the predetermined frequency, and signal processing means for processing the signal output of said detector means to produce an output signal having an amplitude proportional to the concentration of the preselected gas in the mixture being analyzed, the improvement comprising an output amplifier forming part of the signal processing means, the output amplifier including a manually adjustable input resistor for establishing a zero setting in the amplifier output, a variable feedback resistor for adjusting span of said output amplifier, and temperature responsive calibration means coupled with said output amplifier for indicating signal change in said output amplifier due to temperature variation to permit readjustment of span by said variable feedback resistor, said output amplifier comprising an operational amplifier having one of its input terminals coupled with the signal processing means through an adjustable input resistor, said variable feedback resistor being coupled between the output of said operational amplifier and its other input terminal, said temperature responsive calibration means being coupled with a summing junction between said operational amplifier, said temperature responsive calibration means including a variable temperature calibrating resistor coupled with said summing junction, and selectively operable means coupled with said calibrating resistor for indicating signal variation due to a change in ambient temperature.
Specification
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- Resources
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Current AssigneeAC Limited (Emirate of Dubai (United Arab Emirates))
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Original AssigneeAndros Anlayzers Incorporated
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InventorsPassaro, Robert E.
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Primary Examiner(s)Howell, Janice A.
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Application NumberUS06/295,570Time in Patent Office715 DaysField of Search250/343, 250/344, 250/345, 250/346, 250/373, 250/432 R, 250/435, 356/51, 356/437US Class Current250/343CPC Class CodesG01N 21/3504 for analysing gases, e.g. m...
