Dual mode optical rain sensing device

We claim: 1. A device for detecting rain or a substance on a windshield, the device comprising: at least one radiation source that emits radiation toward a detection area on the windshield in a direction such that a first portion of the radiation reflects from the windshield and a second portion of the radiation passes through the windshield; an internal reflection sensor situated relative to the at least one radiation source such that at least some of the first portion of the radiation that reflects from the detection area on the windshield is incident on the internal reflection sensor, the internal reflection sensor providing a first output that is indicative of an amount of the first portion of the radiation that is incident on the internal reflection sensor, the first output having a characteristic that differs based on whether at least one rain drop is on the windshield in the detection area; a scattered reflection sensor situated relative to the at least one radiation source differently than the internal reflection sensor such that at least some of the second portion of the radiation reflecting from rain near the windshield or a substance on the windshield may be incident on the scattered reflection sensor, the scattered reflection sensor providing a second output indicative of an amount of radiation incident on the scattered reflection sensor; and a processor that is configured to determine a condition of the windshield based on the first output and the second output. 2. The device of claim 1 , wherein the radiation source emits light. 3. The device of claim 2 , wherein the radiation source comprises a laser diode. 4. The device of claim 3 , wherein the radiation source comprises a near infrared laser diode. 5. The device of claim 1 , wherein the characteristic of the first output includes a first magnitude and a first frequency. 6. The device of claim 5 , wherein the processor is configured to determine if the first magnitude exceeds at least one predetermined magnitude threshold; and determine if the first frequency exceeds at least one frequency threshold. 7. The device of claim 6 , wherein the processor is configured to determine that the condition of the windshield is a first condition that includes a first level of precipitation when the first magnitude exceeds a first magnitude threshold and the second output does not indicate any radiation incident on the scattered reflection sensor; determine that the condition of the windshield is a second condition that includes a second level of precipitation that is greater than the first level of precipitation when the first magnitude exceeds a second magnitude threshold that is higher than the first magnitude threshold and the second output indicates radiation incident on the scattered reflection sensor; and determine that the condition of the windshield is a third condition that includes a third level of precipitation that is greater than the second level of precipitation when the first magnitude exceeds a third magnitude threshold that is greater than the second magnitude threshold and the second output indicates radiation incident on the scattered reflection sensor with a high frequency of incidence. 8. The device of claim 7 , wherein the processor is configured to control a windshield wiper assembly based on the determined condition of the windshield; cause the windshield wiper assembly to swipe the windshield once based on determining that the condition of the windshield is the first condition; cause the windshield wiper assembly to operate at one of a low, medium or high speed based on the first frequency and a frequency of incidence of radiation incident on the scattered reflection sensor when the condition of the windshield is the second condition; and cause the windshield wiper assembly to operate at a high speed when the condition of the windshield is the third condition. 9. The device of claim 6 , wherein the processor is configured to determine that a substance is on the windshield when the first output does not indicate any rain on the detection area and the second output indicates that radiation is incident on the scattered reflection sensor at a high frequency of incidence; and cause a windshield wiper assembly to apply a windshield cleaner fluid to the windshield. 10. The device of claim 1 , comprising: at least one transreflective component between the radiation source and the windshield, the transreflective component allows the first portion of the radiation to pass through the transreflective component toward the detection area on the windshield and reflect a third portion of the radiation toward a second detection area on the windshield; and a second internal reflection sensor situated relative to the at least one radiation source such that at least some of the third portion of the radiation that reflects from the second detection area on the windshield is incident on the second internal reflection sensor, the second internal reflection sensor providing a third output that is indicative of an amount of the third portion of the radiation that is incident on the second internal reflection sensor, the third output having a characteristic that differs based on whether at least one rain drop is on the windshield in the second detection area. 11. The device of claim 10 , wherein the first portion of the radiation is directed at the detection area on the windshield at an angle that results in the first portion of the radiation reflecting from the detection area toward the internal reflection sensor; and the third portion of the radiation is directed at the second detection area on the windshield at an angle that results in the second portion of the radiation reflecting from the second detection area toward the second internal reflection sensor. 12. The device of claim 1 , wherein the first portion of the radiation is directed at the detection area on the windshield at an angle that results in the first portion of the radiation reflecting from the detection area toward the internal reflection sensor; and the characteristic of the first output includes a first magnitude that decreases in an amount corresponding to an amount of rain on the detection area. 13. A method of detecting rain or a substance on a windshield, the method comprising: emitting radiation toward a detection area on the windshield in a direction such that a first portion of the radiation reflects from the windshield and a second portion of the radiation passes through the windshield; using an internal reflection sensor for detecting at least some of the first portion of the radiation that reflects from the detection area on the windshield that is incident on the internal reflection sensor; generating a first output from the internal reflection sensor that is indicative of an amount of the first portion of the radiation that is incident on the internal reflection sensor, the first output having a characteristic that differs based on whether at least one rain drop is on the windshield in the detection area; using a scattered reflection sensor for detecting at least some of the second portion of the radiation reflecting from rain near the windshield or a substance on the windshield; generating a second output from the scattered reflection sensor indicative of an amount of radiation incident on the scattered reflection sensor; and determining a condition of the windshield based on the first output and the second output. 14. The method of claim 13 , wherein the radiation comprises light. 15. The method of claim 13 , wherein the characteristic of the first o