Temperature compensation for an analyte measurement determined from a specified sampling time derived from a sensed physical characteristic of the sample containing the analyte

1. A glucose concentration measurement system comprising:

• a biosensor having a plurality of electrodes including at least two electrodes with an enzyme disposed thereon; and
  
  a meter including;
  
  a temperature sensing device issuing a temperature signal indicative of a temperature proximate the biosensor;
  
  a microcontroller, responsive to the temperature signal, and coupled to a power source, memory and the plurality of electrodes of the biosensor and in which the microcontroller is programmed to;
  
  measure ambient temperature proximate the biosensor;
  
  drive a signal to the at least two electrodes when a fluid sample with a glucose analyte is deposited proximate the at least two electrodes;
  
  measure a signal output from the at least two electrodes during an electrochemical reaction;
  
  calculate an uncompensated glucose concentration from the signal output;
  
  adjust the uncompensated glucose concentration to a final glucose concentration based on a compensation term,increasing the compensation term as a function of increasing glucose concentration;
  
  (a) increasing the compensation term as the ambient temperature proximate the biosensor decreases from about twenty-two (22) degrees Celsius to about five (5) degrees Celsius; and
  
  (b) maintaining the compensation term at a value of about zero (0) as the ambient temperature proximate the biosensor varies from about twenty-two (22) degrees Celsius to about forty-five (45) degrees Celsius; and
  
  annunciate the final glucose concentration in which the microcontroller is configured to;
  
  (a) apply a first signal to the plurality of electrodes so that a hematocrit level of the fluid sample is determined;
  
  (b) estimate a glucose concentration based on a predetermined sampling time point during a test sequence;
  
  (c) apply a second signal to the plurality of electrodes; and
  
  (d) measure output signals from the plurality of electrodes at a specified sampling time during the test sequence dictated by the determined hematocrit level so that a glucose concentration is calculated from the output signals of the plurality of electrodes, the specified sampling time being selected from a look-up table programmed into the microcontroller that includes a matrix having measured or estimated glucose concentrations provided in the leftmost column of the matrix and estimated or measured levels of the hematocrit level provided in the topmost row of the matrix with the specified sampling times being provided in the remaining cells of the matrix to derive the specified sampling time based on the determined hematocrit level and the estimated glucose concentration.