Method and circuit for storing and providing historical physiological data
First Claim
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1. An oximeter sensor, comprising:
- a light emitting element configured to emit light;
a light detector configured to detect the light;
a resistor having a resistance value that is detectable by a monitor; and
a memory storing a contact resistance value of a connector that is disposed between the monitor and the resistor when the monitor and the oximeter sensor are communicatively coupled, the contact resistance value being readable by the monitor to be used in a correction mechanism of the monitor to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value.
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Abstract
Embodiments of the present invention include systems and methods that relate to pulse oximetry. Specifically, one embodiment includes an oximeter sensor comprising a light emitting element configured to emit light, a light detector configured to detect the light, a resistor having a resistance value that is detectable by a monitor, and a memory storing a contact resistance value of a connector that is disposed between the monitor and the resistor when the monitor and the oximeter sensor are communicatively coupled.
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Citations
10 Claims
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1. An oximeter sensor, comprising:
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a light emitting element configured to emit light; a light detector configured to detect the light; a resistor having a resistance value that is detectable by a monitor; and a memory storing a contact resistance value of a connector that is disposed between the monitor and the resistor when the monitor and the oximeter sensor are communicatively coupled, the contact resistance value being readable by the monitor to be used in a correction mechanism of the monitor to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value. - View Dependent Claims (2)
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3. A method of manufacturing an oximeter sensor, comprising:
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providing a light emitting element within the oximeter sensor, the light emitting element configured to project light; providing a light detector within the oximeter sensor, the light detector configured to detect the light; providing a resistor within the oximeter sensor, wherein the resistor includes a resistance value that is detectable by a monitor; and providing a memory within the oximeter sensor, wherein the memory is storing a contact resistance value of a connector that is disposed between the monitor and the resistor when the monitor and the oximeter sensor are communicatively coupled, the contact resistance value being readable by the monitor to be used in a correction mechanism of the monitor to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value. - View Dependent Claims (4)
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5. An oximeter system, comprising:
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an oximeter sensor, comprising; a light emitting element configured to emit light; a light detector configured to detect the light; a resistor having a resistance value; and a memory storing a contact resistance value of a connector that provides communicative access to the resistor; and an oximeter monitor, comprising; a drive circuit configured to provide signals to circuitry of the oximeter sensor; a read circuit configured to read the resistance value of the resistor and the contact resistance value from the memory; and a correction mechanism configured to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value.
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6. An oximeter monitor, comprising:
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a drive circuit configured to provide signals to circuitry of an oximeter sensor; a first read circuit configured to read a resistance value of a resistor of the oximeter sensor; a second read circuit configured to read a contact resistance value from a memory of the oximeter sensor; and a correction mechanism configured to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value. - View Dependent Claims (7)
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8. A method of monitor operation, comprising:
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providing signals to circuitry of an oximeter sensor; reading a resistance value of a resistor of the oximeter sensor; reading a contact resistance value from a memory of the oximeter sensor; and correcting the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value. - View Dependent Claims (9)
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10. A method of operating an oximeter sensor, comprising:
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projecting light from a light emitting element; detecting the light with a light detector; and producing a resistance value with a resistor, the resistance value being detectable by a monitor; and providing the monitor access to a value stored in a sensor memory, wherein the stored value is a contact resistance value of a connector that is disposed between the monitor and the resistor when the monitor and the oximeter sensor are communicatively coupled, the contact resistance value being readable by the monitor to be used in a correction mechanism of the monitor to correct the resistance value based on an algorithm that incorporates the resistance value and the contact resistance value.
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Specification