System and method for self-calibrating measurement
First Claim
1. A measurement system, comprising:
- a first reference device constructed and arranged to produce a first reference current;
a second reference device constructed and arranged to produce a second reference current;
a linear sensing device constructed and arranged to produce a measurement current indicative of a value to be measured;
a current-to-frequency converter constructed and arranged to convert the first reference current, the second reference current, and the measurement current to their corresponding frequency;
a multiplexer constructed and arranged to alternately couple said current-to-frequency converter to said first reference device, said second reference device, and said linear sensing device;
a voltage-to-frequency converter;
a voltage input on said voltage-to-frequency converter;
a reference voltage output from said voltage-to-frequency converter; and
a pair of resistors arranged to divide a reference voltage from said reference voltage output of said voltage-to-frequency converter;
wherein;
said current-to-frequency converter includes said voltage-to-frequency converter configured so that an output frequency of said current-to-frequency converter varies with the measurement current input into said current-to-frequency converter;
said pair of resistors supply the reference voltage to said voltage input on said voltage-to-frequency converter; and
said voltage-to-frequency converter provides a constant output voltage to said first reference device, said second reference device, and said linear sensing device based on the reference voltage.
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Abstract
The present invention provides systems and methods for self-calibrated measurements, for example temperature sensing. The system includes a controller, a multiplexer of low on-resistance, at least two calibration reference resistors, and a current-to-frequency converter that performs self-calibrated temperature sensing with temperature sensing devices such as resistance temperature detectors (RTDs). In general, the system provides a self-calibrated temperature sensing by the current-to-frequency converter providing a constant voltage sequentially to at least two calibration resistors and one or more RTDs using switches of low on-resistance in the multiplexer, which is controlled by the controller. The value of one of the reference resistors provided is correlate to the resistive value of the RTD at the minimum temperature of the operating temperature range for the processing equipment to be monitored, the value of another reference resistor provided is correlate to the resistive value of the RTD at the maximum temperature of the operating temperature range for the processing equipment, and the values of the remaining reference resistors, if provided, may correlate to the resistive values of the RTD at selected intermediate temperatures within the temperature range for the processing equipment. The frequency output by the current-to-frequency converter varies directly with current variation and thus inversely with the resistance of the individual calibration resistor or RTD. The controller determines-composite resistance for the calibration resistors and RTDs inclusive of the other component connecting the calibration resistors and RTDs to the current-to-frequency converter, from the frequencies output by the current-to-frequency converter. A calculation is performed using these resistances to determine an accurate self-calibrated temperature for the RTDs and the equipment to which it is associated. Further, the present invention provides the measurement system may be constructed so as to provide self-calibrated temperature measurements of one or more locations in a processing chamber which may operate within different temperature ranges or to provide self-calibrated temperature measurements of one or more a processing chambers. The present invention may also provide even more accurate self-calibrated temperature measurements by utilizing multiple reference resistors so as to provide piecewise linear calibration within the temperature operating range of the processing equipment.
70 Citations
34 Claims
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1. A measurement system, comprising:
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a first reference device constructed and arranged to produce a first reference current;
a second reference device constructed and arranged to produce a second reference current;
a linear sensing device constructed and arranged to produce a measurement current indicative of a value to be measured;
a current-to-frequency converter constructed and arranged to convert the first reference current, the second reference current, and the measurement current to their corresponding frequency;
a multiplexer constructed and arranged to alternately couple said current-to-frequency converter to said first reference device, said second reference device, and said linear sensing device;
a voltage-to-frequency converter;
a voltage input on said voltage-to-frequency converter;
a reference voltage output from said voltage-to-frequency converter; and
a pair of resistors arranged to divide a reference voltage from said reference voltage output of said voltage-to-frequency converter;
wherein;
said current-to-frequency converter includes said voltage-to-frequency converter configured so that an output frequency of said current-to-frequency converter varies with the measurement current input into said current-to-frequency converter;
said pair of resistors supply the reference voltage to said voltage input on said voltage-to-frequency converter; and
said voltage-to-frequency converter provides a constant output voltage to said first reference device, said second reference device, and said linear sensing device based on the reference voltage. - View Dependent Claims (2, 3, 4, 5)
a controller coupled to said multiplexer and coupled to said current-to-frequency converter.
