Sensor circuits
First Claim
1. A circuit for operating a first amperometric sensor and a second amperometric sensor, each having a reference electrode, a counter electrode and a work electrode, wherein the first amperometric sensor is configured to operate at a positive work potential and the second amperometric sensor is configured to operate at a negative work potential, the circuit comprising:
- an amplifier having a positive input and a negative input and an output, the positive input being coupled to a single reference voltage source for outputting a settable single positive reference voltage, and the negative input and the output being coupled together via a negative feedback loop;
a subtractor within said negative feedback loop and having an output coupled to the negative input of the amplifier;
switching means which when set in a first configuration causes the single reference voltage source to positively bias the first amperometric sensor with a positive work potential by coupling the first amperometric sensor into said negative feedback loop of the amplifier such that the counter electrode of the first sensor is coupled to said output, a positive input of the subtractor is coupled to the reference electrode of the first sensor, and a negative input of the subtractor is coupled to the work electrode of the first sensor, andwhich when set in a second configuration causes the single reference voltage source to negatively bias the second amperometric sensor with a negative work potential by coupling the second amperometric sensor into said negative feedback loop such that the work electrode of the second sensor is coupled to said output, the positive input of the subtractor is coupled to the work electrode of the second sensor, and the negative input of the subtractor is coupled to the reference electrode of the second sensor.
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Abstract
A circuit for operating an amperometric sensor having a reference electrode, a counter electrode and a work electrode. The circuit comprises an amplifier having a positive input and a negative input and an output. The positive input is coupled to a reference voltage source, and the negative input and the output are coupled together via a negative feedback loop. The circuit includes means for coupling the amperometric sensor into said negative feedback loop of the amplifier wherein, in a first configuration, the counter electrode is coupled to said output and the reference electrode is coupled to said negative input and, in a second configuration, the work electrode is coupled to said output and the reference electrode is coupled to said negative input.
137 Citations
17 Claims
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1. A circuit for operating a first amperometric sensor and a second amperometric sensor, each having a reference electrode, a counter electrode and a work electrode, wherein the first amperometric sensor is configured to operate at a positive work potential and the second amperometric sensor is configured to operate at a negative work potential, the circuit comprising:
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an amplifier having a positive input and a negative input and an output, the positive input being coupled to a single reference voltage source for outputting a settable single positive reference voltage, and the negative input and the output being coupled together via a negative feedback loop; a subtractor within said negative feedback loop and having an output coupled to the negative input of the amplifier; switching means which when set in a first configuration causes the single reference voltage source to positively bias the first amperometric sensor with a positive work potential by coupling the first amperometric sensor into said negative feedback loop of the amplifier such that the counter electrode of the first sensor is coupled to said output, a positive input of the subtractor is coupled to the reference electrode of the first sensor, and a negative input of the subtractor is coupled to the work electrode of the first sensor, and which when set in a second configuration causes the single reference voltage source to negatively bias the second amperometric sensor with a negative work potential by coupling the second amperometric sensor into said negative feedback loop such that the work electrode of the second sensor is coupled to said output, the positive input of the subtractor is coupled to the work electrode of the second sensor, and the negative input of the subtractor is coupled to the reference electrode of the second sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method of operating a sensor system comprising a first amperometric sensor and a second amperometric sensor, wherein each amperometric sensor has a reference electrode, a counter electrode, and a work electrode and, in operation, the first amperometric sensor is configured to operate at a positive work potential and the second amperometric sensor is configured to operate at a negative work potential, the method comprising:
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setting a switching means to one of first and second configurations, wherein; when set in the first configuration the switching means causes a single reference voltage source to positively bias the first amperometric sensor with a positive work potential by coupling the first amperometric sensor into a negative feedback loop of an amplifier in the first configuration, when set in the second configuration the switching means causes the single reference voltage source to negatively bias the second amperometric sensor with a negative work potential by coupling the second amperometric sensor into the negative feedback loop in the second configuration, the amplifier has a positive input and a negative input and an output, the positive input is coupled to the single reference voltage source, wherein the single reference voltage source outputs a settable single positive reference voltage, the negative input and the output are coupled together via the negative feedback loop, the negative feedback loop has a subtractor having an output coupled to the negative input of the amplifier, the first counter electrode is coupled to the output in the first configuration, a positive input of the subtractor is coupled to the first reference electrode in the first configuration, a negative input of the subtractor is coupled to the first work electrode in the first configuration, the second work electrode is coupled to the output in the second configuration, the positive input of the subtractor is coupled to the second work electrode in the second configuration, and the negative input of the subtractor is coupled to the second reference electrode in the second configuration; integrating current generated by the set sensor across a capacitance coupled to the set work electrode; and after a predefined time period has elapsed, measuring a voltage stored on the capacitance. - View Dependent Claims (17)
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Specification