Highly sensitive capacitance comparison circuit
First Claim
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1. A capacitance comparison circuit for comparing the capacitance of a first and second capacitor comprising:
- (a) a switching network having a power and ground connection and communicating with the first and second capacitors to;
(i) in a first mode connect the first and second capacitor in series between the power and ground connections with one terminal of the first capacitor connected to power and one terminal of the second capacitor connected to ground;
(ii) in a second mode connect the first and second capacitor in series between the power and ground connections with one terminal of the second capacitor connected to power and one terminal of the first capacitor connected to ground;
(b) a voltage monitor comparing the voltage at a junction of the first and second capacitor in the first mode to the voltage at the junction between the first and second capacitor in the second mode to provide an output signal indicating which of the first and second capacitors has greater capacitance;
wherein the switching network disconnects the voltage monitor in between the first and second modes.
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Abstract
A capacitance comparison circuit determines the relative value of two capacitors, such as may be sensor elements, by monitoring voltage changes caused by charge redistribution between the capacitors when they are series connected and then connected alternately in a first and second polarity across a voltage. The direction of change of voltage at the junction of the capacitors with respect to the switching of polarity of their connection precisely reveals which capacitor is larger. Disconnecting the voltage monitor during the switching reduces switching induced errors.
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Citations
10 Claims
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1. A capacitance comparison circuit for comparing the capacitance of a first and second capacitor comprising:
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(a) a switching network having a power and ground connection and communicating with the first and second capacitors to;
(i) in a first mode connect the first and second capacitor in series between the power and ground connections with one terminal of the first capacitor connected to power and one terminal of the second capacitor connected to ground;
(ii) in a second mode connect the first and second capacitor in series between the power and ground connections with one terminal of the second capacitor connected to power and one terminal of the first capacitor connected to ground;
(b) a voltage monitor comparing the voltage at a junction of the first and second capacitor in the first mode to the voltage at the junction between the first and second capacitor in the second mode to provide an output signal indicating which of the first and second capacitors has greater capacitance;
wherein the switching network disconnects the voltage monitor in between the first and second modes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 10)
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8. A capacitance comparison circuit for comparing the capacitance of a first and second capacitor comprising:
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(a) a transconductance amplifier having inverting and non-inverting differential inputs and inverting and non-inverting outputs;
(b) a reference capacitor;
(c) a switching network having a power and ground connection and communicating with the first and second capacitors to;
(i) in a first mode;
(A) connect the first and second capacitor in series between the power and ground connections with one terminal of the first capacitor connected to power and one terminal of the second capacitor connected to ground;
(B) connect the inverting output of the transconductance amplifier to the non-inverting input of the transconductance amplifier and connect the non-inverting output of the transconductance amplifier to the inverting input of the transconductance amplifier to create a reference voltage on the inverting input and non-inverting inputs such as differ by the input offset voltage of the transconductance amplifier;
(C) connect one reference voltage to the junction of the first and second capacitor and one reference voltage to the reference capacitor;
(ii) in a second mode disconnect the first and second capacitor from power and ground and disconnect the inputs of the transconductance amplifier from the junction and third capacitor;
(iii) in a third mode connect the first and second capacitor in series between the power and ground connections with one terminal of the second capacitor connected to power and one terminal of the first capacitor connected to ground;
(iv) in a fourth mode connect one input of the transconductance amplifier to the junction and one input to the reference capacitor to produce a signal indicating a relative size of the first and second capacitors.
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9. A sensor comprising:
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(a) a first and second capacitor;
(b) a switching network having a power and ground connection and communicating with the first and second capacitors to;
(i) in a first mode connect the first and second capacitor in series between the power and ground connections with one terminal of the first capacitor connected to power and one terminal of the second capacitor connected to ground;
(ii) in a second mode connect the first and second capacitor in series between the power and ground connections with one terminal of the second capacitor connected to power and one terminal of the first capacitor connected to ground;
(c) a voltage monitor comparing the voltage at a junction of the first and second capacitor with the switching network in the first mode to the voltage at the junction between the first and second capacitor with the switching network in the second mode to provide an output signal indicating which of the first and second capacitors has greater capacitance wherein the switching network disconnects the voltage monitor in between the first and second modes.
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Specification