Piezoresistive pressure transducer circuitry accommodating transducer variability
First Claim
1. Pressure transducer circuitry accommodating pressure transducer variables for making pressure measurement in a living body comprising a microminiature piezoresistive pressure transducer having first and second variable resistive elements, the pressure transducer being characterized as having a pressure sensitivity ranging from 1.2 to 15 ohms per 1,000 ohms per 100 millimeters of mercury, each having first and second ends, circuitry coupled to the first and second variable resistive elements of the transducer including third and fourth fixed resistive elements external of the transducer and of known values, each having first and second ends, means for connecting the first ends of the first and second resistive elements, means for connecting the second ends of the first and third resistive elements to form a first junction, means for connecting the second ends of the second and fourth resistive elements to form a second junction, means for supplying excitation to the first ends of the third and fourth resistive elements, first amplifier means having an input coupled to the means for connecting the second ends of the first and third resistive elements, second amplifier means having an input coupled to the means for connecting the second ends of the second and fourth resistive elements, a first analog-to-digital converter having an input coupled to the output of the first amplifier means, a second analog-to-digital converter having an input coupled to the output of the second amplifier means, said analog-to-digital converters having independent outputs with digitized voltages thereon having a pressure component and a temperature component and computer means coupled to the outputs of the first and second analog-to-digital converters for ascertaining the unknown resistances of the first and second variable resistive elements as independent variable resistance elements in solving a set of equations having said first and second variable resistance elements as unknowns and pressure and temperature as the remaining unknowns to provide a temperature compensated pressure value as measured by the microminiature pressure transducer.
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Abstract
Piezoresistive pressure transducer circuitry accommodating transducer variables comprising microminiature pressure transducer having first and second variable resistive elements each having first and second ends, circuitry coupled to the first and second resistive elements of the transducer including third and fourth fixed resistive elements each having a first and second ends, means interconnecting the first ends of the first and second resistive elements, means interconnecting the second ends of the first and third resistive elements, means interconnecting the second ends of the second and fourth resistive elements, means interconnecting the first ends of the third and fourth resistive elements, means for supplying excitation to the first ends of the third and fourth resistive elements, first amplifier means having an input coupled to the means interconnecting the second ends of the first and third resistive elements, second amplifier means having an input coupled to the means interconnecting the second ends of the second and fourth resistive elements. First analog-to-digital converter having an input coupled to the output of the first amplifier means, a second analog-to-digital converter having an input coupled to the output of the second amplifier means, a computer and means coupling the computer to the outputs of the first and second analog-to-digital converters.
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Citations
15 Claims
- 1. Pressure transducer circuitry accommodating pressure transducer variables for making pressure measurement in a living body comprising a microminiature piezoresistive pressure transducer having first and second variable resistive elements, the pressure transducer being characterized as having a pressure sensitivity ranging from 1.2 to 15 ohms per 1,000 ohms per 100 millimeters of mercury, each having first and second ends, circuitry coupled to the first and second variable resistive elements of the transducer including third and fourth fixed resistive elements external of the transducer and of known values, each having first and second ends, means for connecting the first ends of the first and second resistive elements, means for connecting the second ends of the first and third resistive elements to form a first junction, means for connecting the second ends of the second and fourth resistive elements to form a second junction, means for supplying excitation to the first ends of the third and fourth resistive elements, first amplifier means having an input coupled to the means for connecting the second ends of the first and third resistive elements, second amplifier means having an input coupled to the means for connecting the second ends of the second and fourth resistive elements, a first analog-to-digital converter having an input coupled to the output of the first amplifier means, a second analog-to-digital converter having an input coupled to the output of the second amplifier means, said analog-to-digital converters having independent outputs with digitized voltages thereon having a pressure component and a temperature component and computer means coupled to the outputs of the first and second analog-to-digital converters for ascertaining the unknown resistances of the first and second variable resistive elements as independent variable resistance elements in solving a set of equations having said first and second variable resistance elements as unknowns and pressure and temperature as the remaining unknowns to provide a temperature compensated pressure value as measured by the microminiature pressure transducer.
