Oxygen concentration monitor using galvanic cell type oxygen sensor
First Claim
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1. An oxygen concentration monitor comprising:
- a Galvanic cell type oxygen sensor;
an operational amplifier for amplifying an output voltage of said Galvanic cell type oxygen sensor;
an attenuator comprising resistors and switches connected to each other for attenuating an output signal from said operational amplifier;
a switch control circuit for controlling the operation of said switches by outputting a binary code;
a first comparator for comparing an output signal from said attenuator with a first reference voltage and for determining whether or not said binary code from said switch control circuit is to be sequentially changed, said binary code being changed when said output signal from said attenuator is at a first value with respect to said first reference voltage; and
,a second comparator for comparing said output signal from said attenuator with a second reference voltage and for activating an alarm when said output signal from said attenuator is at a second value with respect to said second reference voltage,wherein the maximum output of said Galvanic cell type oxygen sensor is determined by said switch control circuit and said attenuator, and calibration is automatically conducted such that said maximum output of said Galvanic cell type oxygen sensor corresponds to an oxygen concentration of 21%, and when an oxygen concentration, corresponding to said output signal from said attenuator, becomes lower than a predetermined value, corresponding to said second reference voltage, said alarm is activated.
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Abstract
The invention discloses an oxygen concentration monitor using a Galvanic cell type oxygen sensor. An automatic calibration circuit always calibrates the maximum output of the sensor as the value corresponding to an oxygen concentration of 21%, based on the fact that the oxygen concentration in a fresh air never exceeds 21%.
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Citations
6 Claims
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1. An oxygen concentration monitor comprising:
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a Galvanic cell type oxygen sensor; an operational amplifier for amplifying an output voltage of said Galvanic cell type oxygen sensor; an attenuator comprising resistors and switches connected to each other for attenuating an output signal from said operational amplifier; a switch control circuit for controlling the operation of said switches by outputting a binary code; a first comparator for comparing an output signal from said attenuator with a first reference voltage and for determining whether or not said binary code from said switch control circuit is to be sequentially changed, said binary code being changed when said output signal from said attenuator is at a first value with respect to said first reference voltage; and
,a second comparator for comparing said output signal from said attenuator with a second reference voltage and for activating an alarm when said output signal from said attenuator is at a second value with respect to said second reference voltage, wherein the maximum output of said Galvanic cell type oxygen sensor is determined by said switch control circuit and said attenuator, and calibration is automatically conducted such that said maximum output of said Galvanic cell type oxygen sensor corresponds to an oxygen concentration of 21%, and when an oxygen concentration, corresponding to said output signal from said attenuator, becomes lower than a predetermined value, corresponding to said second reference voltage, said alarm is activated. - View Dependent Claims (2)
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3. An oxygen concentration monitor comprising:
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a Galvanic cell type oxygen sensor; an attenuator comprising resistors and switches connected to each other for attenuating an output voltage of said Galvanic cell type oxygen sensor; an operational amplifier for amplifying the output of said attenuator; a switch control circuit for controlling the operation of said switches by outputting a binary code; a first comparator for comparing an output signal from said operational amplifier with a first reference voltage, and for determining whether or not said binary code from said switch control circuit is to be sequentially changed, said binary code being changed when said output signal of said operational smplifier is at a first value with respect to said first reference voltage; and
,a second comparator for comparing said output signal from said operational amplifier with a second reference voltage and for activating an alarm when said output signal from said operational amplifier is at a second value with respect to said second reference voltage, wherein the maximum output of said Galvanic cell type oxygen sensor is determined by said switch control circuit and said attenuator and calibration is automatically conducted such that said maximum output of said Galvanic cell type oxygen sensor corresponds to an oxygen concentration of 21%, and when an oxygen concentration, corresponding to said output signal from said attenuator, becomes lower than a predetermined value, corresponding to said second reference voltage, said alarm is activated. - View Dependent Claims (4)
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5. An oxygen concentration alarm comprising:
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a Galvanic cell type oxygen sensor; an operational amplifier for amplifying an output of said Galvanic cell type oxygen sensor; a feedback resistor comprising resistors and switches connected to each other for varying an amplifier gain of said operational amplifier; a switch control circuit for controlling the operation of said switches by outputting a binary code; a first comparator for comparing an output from said operational amplifier with a first reference voltage, and for determining whether or not said binary code from said switch control circuit is to be sequentially changed, said binary code being changed when said output signal of said operational amplifier is at a first value with respect to said first reference voltage; and
,a second comparator for comparing said output from said operational amplifier with a second reference voltage, and for activating an alarm when said output from said operational amplifier is at a second value with respect to said second reference voltage, wherein the maximum output of said Galvanic cell type oxygen sensor is determined by said switch control circuit and said feedback resistor, and calibration is automatically conducted such that said maximum output of said Galvanic cell type oxygen sensor corresponds to an oxygen concentration of 21%, and when an oxygen concentration, corresponding to said output signal from said operational amplifier, becomes lower than a predetermined value, corresponding to said second reference voltage, said alarm is activated. - View Dependent Claims (6)
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Specification