Linearity enhancement for capacitive sensors
First Claim
1. An improved capacitive sensor comprising:
- a first electrode;
a first driver for providing a first periodic signal to the first electrode;
a second electrode;
a second driver for providing a second periodic signal to the second electrode, the first and second periodic signals being out of phase with respect to each other;
a third electrode between and movable relative to the first and second electrodes, the first, second, and third electrodes forming a differential capacitor; and
signal processing circuitry including an amplifier coupled to the third electrode for providing an output signal, wherein the improvement comprises a feedback signal from the amplifier that is modulated, fed through a fix-up capacitor and coupled to the third electrode.
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Abstract
A method for enhancing the linearity of a differential capacitive sensor as a function of beam displacement. An ac-modulated feedback connection from a sensor output terminal to a movable beam electrode is provided through a fix-up capacitor. The output terminal signal is inverted in the feedback connection so that the fix-up capacitor reduces the capacitance from the fixed electrodes to the beam electrode. When the fix-up capacitor value is chosen approximately equal to the fixed capacitance of the differential capacitor, the feedback circuit compensates for the effect of this fixed capacitance. The linearity of the output as a function of the displacement of the beam is improved. Thus, the signal-to-noise ratio of devices such as accelerometers may be increased by allowing sensors to employ a large displacement range. The invention may be used in differential accelerometers and in other types of differential capacitive sensors.
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Citations
17 Claims
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1. An improved capacitive sensor comprising:
- a first electrode;
a first driver for providing a first periodic signal to the first electrode;
a second electrode;
a second driver for providing a second periodic signal to the second electrode, the first and second periodic signals being out of phase with respect to each other;
a third electrode between and movable relative to the first and second electrodes, the first, second, and third electrodes forming a differential capacitor; and
signal processing circuitry including an amplifier coupled to the third electrode for providing an output signal,wherein the improvement comprises a feedback signal from the amplifier that is modulated, fed through a fix-up capacitor and coupled to the third electrode. - View Dependent Claims (2, 3, 4, 5)
- a first electrode;
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6. A method for improving the linearity of response of a capacitive sensor, the method including:
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a. providing a capacitive sensor, the sensor comprising a first electrode;
a first driver for providing a first periodic signal to the first electrode;
a second electrode;
a second driver for providing a second periodic signal to the second electrode, the first and second periodic signals being out of phase with respect to each other;
a third electrode between and movable relative to the first and second electrodes, the first, second, and third electrodes forming a differential capacitor; and
signal processing circuitry including an amplifier coupled to the third electrode for providing an output signal that is fed back to the first driver and the second driver; and
b. providing a feedback signal from the output of the amplifier to the third electrode through at least one fix-up capacitor. - View Dependent Claims (7, 8, 9, 10, 11)
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12. An improved capacitive sensor comprising:
- a first electrode;
a first driver for providing a first periodic signal to the first electrode;
a second electrode;
a second driver for providing a second periodic signal to the second electrode, the first and second periodic signals being out of phase with respect to each other;
a first movable electrode between and movable relative to the first and second electrodes, the first, second, and first movable electrodes forming a differential capacitor;
a third electrode;
a third driver for providing a third periodic signal to the third electrode;
a fourth electrode;
a fourth driver for providing a fourth periodic signal to the fourth electrode, the third and fourth periodic signals being out of phase with respect to each other;
a second movable electrode between and movable relative to the third and fourth electrodes, the third, fourth and second movable electrodes forming a differential capacitor; and
signal processing circuitry including a differential amplifier, a first input of the differential amplifier coupled to the first movable electrode and a second input of the differential amplifier coupled to the second movable electrode for providing a differential output signal,wherein the improvement comprises a first feedback signal from the amplifier output that is modulated, fed through a first fix-up capacitor and coupled to the first movable electrode and a second feedback signal from the amplifier output that is modulated, fed through a second fix-up capacitor and coupled to the second movable electrode. - View Dependent Claims (13, 14, 15)
- a first electrode;
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16. An improved capacitive sensor comprising:
- a first electrode;
a first driver for providing a first periodic signal to the first electrode;
a second electrode;
a second driver for providing a second periodic signal to the second electrode, the first and second periodic signals being out of phase with respect to each other;
a third electrode between and movable relative to the first and second electrodes, the first, second, and third electrodes forming a differential capacitor; and
signal processing circuitry including an amplifier coupled to the third electrode for providing an output signal,wherein the improvement comprises a negative capacitance from the amplifier output to the third electrode. - View Dependent Claims (17)
- a first electrode;
Specification