Response adjustable temperature sensor for transponder
First Claim
1. A temperature measurement device, characterized by:
- a resistance (Rext); and
a temperature sensing circuit comprising a temperature sensing transistor which exhibits a predictable change in its base-emitter voltage due to temperature, and transistors connected for mirroring a current (I(T)) through the temperature sensing transistor and through the resistance.
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Accused Products
Abstract
A response-adjustable temperature sensor (306, Rext), particularly for a transponder (102, 200, 400) capable of measuring one or more parameters (e.g., temperature, pressure) and transmitting a data stream (FIGS. 3C, 4B) to an external reader/interrogator (106). The transponder typically operates in a passive mode, deriving its power (Vxx, Vcc, Vdd) from an RF interrogation signal received by an antenna system (210, 410), but can also operate in a battery-powered active mode. The transponder includes memory (238, 438) for storing measurements, calibration data, programmable trim settings (436b), transponder ID and the like. The temperature sensor is a temperature measurement device characterized by a resistance (Rext, 216, 416, 716) and a temperature sensing circuit (306) comprising a temperature sensing transistor (Q1) which exhibits a predictable change in its base-emitter voltage due to temperature, and transistors (P1, N1, P2, N2) connected for mirroring a current (I(T)) through the temperature sensing transistor and through the resistance. The resistance may be a fixed, temperature-independent resistor or a resistance that has a resistance value that predictably varies with temperature, such as a thermistor (716). Temperature response and resolution can be adjusted while maintaining desired current levels by varying the value of the resistance and also by selecting a thermistor with a suitable temperature coefficient. User-settable trimming bits can be used to determine scaling of the transponder output. Replacing an external pressure-sensing capacitor with a fixed-value capacitor allows further flexibility in scaling of the output when only temperature readings are needed.
94 Citations
20 Claims
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1. A temperature measurement device, characterized by:
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a resistance (Rext); and
a temperature sensing circuit comprising a temperature sensing transistor which exhibits a predictable change in its base-emitter voltage due to temperature, and transistors connected for mirroring a current (I(T)) through the temperature sensing transistor and through the resistance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of adjusting temperature response for a temperature sensing circuit connected to a voltage-to-current converting resistance (Rext) wherein the temperature sensing circuit includes a temperature sensing transistor which exhibits a predictable change in its base-emitter voltage due to temperature, and transistors connected for mirroring a current through the temperature sensing transistor and through the resistance, characterized by the step of:
selecting the resistance value in order to produce a desired slope for the temperature response. - View Dependent Claims (10, 11, 12, 13)
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14. An RF transponder, characterized by:
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a resistance (Rext);
a temperature sensing circuit comprising a temperature sensing transistor that exhibits a predictable change in its base-emitter voltage due to temperature, and transistors connected for mirroring a temperature-indicative current through the temperature sensing transistor and through the resistance;
circuitry for converting the mirrored current to a temperature reading that is proportional to the mirrored current; and
a value for the resistance that predictably varies with temperature. - View Dependent Claims (15, 16, 17, 18)
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19. An RF transponder, characterized by:
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a resistance (Rext);
a temperature sensing circuit comprising a temperature sensing transistor which exhibits a predictable change in its base-emitter voltage due to temperature, and transistors connected for mirroring a temperature-indicative current through the temperature sensing transistor and through the resistance;
an external measuring capacitor having a capacitance value which is fixed and substantially independent of temperature and pressure;
a relaxation oscillator circuit which utilizes the external measuring capacitor to convert the temperature-indicative current to an output signal; and
a data capture circuit for converting the output signal to a reading which is proportional to the temperature-indicative current. - View Dependent Claims (20)
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Specification