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5. The measurement system as claimed in claim 4, wherein said controller controls said multiplexer to alternately couple said first reference resistor, said second reference resistor, and said RTD to said current-to-frequency converter via said multiplexer and determines a self-calibrated temperature measurement of said RTD.
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6. A method for measurement, comprising:
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connecting a current-to-frequency converter to a first reference resistor and measuring a first frequency output by said current-to-frequency converter;
connecting said current-to-frequency converter to a second reference resistor and measuring a second frequency output by said current-to-frequency converter;
connecting said current-to-frequency converter to a first linear sensing device constructed and arranged to sense temperature and measuring a third frequency output by said current-to-frequency converter;
determining a first self-calibrated temperature measurement using said first frequency, said second frequency, and said third frequency; and
measuring temperatures in a different temperature range than a temperature range associated with said first reference resistor and said second reference resistor, wherein the measuring of temperatures in the different temperature range includes connecting said current-to-frequency converter to additional reference resistors and measuring respective frequencies. - View Dependent Claims (7, 8)
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9. A method for measurement, comprising:
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connecting a current-to-frequency converter to a first reference resistor and measuring a first frequency output by said current-to-frequency converter;
connecting said current-to-frequency converter to a second reference resistor and measuring a second frequency output by said current-to-frequency converter;
connecting said current-to-frequency converter to a first linear sensing device constructed and arranged to sense a property indicative of a value to be measured and measuring a third frequency output by said current-to-frequency converter;
determining a first self-calibrated measurement of the value to be measured using said first frequency, said second frequency, and said third frequency; and
performing a piecewise-linear calibration by connecting said current-to-frequency converter to additional reference resistors and measuring respective frequencies. - View Dependent Claims (10, 11, 12)
connecting said current-to-frequency converter to a second linear sensing device constructed and arranged to sense a property indicative of a second value to be measured and measuring a fourth frequency output by said current-to-frequency converter; and
determining a second self-calibrated measurement of the second value using said first frequency, said second frequency, and said fourth frequency.
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11. The method as claimed in claim 10, wherein said current-to-frequency converter includes a voltage-to-frequency converter configured so that an output frequency of the current-to-frequency converter varies with a current indicative of the first value or the second value to be measured.
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12. The method as claimed in claim 11, wherein said first linear sensing device is an RTD and said second linear sensing device is an RTD.
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13. An apparatus comprising:
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a fluidics station constructed and arranged to hold a polymer array; and
a measurement system constructed and arranged to sense a property indicative of a value to be measured in said fluidics station, wherein said measurement system includes;
a first reference resistor constructed and arranged to output a first current;
a second reference resistor constructed and arranged to output a second current;
a linear sensing device constructed and arranged to output a third current indicative of the value to be measured; and
a current-to-frequency converter connected to said first reference resistor, said second reference resistor, and said linear sensing device, wherein the current-to-frequency converter converts the first current, second current, and third current to their corresponding frequency;
wherein a self-calibrated measurement of the value to be measured is determined based on the first frequency, the second frequency, and the third frequency. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
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22. A measurement system, comprising:
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a first reference device;
a second reference device;
a linear sensing device constructed and arranged to sense a property indicative of a value to be measured;
a voltage-to-frequency converter that provides a constant voltage to said first reference device, said second reference device, and said linear sensing device based on a first reference voltage; and
a multiplexer constructed and arranged to couple said voltage-to-frequency converter to said first reference device, said second reference device, and said linear, sensing device. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34)
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Specification
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- Resources
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Current AssigneeAffymetrix, Inc. (Thermo Fisher Scientific Incorporated)
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Original AssigneeAffymetrix, Inc. (Thermo Fisher Scientific Incorporated)
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InventorsLobban, Peter E.
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Primary Examiner(s)Gutierrez, Diego
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Assistant Examiner(s)VERBITSKY, GAIL KAPLAN
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Application NumberUS09/475,209Time in Patent Office1,343 DaysField of Search374/1, 374/2, 374/141, 374/183, 374/163, 374/185, 324/104-105, 324/120, 324/601, 324/691US Class Current374/183CPC Class CodesG01K 1/026 arrangements for monitoring...G01K 15/00 Testing or calibrating of t...
