Multi-function light sensor for vehicle
First Claim
1. An arrangement for detecting the presence of water droplets on a windshield of a vehicle, the windshield having interior and exterior surfaces so as to have interior and exterior sides, the arrangement comprising:
- an energy source disposed on the interior side of the windshield, for producing a radiant energy, a first portion of the radiant energy being directed toward the interior surface of the windshield and a second portion, corresponding to a portion of the first portion, being reflected in a direction away from the windshield, said energy source having a time varying characteristic whereby a predetermined characteristic of the radiant energy varies over time;
a first sensor disposed on the interior side of the windshield and having a first sensor input for receiving the second portion of the radiant energy;
said first sensor further having a sensor output for producing a first sensor output electrical signal responsive to the radiant energy received at the first sensor input;
a second sensor disposed on the interior side of the windshield and having a second sensor input for receiving a third portion of the radiant energy produced by said energy source, said second sensor having a sensor output for producing a second sensor output electrical signal responsive to the third portion of the radiant energy received at the second sensor input; and
a processor for receiving information responsive to the first and second sensor output electrical signals, and an output for producing a control signal, the control signal being responsive to a first information component in said first sensor output electrical signal responsive to the presence of water droplets on the exterior surface of the windshield, a second information component in said first sensor output electrical signal responsive to the time-varying characteristic of said energy source, and a third information component derived from said second sensor output electrical signal.
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Accused Products
Abstract
A system for detecting the presence of rain droplets on a windshield employs a source of radiant energy, such as an LED, and a photodetector installed on the instrument panel of a vehicle. The LED and the photodiode are arranged with respect to one another such that light from the LED cannot reflect directly off the windshield onto the photodiode. Only when the light from the LED is back scattered by an environmental condition, such as the raindrops on the exterior of the windshield, the condensation of moisture on the interior of the windshield, or the presence of smoke in the cabin, will the photodiode receive the light from the LED. Each of these environmental conditions has a predeterminable characteristic signature that permits the processing of data to detect same. An ambient light signal is subtracted from the combination of the rain and ambient light signals by pulsed operation of the LED and subtracting the ambient light signal, which is detected when the LED is dark, from the combined LED and ambient light signal which is present when the LED is illuminated. A further LED is provided to effect a fog detection system that detects condensation on the interior of the vehicle windshield. The further LED illuminates the photodiode in a manner whereby the light on the photodiode is reduced when condensation is present. Also, a monitoring arrangement that employs a separate light sensor provides compensation for variances resulting from component aging and thermal influences.
104 Citations
32 Claims
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1. An arrangement for detecting the presence of water droplets on a windshield of a vehicle, the windshield having interior and exterior surfaces so as to have interior and exterior sides, the arrangement comprising:
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an energy source disposed on the interior side of the windshield, for producing a radiant energy, a first portion of the radiant energy being directed toward the interior surface of the windshield and a second portion, corresponding to a portion of the first portion, being reflected in a direction away from the windshield, said energy source having a time varying characteristic whereby a predetermined characteristic of the radiant energy varies over time; a first sensor disposed on the interior side of the windshield and having a first sensor input for receiving the second portion of the radiant energy;
said first sensor further having a sensor output for producing a first sensor output electrical signal responsive to the radiant energy received at the first sensor input;a second sensor disposed on the interior side of the windshield and having a second sensor input for receiving a third portion of the radiant energy produced by said energy source, said second sensor having a sensor output for producing a second sensor output electrical signal responsive to the third portion of the radiant energy received at the second sensor input; and a processor for receiving information responsive to the first and second sensor output electrical signals, and an output for producing a control signal, the control signal being responsive to a first information component in said first sensor output electrical signal responsive to the presence of water droplets on the exterior surface of the windshield, a second information component in said first sensor output electrical signal responsive to the time-varying characteristic of said energy source, and a third information component derived from said second sensor output electrical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An arrangement for producing a control signal in response to the presence of liquid droplets on a translucent material having first and second surfaces on respective first and second sides of the translucent material, the arrangement comprising:
