Close loop control of an illumination source based on sample heating

What is claimed is: 1 . An agricultural mobile machine, comprising: an illumination source that is actuated to illuminate a crop sample being processed by the agricultural mobile machine, through a sample window element, with electromagnetic radiation; a detector that detects radiation reflected from the crop sample and generates a detector signal indicative of the reflected radiation; a temperature sensor that senses a temperature of the sample window element and generates a temperature sensor signal indicative of the sensed temperature; and a closed loop control system that generates an illumination source control signal to control the illumination source based on the temperature sensor signal. 2 . The agricultural mobile machine of claim 1 wherein the detector comprises: a near infrared radiation spectroscopy sensor. 3 . The agricultural mobile machine of claim 1 wherein the closed loop control system comprises: an illumination source controller configured to generate a lamp on/off signal to turn the illumination source on and off based on the temperature sensor signal. 4 . The agricultural mobile machine of claim 3 wherein the closed loop control system comprises: a sample trigger generator that receives a sample rate signal and generates, based on the sample rate signal, a trigger signal triggering the detector to generate the detector signal. 5 . The agricultural mobile machine of claim 3 wherein the illumination source controller is configured to control the illumination source to keep the temperature of the sample window element in a predetermined temperature range. 6 . The agricultural mobile machine of claim 5 wherein the illumination source controller is configured to turn the illumination source on and off to maintain the temperature of the sample window between a first threshold temperature value and a second temperature threshold value. 7 . The agricultural mobile machine of claim 6 wherein the illumination controller comprises: a signal conditioning component configured to filter the temperature sensor signal. 8 . The agricultural mobile machine of claim 1 wherein the agricultural mobile machine comprises a combine harvester that harvests crop and moves the harvested crop through a crop passageway, the sample window being provided in the crop passageway. 9 . The agricultural mobile machine of claim 1 wherein the agricultural mobile machine comprises a self-propelled forage harvester that harvests crop and moves the harvested crop through a crop passageway, the sample window being provided in the crop passageway. 10 . The agricultural mobile machine of claim 1 and further comprising: a geographic position sensor that senses a geographic position of the agricultural mobile machine and generates a position signal indicative of the agricultural mobile machine. 11 . A method of controlling an agricultural mobile machine, comprising: processing a harvested crop; actuating an illumination source to illuminate a crop sample being processed by the agricultural mobile machine, through a sample window element, with electromagnetic radiation; detecting radiation reflected from the crop sample; generating a detector signal indicative of the reflected radiation; sensing a temperature of the sample window element; generating a temperature sensor signal indicative of the sensed temperature; and generating an illumination source control signal, with a closed loop control system, to control the illumination source based on the temperature sensor signal. 12 . The method of claim 11 wherein detecting radiation comprises: detecting near infrared radiation with a spectroscopy sensor. 13 . The method of claim 11 generating an illumination source control signal comprises: generating a lamp on/off signal to turn the illumination source on and off based on the temperature sensor signal. 14 . The method of claim 13 wherein detecting radiation comprises: receiving a sample rate signal; and generating, based on the sample rate signal, a trigger signal triggering the detector to generate the detector signal. 15 . The method of claim 13 wherein generating a lamp on/off signal comprises: controlling the illumination source to keep the temperature of the sample window element in a predetermined temperature range. 16 . The method of claim 15 wherein controlling the illumination source comprises: turning the illumination source on and off to maintain the temperature of the sample window between a first threshold temperature value and a second temperature threshold value. 17 . An agricultural harvester, comprising: harvesting functionality that harvests crop and moves the harvested crop along a crop travel path, through a crop passageway; a sample window element that defines a portion of the crop passageway; an illumination source that is actuated to illuminate a crop sample being processed by the agricultural harvester, through the sample window element, with electromagnetic radiation; a detector that detects radiation reflected from the crop sample and generates a detector signal indicative of the reflected radiation; a temperature sensor that senses a temperature proximate the crop sample and generates a temperature sensor signal indicative of the sensed temperature; and a closed loop control system that generates an illumination source control signal to control the illumination source based on the temperature sensor signal. 18 . The agricultural harvester of claim 17 wherein the temperature sensor is configured to sense a temperature of the sample window element. 19 . The agricultural harvester of claim 17 wherein the detector comprises: a near infrared radiation spectroscopy sensor. 20 . The agricultural harvester of claim 17 wherein the closed loop control system comprises: an illumination source controller configured to generate a lamp on/off signal to turn the illumination source on and off based on the temperature sensor signal.