Out-of-product detection using optical sensors

What is claimed is: 1. An apparatus for monitoring a chemical dispensing system, comprising: a first photodetector; a light source configured to generate a beam of light; a holder configured to position the light source and the first photodetector relative to a tube that carries a product such that the beam of light has an oblique angle of incidence with respect to an outer surface of the tube, and the first photodetector is in an optical path of the beam of light when the tube is in one of a dry state or a wet state, and is not in the optical path of the beam of light when the tube is in the other of the dry state or the wet state; a processor; and a memory coupled to the processor and containing program code that, when executed by the processor, causes the processor to: sample a first signal generated by the first photodetector; generate a reading value characterizing the sample; store the reading value in the memory as an element in an array having a plurality of elements each corresponding to a previously stored reading value; generate an array value based on the plurality of elements in the array; and if the array value is greater than a first threshold, increment a counter; if the array value is less than a second threshold, decrement the counter; and determine whether an out-of-product condition exists based on the counter. 2. The apparatus of claim 1 wherein the program code further causes the processor to: compare a value of the counter to an upper limit; and if the value of the counter is at the upper limit, set the out-of-product condition. 3. The apparatus of claim 1 , further comprising: a second photodetector, wherein the holder is further configured to position each of the first photodetector and the second photodetector relative to the tube that carries the product such that the first photodetector is in an optical path of the beam of light when the tube is in a wet state, and is not in the optical path of the beam of light when the tube is in a dry state and the second photodetector is in the optical path of the beam of light when the tube is in the dry state. 4. The apparatus of claim 3 , wherein: the memory when further executed by the processor, causes the processor to: receive a second signal from the second photodetector; compare the first signal and the second signal; and determine if the tube is in the wet state or the dry state based on the comparison. 5. The apparatus of claim 3 wherein the holder includes a guide, and further comprising: a base including a support configured to operate in cooperation with the guide to position the tube in a fixed position relative to the holder. 6. The apparatus of claim 5 wherein the holder includes a first alignment element and the base includes a second alignment element configured to engage the first alignment element, the engagement of the first and second alignment elements positioning the holder in a fixed position relative to the base. 7. An apparatus for monitoring a chemical dispensing system, comprising: a photodetector; a light source configured to generate a beam of light; a holder configured to position the light source and the photodetector relative to a tube that carries a product such that the beam of light has an oblique angle of incidence with respect to an outer surface of the tube, and the photodetector is in an optical path of the beam of light when the tube is in one of a dry state or a wet state, and is not in the optical path of the beam of light when the tube is in the other of the dry state or the wet state; a processor; and a memory coupled to the processor and containing program code that, when executed by the processor, causes the processor to: activate the light source using a plurality of electrical pulses; count pulses received from the photodetector; and determine if the tube is in the wet state or the dry state based on a number of pulses counted.