Raindrop detection apparatus and method
First Claim
1. A raindrop detection apparatus comprising:
- a light emitting device which emits light toward a windshield where a raindrop may be present;
a light emitting device driving section supplying a power to the light emitting device;
a photoreceptor which receives reflected light from the windshield, emitted from the light emitting device;
an amplifying section amplifying a signal from the photoreceptor; and
a control section detecting an amount of the raindrop on the windshield based on an output from the amplifying section as well as controlling operations of the light emitting device driving section and the amplifying section;
wherein the control section includes;
a first adjustment means which adjusts the output from the amplifying section to a predetermined target value by varying amplifying gains of the amplifying section, and a second adjustment means which adjusts the output to the target value by varying a power supplied from the light emitting device driving section to the light emitting device after the adjustment by the first adjustment means; and
wherein the output adjustments performed by the first and the second adjustment means are programmed to execute output adjustment operations under a condition in which no raindrop or foreign substance is present on the windshield, the condition in which no raindrop or foreign substance is present on the windshield being created by mandatorily wiping the windshield.
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Accused Products
Abstract
A raindrop detection apparatus has an amplifier circuit, including a plurality of resistors and resistor selection switches. The control circuit performs the first adjustment to an output of the amplifier circuit, roughly adjusting the output to a target value. The first adjustment is made by selecting one of or a combination of resistors. The control circuit then performs the second adjustment to the output, closely adjusting the output to the target value. The second adjustment is made by adjusting a driving instruction signal, which actually adjusts a light emitting device driving current. These adjustments are performed after an IG switch and an AUTO mode switch of a wiper switch are turned on.
11 Citations
13 Claims
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1. A raindrop detection apparatus comprising:
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a light emitting device which emits light toward a windshield where a raindrop may be present;
a light emitting device driving section supplying a power to the light emitting device;
a photoreceptor which receives reflected light from the windshield, emitted from the light emitting device;
an amplifying section amplifying a signal from the photoreceptor; and
a control section detecting an amount of the raindrop on the windshield based on an output from the amplifying section as well as controlling operations of the light emitting device driving section and the amplifying section;
wherein the control section includes;
a first adjustment means which adjusts the output from the amplifying section to a predetermined target value by varying amplifying gains of the amplifying section, and a second adjustment means which adjusts the output to the target value by varying a power supplied from the light emitting device driving section to the light emitting device after the adjustment by the first adjustment means; and
wherein the output adjustments performed by the first and the second adjustment means are programmed to execute output adjustment operations under a condition in which no raindrop or foreign substance is present on the windshield, the condition in which no raindrop or foreign substance is present on the windshield being created by mandatorily wiping the windshield. - View Dependent Claims (2, 3, 4)
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5. A raindrop detection method comprising:
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setting up a target value indicative of no raindrop or foreign substance on a windshield, the target value being set up after the windshield is mandatorily wiped so that no raindrop or foreign substance is on the windshield;
changing amplifying gains of an amplifying section where a signal from the photoreceptor is amplified so that an output from the amplifying section becomes close to the target value; and
changing a power supply to the light emitting device so that the output from the amplifying section becomes still closer to the predetermined target value. - View Dependent Claims (6, 7, 8)
comparing the output from the amplifying section with the target value;
storing data relating to a selected one of or a combination of resistive components in memory if the output matches the target value;
reselecting one of or a combination of resistive components if the output does not match the target value;
storing data relating to one of or a combination of resistive components at the time when the output becomes closest to the predetermined target value.
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7. A raindrop detection method as in claim 5, further comprising performing a raindrop detection process based on the amplifying gain and the power supply determined in changing the amplifying gains of the amplifying section and changing the power supply to the light emitting device after powers are supplied to a light emitting device driving section and the amplifying section.
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8. A raindrop detection method as in claim 5, wherein changing the amplifying gain includes changing the amplifying gain in steps.
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9. A raindrop detection method for a wiper system mounted on a vehicle having an ignition switch and a windshield, the wiper system including a raindrop sensor, a wiper and a wiper driving unit which is automatically operable in response to an output of the raindrop sensor that detects raindrops, the method comprising:
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mandatorily operating the wiper driving unit in response to each turn-on of the ignition switch thereby to wipe the windshield irrespective of the output of the raindrop sensor when the wiper driving unit is in a state of readiness to automatically operate the wiper;
adjusting the output of the raindrop sensor to a predetermined target value following mandatorily operating the wiper driving unit; and
automatically operating the wiper driving unit in response to the output of the raindrop sensor indicative of raindrops after the adjustment of the output of the raindrop sensor is completed. - View Dependent Claims (10, 11)
the wiper system includes a wiper motor and a wiper switch for setting operation modes of the wiper driving unit including the automatic operation mode, and mandatorily operating the wiper further includes: determining whether the wiper switch is set to the automatic operation mode; and
operating the wiper driving unit until the wiper motor is rotated to wipe the windshield a predetermined number of times when the automatic operation mode of the wiper switch is determined.
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11. A raindrop detection method as in claim 9, wherein
the raindrop sensor includes a light emitting device, a light emitting device driving circuit, a photoreceptor and an amplifier circuit, and adjusting the output of the raindrop sensor further includes: -
adjusting an output of the amplifier circuit that receives an input from the photoreceptor until the output becomes close to the predetermined target value by varying amplifying gains of the amplifier circuit; and
adjusting the adjusted output still closer to the predetermined target value by varying power supplied from the light emitting device driving circuit to the light emitting device.
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12. A raindrop detection apparatus comprising:
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a light emitting device which emits light toward an object where a raindrop may be present;
a light emitting device driving section supplying a power to the light emitting device;
a photoreceptor which receives reflected light from the object, emitted from the light emitting device;
an amplifying section amplifying a signal from the photoreceptor; and
a control section detecting an amount of the raindrop on the object based on an output from the amplifying section as well as controlling operations of the light emitting device driving section and the amplifying section, wherein the control section includes;
a rough adjustment means which adjusts the output from the amplifying section to a first value which is at least close to a predetermined target value by varying amplifying gains of the amplifying section, and a fine adjustment means which adjusts the output to a second value which is closer than the first value to the target value by varying a power supplied from the light emitting device driving section to the light emitting device after the adjustment by the rough adjustment means. - View Dependent Claims (13)
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Specification