Process control transmitter
First Claim
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1. A transmitter in a process control system, comprising:
- input/output circuitry for coupling to a process control loop;
a first sensor having a first impedance which varies in response to a first sensed parameter;
a second sensor having a second impedance which varies in response to a second sensed parameter;
a first excitation AC signal coupled to the first sensor;
a second excitation AC signal coupled to the second sensor;
a summing node coupled to outputs of the first and second sensors combining the AC outputs of the first and second sensors into a summed output;
an analog to digital converter coupled to the summing node, the analog to digital converter receiving the summed output and providing a digital output representative of the summed output and thus of summed AC outputs from the first and second sensors; and
digital signal processing circuitry coupled to the output from the analog to digital converter which processes the digital output and provides an output related to the first and second sensed parameter to the input/output circuitry for transmission over the process control loop.
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Abstract
A transmitter in a process control system includes input/output circuitry for coupling to a process control loop. A first sensor having a first impedance is responsive to a first sensed parameter. A second sensor having a second impedance is responsive to a sensed parameter. First and second excitation signals are applied to the first and second sensors. A summing node sums the outputs of the first and second sensors. An analog to digital converter provides a digital output representative of the summed signals. Digital signal processing circuitry coupled to the analog to digital converter provides an output related to the outputs of the first and second sensors to the input/output circuitry for transmission over the process control loop.
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Citations
20 Claims
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1. A transmitter in a process control system, comprising:
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input/output circuitry for coupling to a process control loop; a first sensor having a first impedance which varies in response to a first sensed parameter; a second sensor having a second impedance which varies in response to a second sensed parameter; a first excitation AC signal coupled to the first sensor; a second excitation AC signal coupled to the second sensor; a summing node coupled to outputs of the first and second sensors combining the AC outputs of the first and second sensors into a summed output; an analog to digital converter coupled to the summing node, the analog to digital converter receiving the summed output and providing a digital output representative of the summed output and thus of summed AC outputs from the first and second sensors; and digital signal processing circuitry coupled to the output from the analog to digital converter which processes the digital output and provides an output related to the first and second sensed parameter to the input/output circuitry for transmission over the process control loop. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A transmitter in a process control system, comprising:
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input/output circuitry coupling to a process control loop for sending information over the loop and receiving power from the loop to power the transmitter; a sensor having a impedance responsive to a sensed parameter; a digital signal generator generating a time varying excitation signal; a digital to analog converter converting the digital excitation signal to an analog excitation signal coupled to the sensor thereby exciting the sensor to cause a sensor output signal; analog to digital conversion circuitry coupled to the sensor output and responsively providing a digital sensor signal; and digital signal processing circuitry synchronized with the digital signal generator for identifying and measuring the sensor output signal and transmitting an output representative of the sensed parameter over the process control loop using the input/output circuitry. - View Dependent Claims (16, 17, 18, 19)
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20. A transmitter in a process control loop comprising:
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a plurality of sensors having a plurality of variable impedances responsive to a plurality of sensed parameters; a plurality of excitation signals applied to each of the plurality of sensors causing a plurality of sensor output signals, the excitation signals generated by signal generating circuitry, each of the excitation signals having different waveforms; a summed signal representative of a summation of the plurality of sensor output signals; signal processing circuitry coupled to the summed signal having an output related to the sensed parameters; and output circuitry coupled to the process control loop and the signal processing circuitry transmitting the output related to the sensed parameters over the process control loop.
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Specification
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Current AssigneeRosemount Incorporated (Emerson Electric Company)
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Original AssigneeRosemount Incorporated (Emerson Electric Company)
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InventorsSchulte, John P., Tewfik, Ahmed H., Frick, Roger L.
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Primary Examiner(s)Hofsass, Jeffery
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Assistant Examiner(s)Pope, Daryl C.
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Application NumberUS08/536,766Time in Patent Office830 DaysField of Search340/517, 340/521, 340/522, 340/505, 340/506, 340/511, 340/518, 340/584, 364/571.02, 364/571.03, 364/557US Class Current340/511CPC Class CodesG08C 19/02 in which the signal transmi...G08C 19/10 using variable capacitance