- 5. Piezoresistive pressure transducer circuitry accommodating transducer variables comprising a microminiature pressure transducer having first and second variable resistive elements, each having first and second ends, circuitry coupled to the first and second variable resistive elements of the transducer including third and fourth fixed resistive elements each having first and second ends, means for connecting the first ends of the first and second resistive elements, means for connecting the second ends of the first and third resistive elements, means for connecting the second ends of the second and fourth resistive elements, means for supplying excitation to the first ends of the third and fourth resistive elements, first amplifier means having an input coupled to the means for connecting the second ends of the first and third resistive elements, second amplifier means having an input coupled to the means for connecting the second ends of the second and fourth resistive elements, a first analog-to-digital converter having an input coupled to the output of the first amplifier means, a second analog-to-digital converter having an input coupled to the output of the second amplifier means, said analog-to-digital converters having outputs with digitized voltages thereon, a computer, means coupling the computer to the outputs of the first and second analog-to-digital converters so that the computer reads the digitized voltages and computers the pressure therefrom each of said first and second resistive elements having independent undesired characteristics including deviation from nominal resistance values and temperature characteristics resulting in offset voltages at the inputs of said first and second amplifier means and further including feedback control means controlled by the computer coupled to the first and second variable resistive elements of the transducer for compensating for the offset voltages resulting from the resistance and temperature characteristics of the first and second variable resistive elements of the transducer, said first and second amplifier means including first and second differential amplifiers, each having a reference input and means for supplying a fixed reference voltage to the reference input of the first and second differential amplifiers, said means for supplying excitation to the first ends of the third and fourth resistive elements including means coupled to the computer for supplying a varying independent excitation voltage to each of the first ends of the third and fourth resistive elements so that the output voltage components of the transducer dependent on temperature and deviation from nominal resistance values will substantially match the fixed reference voltages supplied to the first and second differential amplifiers.
- 8. Piezoresistive pressure transducer circuitry accommodating transducer variables comprising a microminiature pressure transducer having first and second variable resistive elements, each having first and second ends, circuitry coupled to the first and second variable resistive elements of the transducer including third and fourth fixed resistive elements each having first and second ends, means for connecting the first ends of the first and second resistive elements, means for connecting the second ends of the first and third resistive elements, means for connecting the second ends of the second and fourth resistive elements, means for supplying excitation to the first ends of the third and fourth resistive elements, first amplifier means having an input coupled to the means for connecting the second ends of the first and third resistive elements, second amplifier means having an input coupled to the means for connecting the second ends of the second and fourth resistive elements, a first analog-to-digital converter having an input coupled to the output of the first amplifiers means, a second analog-to-digital converter having an input coupled to the output of the second amplifier means, said analog-to-digital converters having outputs with digitized voltages thereon, a computer and means coupling the computer to the outputs of the first and second analog-to-digital converters so that the computer reads the digitized voltages and computes the pressure therefrom, said means for supplying excitation to the first ends of the third and fourth resistive elements including excitation means for supplying a fixed excitation voltage to each of the first ends of the third and fourth resistive elements, said first and second amplifier means including first and second differential amplifiers, each having a reference input means coupled to the computer for supplying a varying independent reference voltage to each reference input to the first and second differential amplifiers to substantially match the offset voltage and temperature characteristics of the first and second variable resistive elements.
- 10. A method for utilizing circuitry with a microminiature piezoresistive pressure transducer for making pressure measurements in a living body in which the transducer is characterized as having a pressure sensitivity ranging from 1.2 to 15 ohms per 1,000 ohms per 100 millimeters of mercury and is provided with first and second variable resistive elements, each having first and second ends, circuitry coupled to the first and second resistive elements including third and fourth fixed resistive elements each having first and second ends, means for connecting the second ends of the first and third resistive elements to form a first junction, means for connecting the second ends of the second and fourth resistive elements to form a second junction, and means including a computer supplying excitation voltages to the first ends of the third and fourth resistive elements so that first and second analog signals appear respectively on the first and second junctions, the method comprising amplifying the first and second analog signals to provide first and second amplified analog signals, converting the first and second amplified analog signals to first and second digital signals and supplying the first and second digital signals to the computer and then utilizing the computer to ascertain the unknown resistances of the first and second variable resistive elements as independent variable resistive elements in solving a set of equations having said first and second variable resistive elements as unknowns and pressure and temperature as the remaining unknowns to provide a temperature compensated pressure value being measured by the microminiature pressure transducer.
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15. A method for utilizing circuitry with an microminiature piezoresistive pressure transducer for making pressure measurements in a living body in which the transducer is provided with first and second variable resistive elements, each having first and second ends, said first and second variable resistive elements having independent undesired characteristics including deviation from nominal resistance values and temperature characteristics, circuitry coupled to the first and second resistive elements including third and fourth fixed resistive elements each having first and second ends, means for connecting the second ends of the first and third resistive elements to form a first junction, means for connecting the second ends of the second and fourth resistive elements to form a second junction, means including a computer supplying excitation voltages to the first ends of the third and fourth resistive elements so that first and second analog signals appear respectively on the first and second junctions, the method comprising amplifying the first and second analog signals by the use of first and second differential amplifiers having references, converting the first and second amplified analog signals to the first and second digital signals, supplying the first and second digital signals to the computer, utilizing the computer to calculate the pressure being measured by the transducer, causing the computer to control the circuitry to compensate for the offset voltages resulting from the resistance and temperature characteristics of the first and second variable resistive elements of the transducer by varying independently the references utilized during amplification of the first and second analog signals.
Specification