Optical sensor system and measurement method

The invention claimed is: 1. A method for measuring a signal produced by an optical sensor comprising a light source and a light detector, the method comprising: setting an integration time interval to an initial time interval programmed to obtain a voltage amplitude-based optical signal sample point; applying a drive current to activate the light source during the integration time interval; integrating a current induced on the light detector to obtain a voltage signal during the integration time interval, wherein the current is induced in response to a light transmitted from the light source to the light detector; comparing the voltage signal to a threshold during the integration time interval; converting the voltage signal to the optical signal sample point at the expiration of the integration time interval; adjusting an optical sensor control parameter in response to the voltage signal crossing the threshold during the integration time interval; and operating the optical sensor using the adjusted control parameter, wherein adjusting the optical sensor control parameter comprises: measuring a time interval for the voltage signal to reach the threshold during the integration time interval by measuring a duration of the integration time interval that has elapsed when the threshold is reached, computing a light detector current using the measured time interval, and computing the adjusted optical sensor control parameter using the computed light detector current. 2. The method of claim 1 , further comprising: adjusting the optical sensor control parameter by adjusting the integration time interval to be shorter than the measured time interval in response to the voltage signal reaching the threshold during the integration time interval. 3. The method of claim 1 , further comprising establishing the threshold below an input range maximum of an analog-to-digital converter receiving the voltage signal. 4. The method of claim 1 , further comprising: establishing a targeted magnitude of the voltage signal as a proportion of an input range of an analog-to-digital converter receiving the voltage signal; and computing the adjusted control parameter to produce a voltage signal at the targeted magnitude upon expiration of the integration time interval. 5. The method of claim 4 , further comprising: integrating the current signal for the integration time interval; comparing a voltage signal magnitude at an expiration of the integration time interval to the targeted magnitude when the voltage signal does not meet the threshold during the integration time interval; and adjusting an optical sensor control parameter in response to the signal magnitude falling outside the targeted magnitude. 6. The method of claim 1 , further comprising turning off one of an integrator integrating the current and the drive current activating the light source in response to the voltage signal reaching the threshold. 7. The method of claim 1 , further comprising: measuring ambient light in response to the voltage signal reaching the threshold; comparing the ambient light to a targeted ambient light signal range; and adjusting one of an integration time interval and an integration capacitance over which the voltage signal is obtained in response to the ambient light measurement exceeding the targeted range. 8. The method of claim 7 , further comprising adjusting the drive current activating the light source in response to the ambient light measurement not exceeding the targeted range. 9. The method of claim 1 , wherein adjusting an optical sensor control parameter comprises adjusting one of an integration capacitance, an integration time interval over which the current is integrated, and the drive current applied to the light source. 10. The method of claim 1 , further comprising: adjusting the optical sensor control parameter to the computed optical sensor control parameter without iteratively adjusting the optical sensor control parameter so that a next optical signal sample point at an expiration of a next integration time interval immediately following the integration time interval is within a targeted range of the converter, the adjusted optical sensor control parameter comprising at least one of an increased integration capacitance of the light detector during the next integration time interval compared to during the initial integration time interval, a decreased duration of the next integration time interval compared to the initial integration time interval, and a decreased drive current during the next integration time interval compared to during the initial integration time interval. 11. A medical device for monitoring a patient using an optical sensor signal, the device comprising: an optical sensor comprising a light source and a light detector; a timer set to an initial integration time interval programmed to obtain a voltage amplitude-based optical signal sample point; an integrator configured to integrate a current induced on the light detector to obtain a voltage signal, wherein the current is induced in response to a light transmitted from the light source to the light detector; a converter configured to convert the voltage signal to the optical signal sample point at the expiration of the integration time interval; a comparator configured to compare the voltage signal to a threshold during the integration time interval; and a controller configured to adjust an optical sensor control parameter in response to the voltage signal reaching the threshold during the integration time interval, and operate the optical sensor to produce the optical sensor signal using the adjusted control parameter, wherein adjusting the optical sensor control parameter comprises: measuring a time interval for the voltage signal to reach the threshold during the integration time interval by measuring a duration of the integration time interval that has elapsed when the threshold is reached, computing a light detector current using the measured time interval, and computing the adjusted optical sensor control parameter using the computed light detector current. 12. The device of claim 11 , wherein the controller is configured adjust the optical sensor control parameter in response to the voltage signal reaching the threshold during the integration time interval by adjusting the integration time interval to be shorter than the measured time interval. 13. The device of claim 11 , further comprising an analog-to-digital converter to receive the voltage signal, wherein the threshold is below an input range maximum of the analog-to-digital converter. 14. The device of claim 11 , further comprising an analog-to-digital converter receiving the voltage signal, wherein the controller is further configured to establish a targeted magnitude of the voltage signal as a proportion of an input range of the analog-to-digital converter and compute the adjusted control parameter to produce a voltage signal at the targeted magnitude upon expiration of the integration time interval. 15. The device of claim 14 , wherein the integrator integrates the current signal for the integration time interval, the comparator compares a voltage signal magnitude upon expiration of the integration time interval to the targeted magnitude when the voltage signal does not meet the threshold during the integration time interval, and the controller adjusts an optical sensor control parameter in response to the voltage signal magnitude falling outside the targeted magnitude. 16. The device of claim 11 , further comprising a drive circuit to deliv