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first energy source disposed on the first side of the translucent material for producing a first radiant energy and directing same toward at least a portion of the first surface of the translucent material, a first portion of the first radiant energy being reflected by the translucent material, and a second portion of the first radiant energy being scattered by the water droplets on the translucent material; second energy source disposed on the first side of the translucent material for producing a second radiant energy and directing same toward at least a portion of the first surface of the translucent material, a first portion of the second radiant energy being reflected by the translucent material, and a second portion of the second radiant energy being scattered by the water droplets on the translucent material; a cyclical driver coupled to said first and second energy sources for causing said first energy source to produce the first radiant energy during a first portion of a cycle and for causing said second energy source to produce the second radiant energy during a second portion of a cycle; and a first sensor having a first sensor input for receiving an ambient light, a received portion of the second portion of the first radiant energy from said first energy source, the first portion of the first radiant energy being excluded from said first sensor and the second portion of the radiant energy having an amplitude that is responsive to the water droplets on the translucent material, and received portions of the first and second portions of the second radiant energy, said first sensor further having a first sensor output for producing a first sensor output electrical signal responsive to light received at the first sensor input. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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21. A method of producing a signal responsive to droplets of a liquid on a surface of a translucent material, the translucent material having first and second surfaces on first and second sides thereof, the method comprising the steps of:
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first illuminating the first surface of the translucent material from the first side thereof with a first cyclically varying light which is in an illuminated state for a first portion of a cycle and dark for a second portion of the cycle, the first cyclically varying light having a first portion directed along a first reflection path to a light sensor, and a second portion that is not directed along the first reflection path; second illuminating the first surface of the translucent material from the first side thereof with a second cyclically varying light which is in an illuminated state for the second portion of the cycle and dark for the first portion of the cycle, the second cyclically varying light having a first portion directed along a second reflection path to a light sensor, and a second portion that is not directed along the second reflection path; first excluding from impinging on a light sensor the first portion of the first cyclically varying light; receiving at the light sensor a portion of the second portion of the first cyclically varying light that is scattered by the droplets of the liquid on the translucent material; receiving at the light sensor an ambient light; receiving at the light sensor a reflected portion of the first portion of the second cyclically varying light; and producing at an electrical output of the light sensor a sensor signal corresponding to the light received by the light sensor. - View Dependent Claims (22)
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23. A method of producing a signal responsive to droplets of a liquid on a surface of a translucent material, the translucent material having first and second surfaces on first and second sides thereof, the method comprising the steps of:
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first illuminating the first surface of the translucent material from the first side thereof with a first cyclically varying light which is in an illuminated state for a first portion of a cycle and dark for a second portion of the cycle, the first cyclically varying light having first and second light portions, the first light portion being directed along a first reflection path configured to avoid impinging upon a first light sensor; receiving at the first light sensor a portion of the second light portion of the first cyclically varying light that is scattered by the droplets of the liquid on the translucent material; receiving at the first light sensor an ambient light; producing at an electrical output of the first light sensor a first sensor signal corresponding to the light received by the first light sensor; receiving at a second light sensor a further portion of the second light portion of the first cyclically varying light; producing at an electrical output of the second light sensor a second sensor signal corresponding to the light received by the second light sensor; and correcting a first information content in the first sensor signal with a second information content in the second sensor signal. - View Dependent Claims (24, 25, 26, 27)
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28. A method of producing a plurality of signals, each responsive to a predetermined environmental condition of a vehicle of the type having a windshield having interior and exterior surfaces on respective interior and exterior sides thereof, the method comprising the steps of:
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energizing a first source of illumination whereby a first electromagnetic energy is directed from the interior side of the windshield toward the interior surface of the windshield, the first electromagnetic energy being in the form of a cyclically varying light that is emitted while the first source of illumination is in an illuminated state for a first portion of a cycle, the first electromagnetic energy not being emitted while the source of illumination is dark during a second portion of the cycle; energizing a second source of illumination whereby a second electromagnetic energy is directed from the interior side of the windshield toward the interior surface of the windshield, the second electromagnetic energy being in the form of a cyclically varying light that is emitted while the second source of illumination is in an illuminated state for the second portion of a cycle, the second electromagnetic energy not being emitted while the source of illumination is dark during the first portion of the cycle; receiving at a light sensor an ambient light, a portion of the first cyclically varying light that has been scattered in response to the environmental condition at the interior surface or exterior surface of the windshield, a portion of the second cyclically varying light that has been reflected by the windshield, and a portion of the second cyclically varying light that has been scattered in response to the environmental condition at the interior surface or exterior surface of the windshield; producing at an electrical output of the light sensor a sensor signal corresponding to the light received by the light sensor; and producing a control signal. - View Dependent Claims (29, 30, 31, 32)
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Specification