Electrochemical-sensor design
First Claim
1. A system for detecting the concentration of analyte in a fluid test sample which comprises an electrochemical sensor for detecting the concentration of analyte in a fluid test sample, the sensor comprising a base which provides a flow path for the fluid test sample having on its surface a counter electrode and a working electrode in electrical communication with a detector of electrical current, a reaction layer on the surface of at least the working electrode comprising an enzyme which reacts with the analyte to produce electrons that are transferred to the working electrode, and a cover which when mated with the base member forms a capillary space with an opening for the introduction of fluid test sample thereto which space contains the flow path for the fluid test sample in which the counter and working electrodes are situated so that the major portion of the counter electrode is located downstream of the opening from the working electrode with a sub-element of the counter electrode being upstream of the working electrode so that when electrical communication between only the sub-element and working electrode takes place there is insufficient flow of electrical current through the detector to constitute a valid test for the concentration of analyte in the fluid test sample and the detector is pre-programmed to emit an error signal in the event of such insufficient flow of electrical current,wherein the sensor is in electrical connection with a meter which has been algorithmically programmed to a) make multiple current measurements at different time periods when a driving potential is applied between the electrodes, b) convert the multiple current measurements into error checking parameters and c) check the values of these parameters against their corresponding tolerance bands to determine if a short fill has occurred.
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Accused Products
Abstract
An improved electrochemical sensor having a base bearing a working and counter electrode which provides a flow path for a fluid test sample. The working and counter electrodes are configured so that a major portion of the counter electrode is located downstream on the flow path from the working electrode with the exception of a small sub-element of the counter electrode which is in electrical communication with the primary portion of the counter electrode and located upstream of the working electrode. This configuration enables the sensor when the capillary space is incompletely filled with test fluid.
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Citations
2 Claims
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1. A system for detecting the concentration of analyte in a fluid test sample which comprises an electrochemical sensor for detecting the concentration of analyte in a fluid test sample, the sensor comprising a base which provides a flow path for the fluid test sample having on its surface a counter electrode and a working electrode in electrical communication with a detector of electrical current, a reaction layer on the surface of at least the working electrode comprising an enzyme which reacts with the analyte to produce electrons that are transferred to the working electrode, and a cover which when mated with the base member forms a capillary space with an opening for the introduction of fluid test sample thereto which space contains the flow path for the fluid test sample in which the counter and working electrodes are situated so that the major portion of the counter electrode is located downstream of the opening from the working electrode with a sub-element of the counter electrode being upstream of the working electrode so that when electrical communication between only the sub-element and working electrode takes place there is insufficient flow of electrical current through the detector to constitute a valid test for the concentration of analyte in the fluid test sample and the detector is pre-programmed to emit an error signal in the event of such insufficient flow of electrical current,
wherein the sensor is in electrical connection with a meter which has been algorithmically programmed to a) make multiple current measurements at different time periods when a driving potential is applied between the electrodes, b) convert the multiple current measurements into error checking parameters and c) check the values of these parameters against their corresponding tolerance bands to determine if a short fill has occurred.
Specification