Detector arrangement for blood culture bottles with colorimetric sensors

I claim: 1. A detection system for blood culture bottle incorporating a colorimetric sensor subject to change of color due to change in pH or CO 2 of a sample medium within the blood culture bottle, comprising: a sensor LED illuminating the colorimetric sensor; a reference LED illuminating the colorimetric sensor; a control circuit for selectively and alternately activating the sensor LED and the reference LED; and a photodetector, the photodetector measuring reflectance from the colorimetric sensor during the selective and alternating illumination of the colorimetric sensor with the sensor LED and the reference LED and generating intensity signals; a computer comprising machine executable instructions, wherein the machine executable instructions are configured to: receive the intensity signals from the photodetector; and determine a distance of the bottle from a home position based on the intensity signals, the computer including a non-transitory memory storing a calibration relationship between intensity signals for the reference LED as a function of distance of the bottle from the home position in relation to the detection system, wherein the non-transitory memory further stores a calibration relationship between intensity signals for the sensor LED as a function of distance of the bottle from the home position and wherein the machine executable instructions are configured to compensate for a drop in intensity signals from the sensor LED due to the bottle being positioned a distance away from the home position in accordance with calibration relationships for the sensor LED and the reference LED, wherein the reference LED is selected to have a peak wavelength of illumination such that the intensity signals of the photodetector from illumination by the reference LED are not substantially affected by changes in the color of the colorimetric sensor, and wherein the peak wavelength of illumination of the reference LED is below about 490 nm. 2. The detection system of claim 1 wherein the reference LED has a peak wavelength of illumination of between about 328 and 470 nm. 3. The detection system of claim 1 wherein the reference LED has a peak wavelength of illumination of between about 450 and 470 nm. 4. A method for detection of colorimetric sensor incorporated in a blood culture bottle, the colorimetric sensor subject to change of color due to change in pH or CO 2 of a sample medium within the blood culture bottle comprising the steps of: alternately and repeatedly illuminating the colorimetric sensor with a sensor LED and a reference LED; storing in computer memory a calibration relationship between intensity signals for the reference LED as a function of distance of the bottle from a home position in relation to the sensor LED, reference LED, and photodetector; measuring reflectance from the colorimetric sensor due to the illumination of the colorimetric sensor by the sensor LED and reference LED with a photodetector, the photodetector responsively generating intensity signals; determining a distance of the bottle from the home position based on the intensity signals; and compensating for a drop in intensity signals from the sensor LED due to the bottle being positioned a distance away from the home position in accordance with calibration relationships for the sensor LED and the reference LED; wherein the reference LED is selected to have a peak wavelength of illumination such that the intensity signals of the photodetector from illumination by the reference LED are not substantially affected by changes in the color of the colorimetric sensor and wherein the peak wavelength of illumination of the reference LED is below about 490 nm. 5. The method of claim 4 , wherein the reference LED has a peak wavelength of illumination of between about 328 and 470 nm. 6. The method of claim 4 , wherein the reference LED has a peak wavelength of illumination of between about 450 and 470 nm. 7. The method of claim 4 , further comprising the step of storing in computer memory a calibration relationship between intensity signals for the sensor LED as a function of distance of the bottle from a home position in relation to the sensor LED, reference LED and photodetector. 8. The method of claim 4 , wherein the step of compensating comprises the step of determining a displacement value for the bottle using the calibration relationship for the reference LED and using the calibration relationship for the sensor LED to adjust the intensity signal from the photodetector to correct for the displacement of the bottle by the displacement value.