Apparatus and methods for reducing electrical shock hazard from biosensor meters

The invention claimed is: 1. A biosensor meter for determining an analyte concentration in a fluid, the biosensor meter comprising: a USB port comprising a first data signal port terminal; and a detection circuit for detecting a connection of the biosensor meter to a computer device, the detection circuit comprising a first input terminal coupled to the first data signal port terminal, and comprising an output terminal, wherein: the detection circuit is adapted to provide at the output terminal a first output signal when a current sensed at the first input terminal is greater than or equal to a first predetermined amount, and a second output signal when the current sensed at the first input terminal is less than the first predetermined amount, the biosensor meter is adapted to disable determination of the analyte concentration in the fluid when the detection circuit provides the first output signal at the output terminal, and the biosensor meter disables determination of the analyte concentration in the fluid by providing a warning to not apply a fluid sample to the biosensor meter. 2. The biosensor meter of claim 1 , wherein the detection circuit comprises an operational amplifier comprising an inverting input coupled to first input terminal, and a non-inverting input coupled to a voltage reference. 3. The biosensor meter of claim 2 , wherein the detection circuit further comprises a feedback resistor coupled between the inverting input and an output of the operational amplifier. 4. The biosensor meter of claim 1 , further comprising a controlled switch coupled between the first input terminal and the first data signal port terminal. 5. The biosensor meter of claim 1 , further comprising a microcontroller having an input terminal coupled to the output terminal of the detection circuit. 6. The biosensor meter of claim 1 , wherein the warning comprises one or more of a displayed message and an audible sound. 7. The biosensor meter of claim 1 , wherein the biosensor meter comprises a blood glucose monitor. 8. The biosensor meter of claim 1 , wherein the detection circuit provides the first output signal at the output terminal when the USB port of the biosensor meter is coupled to a USB port of the computer device. 9. A method for use with a biosensor meter used to determine an analyte concentration in a fluid, the biosensor meter comprising a USB port comprising a first data signal port terminal, the method comprising: providing a detection circuit for detecting a connection of the biosensor meter to a computer device, the detection circuit comprising a first input terminal coupled to the first data signal port terminal, and comprising an output terminal; providing a first output signal at the output terminal when a current sensed at the first input terminal is greater than or equal to a first predetermined amount; providing a second output signal at the output terminal when the current sensed at the first input terminal is less than the first predetermined amount; and disabling determination of the analyte concentration in the fluid when the current sensed at the first input terminal is greater than or equal to a first predetermined amount, wherein the disabling comprises providing a warning to not apply a fluid sample to the biosensor meter. 10. The method of claim 9 , further comprising providing a detection circuit that comprises an operational amplifier comprising an inverting input coupled to the first data signal port terminal, a non-inverting input coupled to a voltage reference, and an output that provides the first output signal and the second output signal. 11. The method of claim 10 , further comprising providing a feedback resistor coupled between the inverting input and an output of the operational amplifier. 12. The method of claim 10 , further comprising controllably switching the inverting input of the operational amplifier to the first data signal port terminal. 13. The method of claim 10 , further comprising providing a microcontroller having an input terminal coupled to the output of the operational amplifier. 14. The method of claim 9 , wherein the warning comprises one or more of a displayed message and an audible sound. 15. The method of claim 9 , wherein the biosensor meter comprises a blood glucose monitor. 16. The method of claim 9 , further comprising providing the first output signal when the USB port of the biosensor meter is coupled to a USB port of the computer device. 17. A biosensor meter comprising: a fluid sample testing circuit; a computer device connection port; and a detection circuit coupled to the computer device connection port, wherein: the biosensor meter is operative to disable the fluid sample testing circuit in response to the detection circuit detecting a connection between the computer device connection port and a computer device, and the biosensor meter is further operative to provide a warning to not apply a fluid sample to the biosensor meter in response to the detection circuit detecting a connection between the computer device connection port and the computer device. 18. A biosensor meter for determining an analyte concentration in a fluid, the biosensor meter comprising: a microcontroller; a connection port coupled to the microcontroller; and a detection circuit coupled to the connection port and to the microcontroller, the detection circuit operative to detect a connection at the connection port to a computer device that is OFF; wherein: the microcontroller is operative to disable determination of the analyte concentration in the fluid in response to the detection circuit detecting the connection at the connection port to the computer device that is OFF. 19. The biosensor meter of claim 18 , wherein the connection port comprises a USB port. 20. The biosensor meter of claim 18 further comprising a controlled switch having a first terminal coupled to the detection circuit and a second terminal coupled to the connection port, the controlled switch operative to connect or disconnect the detection circuit to and from the connection port in response to a control signal from the microcontroller. 21. The biosensor meter of claim 20 , wherein the connection port comprises a first data signal port terminal coupled to the second terminal of the controlled switch and further comprises a power port terminal coupled to a power interrupt input of the microcontroller. 22. The biosensor meter of claim 18 , wherein the microcontroller comprises: a power interrupt input coupled to the connection port; and a detect input coupled to an output of the detection circuit. 23. The biosensor meter of claim 18 , wherein the detection circuit comprises: an operational amplifier comprising an inverting input coupled to an input terminal of the detection circuit, and a non-inverting input coupled to a voltage reference; and a comparator having an input coupled to an output of the operational amplifier and having an output coupled to the microcontroller. 24. The biosensor meter of claim 18 , wherein the microcontroller comprises: a power interrupt input coupled to the connection port; and an analog-to-digital converter having an input. 25. The biosensor meter of claim 24 , wherein the detection circuit comprises an operational amplifier comprising an inverting input coupled to an input terminal of the detection circuit, a non-inverting input coupled to a voltage refer