초록 ▼

A system and method is described for rapid charging and power management of a battery for a meter. A charger component is operably associated with the meter and is capable of executing a rapid charge algorithm for a rechargeable battery. The algorithm includes monitoring for a connection to an exter

A system and method is described for rapid charging and power management of a battery for a meter. A charger component is operably associated with the meter and is capable of executing a rapid charge algorithm for a rechargeable battery. The algorithm includes monitoring for a connection to an external power source and implementing a charging routine of a battery at a first charge rate and then at a second charge rate. The second charge rate is lower than the first charge rate. A temperature rise in the rechargeable battery due to the first charge rate has a negligible heat transfer effect on the fluid sample. The meter can also include a power switch for controlling current flow to a battery fuel gauge. The power switch is open when the meter enters into a sleep mode. The state of battery charge is determined after the meter exits the sleep mode.

대표청구항 ▼

1. A battery-powered meter adapted to determine an analyte concentration of a fluid sample, the meter comprising: a housing defining an area for receiving a rechargeable battery and a port sized for receiving at least a portion of a test sensor;a temperature sensor disposed within said housing; ando

1. A battery-powered meter adapted to determine an analyte concentration of a fluid sample, the meter comprising: a housing defining an area for receiving a rechargeable battery and a port sized for receiving at least a portion of a test sensor;a temperature sensor disposed within said housing; andone or more processors disposed within said housing, at least one of said one or more processors configured to implement a rapid charge process associated with said rechargeable battery, said process comprising the acts of: (i) monitoring for a connection to an external power source; and(ii) in response to receiving identifying information of said connection to said external power source, implementing a charge routine for rapid charging of said battery at a first charge current until a threshold temperature value determined using said temperature sensor is exceeded and thereafter charging said battery at a second charge current that is lower than said first charge current,wherein implementation of said charge routine causes a negligible temperature rise in said rechargeable battery due to said first and second charge currents, thereby limiting temperature effects in determining fluid analyte concentrations. 2. The battery-powered meter of claim 1, wherein said housing has a long dimension of less than approximately three inches. 3. The battery-powered meter of claim 1, wherein said housing has a footprint area of less than about six square inches. 4. The battery-power meter of claim 1, wherein the housing has a footprint area of less than about nine square inches. 5. The battery-powered meter of claim 1, wherein the housing has a footprint area in the range of about three square inches. 6. The battery-powered meter of claim 1, wherein said negligible temperature rise is a temperature rise in said rechargeable battery of less than one degree Celsius. 7. The battery-powered meter of claim 1, wherein said first charge current is about 1C. 8. The battery-powered meter of claim 1, wherein said second charge current is less than 1C. 9. The battery-powered meter of claim 1, wherein said second charge current is from about 0.5C to about 0.6C. 10. The battery-powered meter of claim 1, wherein said first charge current is from about 2C to about 5C. 11. The battery-powered meter of claim 1, wherein said external power source is a port on a computing device. 12. The battery-powered meter of claim 1, wherein the temperature sensor is a part of said rechargeable battery. 13. The battery-powered meter of claim 1, wherein said temperature sensor is a part of an integrated circuit associated with said one or more processors. 14. A method of rapidly charging a battery in a meter having a port configured to receive at least a portion of a test sensor, said meter configured to determine a fluid analyte concentration of a fluid sample disposed on said test sensor, said method implemented on one or more processors associated with said meter, the method comprising the acts of: determining temperature values based on temperature data associated with a temperature sensor disposed within said meter;in response to receiving an input associated with a connection of the meter to an external power source, implementing a rapid charge routine via said one or more processors, said rapid charge routine operative to charge said battery at a first charge current until a threshold temperature value determined in said determining temperature values act is exceeded;in response to exceeding said threshold temperature value, implementing a normal charge routine via at least one of said one or more processors, said normal charge routine operative to charge said battery at a second charge current that is lower than said first charge current,wherein implementation of said rapid and normal charge routines causes negligible temperature rise in said battery due to said first and second charge currents, thereby limiting temperature effects in determining fluid analyte concentrations. 15. The method of claim 14, further comprising in response to a predetermined event during said normal charge routine, implementing a termination charge routine that charges said battery at a third charge current until another predetermined event occurs, said third charge current being lower than said second charge current. 16. The method of claim 15, wherein said third charge current is continuously decreasing. 17. The method of claim 14, wherein said negligible temperature rise is a temperature rise of less than one degree Celsius. 18. The method of claim 14, wherein said first charge current is about 1C. 19. The method of claim 14, wherein said second charge current is less than about 1C. 20. A battery-powered meter adapted to determine an analyte concentration of a fluid sample, the meter comprising: a housing defining an area for receiving a rechargeable battery and a port sized for receiving at least a portion of a test sensor; andone or more processors disposed within said housing, at least one of said one or more processors configured to implement a rapid charge process associated with said rechargeable battery, said rapid charge process comprising the acts of: (i) monitoring said rechargeable battery for a remaining battery charge value that is less than a predetermined charge value;(ii) in response to receiving identifying information that said remaining battery charge value is less than the predetermined charge value, transmitting a signal for implementing a human perceptible alert;(iii) monitoring for a connection to an external power source; and(iv) in response to receiving identifying information of said connection to said external power source, implementing a charge routine for charging said rechargeable battery for less than about one minute at a charge rate of about 2C or less,wherein a determination of analyte concentration by said meter has an approximated energy draw, said implementation of said charge routine providing energy to said rechargeable battery to allow more than one analyte concentration determination to be completed based on said approximated energy draw, said charge routine further causing negligible temperature rise in said rechargeable battery, thereby limiting temperature effects in determining fluid analyte concentrations. 21. The battery-powered meter of claim 20, wherein said predetermined charge value is a charge value associated with enough energy to complete two or fewer analyte concentration determinations based on said approximated energy draw. 22. The battery-powered meter of claim 20, wherein said charge routine provides energy to said battery to complete approximately five analyte concentration determinations based on said approximated energy draw.