Embedded strip lot autocalibration

1. A system for measuring a body fluid constituent comprising:

• a test strip comprising;
  
  at least one electrically insulating layer with a proximal region and a distal region;
  
  a conductive pattern formed on the at least one insulating layer including at least one electrode disposed on the at least one insulating layer at the proximal region of the strip, electrical strip contacts disposed on the at least one insulating layer at a conductive region at the distal region of the test strip, and conductive traces electrically connecting the electrodes to at least some of the electrical strip contacts;
  
  a reagent layer contacting at least a portion of at least one electrode; and
  
  a machine-readable pattern formed on the at least one insulating layer and being readable to identify data particular to the test strip, the machine-readable pattern comprising a plurality of contacting pads with each contacting pad of the plurality of contacting pads having either a first or second predetermined electrical value, the first and second predetermined value being different from one another;
  
  wherein the contacting pads are disposed distal of the electrical strip contacts and are electrically separated from the electrical strip contacts, andwherein at least one of the contacting pads is a ground contacting pad configured to establish a common connection to an electrical ground, the ground contacting pad including a grounding portion to establish the connection to the electrical ground and a notch portion distal to and electrically separated from the grounding portion, wherein a distal edge of the grounding portion of the ground contacting pad is proximal to distal edges of the remaining contacting pads; and
  
  a diagnostic meter comprising;
  
  a connector comprising a channel having a proximal end and a distal end configured to receive the test strip;
  
  a first plurality of connector contacts and a second plurality of connector contacts disposed in the channel, the first plurality of connector contacts and the second plurality of connector contacts being positioned in the channel to contact the electrical strip contacts located in distinct portions of the contact region of the test strip, and a microprocessor operable with a decoder for decoding a resistance of the electrical strip contacts as information.