Capacitance measuring system
First Claim
1. A system for generating a signal which is a predetermined function of the capacitance of a sensor capacitor, comprising:
- A. a sensor network including two series connected capacitors, one of said series capacitors being said sensor capacitor,B. a switching network including a switch element having two states and a switch control having means to cyclically switch said switch element between said two states,C. reference coupling means for coupling a plurality of externally applied reference potentials to said switching element,D. a feedback network coupled to said sensor network and switching network, and including means to generate a feedback signal at a feedback terminal, said feedback signal being representative of the difference in charge stored on said series capacitors from a predetermined value,wherein said switching network is operative to cyclically interconnect said feedback network and sensor network with said feedback terminal and coupling means whereby the average charge stored on said series capacitors over each cycle is substantially equal to said predetermined value, said feedback signal being said predetermined function of the capacitance of said sensor capacitor.
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Abstract
A system for generating a signal which is a predetermined function of the capacitance of a sensor capacitor. The system comprises a sensing network including two series capacitors, at least one being the sensor capacitor. The system further comprises a switching network, and a feedback network coupled to the sensing and switching networks. The feedback network generates a feedback signal representative of the difference in charge stored on the series capacitors from a predetermined value. The switching network cyclically interconnects the feedback and sensor networks with the feedback signal and externally applied reference potentials whereby the average charge stored on the series capacitors over each cycle is substantially equal to the predetermined value. In some embodiments, the feedback signal is a linear function of the reciprocal of capacitance of the sensor capacitor.
47 Citations
25 Claims
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1. A system for generating a signal which is a predetermined function of the capacitance of a sensor capacitor, comprising:
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A. a sensor network including two series connected capacitors, one of said series capacitors being said sensor capacitor, B. a switching network including a switch element having two states and a switch control having means to cyclically switch said switch element between said two states, C. reference coupling means for coupling a plurality of externally applied reference potentials to said switching element, D. a feedback network coupled to said sensor network and switching network, and including means to generate a feedback signal at a feedback terminal, said feedback signal being representative of the difference in charge stored on said series capacitors from a predetermined value, wherein said switching network is operative to cyclically interconnect said feedback network and sensor network with said feedback terminal and coupling means whereby the average charge stored on said series capacitors over each cycle is substantially equal to said predetermined value, said feedback signal being said predetermined function of the capacitance of said sensor capacitor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A system for generating a signal which is a linear function of the reciprocal of the capacitance of a sensor capacitor comprising:
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A. a sensor network including a reference capacitor and a sensor capacitor coupled in series between a first and second input terminal, B. a first switching network responsive to a switch control, said first switching network including means operative in a first state to connect said first input terminal to a first reference potential and said second input terminal to ground potential, and operative in a second state to connect said first input terminal to ground potential and said second input terminal to a feedback terminal, C. short term charge storage network including a capacitor having a first terminal coupled to the junction point of said reference and sensor capacitors, D. long term charge storage network including a capacitor having a first terminal connected to ground potential, E. second switching network responsive to said switch control, said second switching network including means operative in a first state to connect the second terminal of said short term charge storage capacitor to a second reference potential, and operative in a second state to connect said second terminal of said short term charge storage capacitor to the second terminal of said long term charge storage capacitor, F. means for generating a feedback signal and applying said feedback signal to said feedback terminal, said feedback signal being proportional to the integral of the difference between the voltage at said second terminal of said long term charge storage capacitor, and said second reference potential, and G. switch control means for cyclically controlling said first and second switching networks during a first portion of each cycle to be operative in said first states, and during a second portion of each cycle to be operative in said second states, whereby said feedback signal is proportional to the capacitive reactance of said sensor capacitor.
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24. A system for generating a signal which is a linear function of the reciprocal of the capacitance of a sensor capacitor comprising:
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A. a sensor network including a reference capacitor and a sensor capacitor coupled in series between a first input terminal and ground potential, said sensor capacitor having one terminal connected to said ground potential, B. amplifier means having an inverting input terminal, a non-inverting input terminal and an output terminal, said non-inverting input terminal being coupled to the junction point of said reference and sensor capacitors, said amplifier means including means for generating a signal at said output terminal having a first additive component which is proportional to the difference in the a.c. signals at said inverting and non-inverting terminals, and a second additive component which is proportional to the a.c. signal at said inverting terminal, C. a first switching network responsive to a switch control, said first switching network being operative in a first state to couple said first input terminal of said sensor network and said inverting input terminal to a feedback terminal, and operative in a second state to connect said first input terminal of said sensor network to ground potential and said inverting input terminal to a reference potential, D. a short term charge storage network including a capacitor having a first terminal connected to said output terminal of said amplifier means, E. a long term charge storage network including a capacitor having a first terminal connected to ground potential, F. a second switching network responsive to a switch control, said second switching network being operative in a first state to couple the second terminal of said short term charge storage capacitor to said feedback terminal, and operative in a second state to couple said second terminal of said short term charge storage capacitor to the second terminal of said long term charge storage capacitor, G. means for generating a feedback signal and applying said feedback signal to said feedback terminal, said feedback signal being proportional to the integral of the difference between the voltage at said second terminal of said long term charge storage capacitor, and said reference potential, and H. switch control means for cyclically controlling said first and second switching networks during a first portion of each cycle to be operative in said first states, and during a second portion of each cycle to be operative in said second states, whereby said feedback signal is a linear function of the capacitance reactance of said sensor capacitor. - View Dependent Claims (25)
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Specification