Low cost high precision sensor
First Claim
1. A low-cost high-precision sensor comprising a separate condition-responsive means including a diaphragm movable inn response to occurrence of selected conditions in a zone to be monitored for providing initial electrical signals, a separate integrated circuit signal-conditioning means for conditioning the initial electrical signals to provide electrical output signals for performing control functions, and a common support means mounting the separate condition-responsive means and signal-conditioning means together and means mounted on the support for calibrating the sensor, the condition-responsive means being mounted on a support for providing initial electrical signals in response to the occurrence of selected conditions in the zone to be monitored, the signal-conditioning means being mounted on the support to respond to said initial electrical signals for providing electrical output signals from the sensor, and the calibration means being mounted on the support and electrically actuable after mounting on the common support to adjust the conditioning-responsive means and signal-conditioning means on the common support relative to each other after mounting on the support for calibrating the sensor to provide said output signals to perform said control functions in precise response to occurrence of said selected conditions.
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Accused Products
Abstract
A universal sensor has a selectively scaled condition responsive element such as a capacitive pressure transducer mounted on a common support with signal conditioning means embodied in an integrated circuit to provide a control signal precisely corresponding to a sensed condition. Electrically actuatable means on the support are incorporated in the circuit for low cost, mass producible calibration of the circuit and condition-responsive element relative to each other after assembly on the common support. Preferably, a capacitive pressure transducer, and a reference capacitor are arranged in a charge-locked loop relation with a common node while an array of switches cycles the voltage across the transducer and reference capacitors with opposite transitions with a predetermined frequency so change in transducer capacitance results in a differential voltage at the common node. That voltage is amplified to drive a current source-sink-integrate network and adjust sensor output voltage to to restore a balanced condition at the common node and maintain sensor output voltage at a level inversely proportional to transducer capacitance. The sensor is adapted for calibration to provide an electrical calibration signal for actuating calibration means such as electrically settable potentiometers, or serially programmed digital-to-analog converters or the like to provide bias and gain and non-linearity calibration in the sensor. In one embodiment, calibration is achieved by adjustment of variable capacitors.
111 Citations
8 Claims
- 1. A low-cost high-precision sensor comprising a separate condition-responsive means including a diaphragm movable inn response to occurrence of selected conditions in a zone to be monitored for providing initial electrical signals, a separate integrated circuit signal-conditioning means for conditioning the initial electrical signals to provide electrical output signals for performing control functions, and a common support means mounting the separate condition-responsive means and signal-conditioning means together and means mounted on the support for calibrating the sensor, the condition-responsive means being mounted on a support for providing initial electrical signals in response to the occurrence of selected conditions in the zone to be monitored, the signal-conditioning means being mounted on the support to respond to said initial electrical signals for providing electrical output signals from the sensor, and the calibration means being mounted on the support and electrically actuable after mounting on the common support to adjust the conditioning-responsive means and signal-conditioning means on the common support relative to each other after mounting on the support for calibrating the sensor to provide said output signals to perform said control functions in precise response to occurrence of said selected conditions.
- 3. A low-cost high-precision sensor comprising a separate capacitive transducer including a diaphragm movable in response to occurrence of selected conditions in a zone to be monitored for providing an initial electrical signal in response to occurrence of said selected condition in a zone being monitored, a separate integrated circuit unit for conditioning the initial electrical signals to provide an electrical output signals suitable for performing a control function, a common support mounting the separate capacitive transducer and integrated circuit together, and means incorporated in the integrated circuit adjustable on the common support for calibrating the sensor, after the capacitive transducer, the integrated circuit, and the calibrating means are mounted the common support, the calibrating means being electrically actuable in the integrated circuit on the common support to adjust the capacitive transducer and separate integrated circuit on the common support relative to each other to cooperate after mounting on the common support to provide said output signal suitable to perform said control functions in precise response to the occurrence of said conditions.
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7. A low-cost high-precision sensor having a capacitive transducer for providing an initial electrical signal in response to occurrence of a condition being monitored, an electrical circuit for conditioning the initial electrical signal to provide an electrical output signal for performing a control function, and means for calibrating the sensor, the capacitive transducer being mounted on a support, the electrical circuit being mounted on the support, and the calibrating means being mounted on the support and electrically actuatable on the support to adjust the capacitive transducer and electrical circuit on the support relative to each other after mounting on the support for calibrating the sensor to provide said output signal to perform such control functions in precise response to the occurrence of said condition, wherein the calibrating means comprise variable capacitor means.
Specification
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- Resources
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Current AssigneeSensata Technologies Incorporated (Sensata Technologies Holding Plc)
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Original AssigneeTexas Instruments, Inc.
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InventorsSabetti, Anthony J., Kawate, Keith W.
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Primary Examiner(s)Lall, Parshotam S.
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Assistant Examiner(s)Ramirez, Ellis B.
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Application NumberUS07/432,024Time in Patent Office421 DaysField of Search364/571.01, 364/558, 364/550, 364/557, 73/780, 73/718, 73/708, 73/724, 361/283US Class Current702/104CPC Class CodesG01L 27/005 Apparatus for calibrating p...G01L 9/0072 using variations in capacit...G01L 9/12 by making use of variations...
