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Rainfall sensor and control method

A technology of rain sensor and control signal, which is applied in the field of rain sensor and control, can solve the problems of difficult calculation of raindrop size, inability to judge by microprocessor, increase of production cost, etc., and achieve the effect of avoiding the change of standard value

Active Publication Date: 2012-03-07
SHANGHAI YINGHENG ELECTRONICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] First: Because there is a difference in the optical path lens of the rain sensor between different rain sensors of the same model, and there is a difference in the light reflectivity of the front windshield of the car between different car glasses of the same model, so that even In the same situation where no raindrops are attached, the reflected luminous flux obtained by the light sensor is also different, and finally the analog signal value obtained by the microprocessor is also different.
Therefore, after the rain sensor is installed on the car, it must pass the detection equipment so that the rain sensor can learn the value of the analog signal given by the receiver without raindrops attached. This process is carried out by the car factory or 4S shop. The process of "calibrating the initial value of the sensor" will increase the workload of the car factory or 4S shop, that is, increase the production cost
[0006] Second: When the rain sensor has been used for a certain period of time, because the components of the transmitter and receiver are aging, so that there are no raindrops attached to the reflection area of ​​the front windshield, the output value of the receiver collected by the microprocessor, It will also be different from the initial value of the calibrated sensor, which will eventually lead to the "sensor initial value calibration" after the rain sensor has been working for a certain period of time. This process increases the workload and labor costs of the 4S shop.
Therefore, after working continuously for a period of time, the microprocessor cannot determine whether the change in the analog output of the receiver is caused by the change of the ambient temperature or the raindrops attached to the reflective area of ​​the front windshield.
Finally, it is difficult for the microprocessor (MCU) to calculate the accurate raindrop size, and then it is difficult to determine the appropriate wiper speed

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] see figure 2 , The rain sensor of the present invention at least includes: a light emitting element, a controlled power regulation circuit, a photoelectric conversion circuit, and a control unit.

[0026] The light-emitting element is arranged relative to the windshield of the vehicle so that the emitted light can be incident on the windshield, and it can be an LED light emitter, such as image 3 LD1 shown.

[0027] The controlled power adjustment circuit is connected to the light-emitting element for controlling the luminous intensity of the light-emitting element, which may be a circuit composed of multiple resistors and controlled switches in series, wherein the controlled switches in each circuit are controlled by The control unit is controlled by a power control signal. Such as image 3As shown, the controlled power regulating circuit includes three circuits, namely, a series circuit of resistor R1 and transistor Q1 as a switch, a series circuit of resistor R2 ...

Embodiment 2

[0035] See Figure 4 ,

[0036] The rain sensor of the present invention includes: a transmitter, a light receiving element, a controlled photoelectric conversion circuit, a control unit and the like.

[0037] The emitter is arranged relative to the windshield of the vehicle so that the emitted light can be incident on the windshield. It can be made of LED light-emitting tubes and resistors, or other light-emitting devices, and will not give examples one by one here. .

[0038] The light receiving element is used to receive the light signal reflected back through the windshield, which can adopt a light sensor, such as Figure 5 LD2 shown.

[0039] The controlled photoelectric conversion circuit is connected to the light-receiving element, and can convert the light signal received by the light-receiving element into electrical signals of different amplitudes, which may include multiple amplification circuits with different amplification factors, and the receiving amplitude ...

Embodiment 3

[0046] See Image 6 , The rain sensor of the present invention includes: a light-emitting element, a controlled power regulation circuit, a light-receiving element, a controlled photoelectric conversion circuit, and a control unit.

[0047] The light-emitting element is arranged relative to the windshield of the vehicle so that the emitted light can be incident on the windshield, and LED lights can be used.

[0048] The controlled power adjustment circuit is connected with the light emitting element for controlling the luminous intensity of the light emitting element, which can adopt image 3 The circuit shown will not be described in detail here.

[0049] The light-receiving element is used to receive the light signal reflected back through the windshield, and a light-receiving tube may be used.

[0050] The controlled photoelectric conversion circuit is connected with the light receiving element, and can convert the received optical signal into electrical signals of differen...

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PUM

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Abstract

The invention provides a rainfall sensor and a control method. The control method comprises the following steps that: when a power supply of a system is switched on, the light emitted by a light-emitting element, after reflected by a windscreen of a vehicle, is received by a receiving element and then is converted into an electrical signal through a photoelectric conversion circuit; a control unit performs analog-to-digital conversion on the electrical signal acquired at the first time to acquire the corresponding digital signal, judges whether the digital signal is in the preset reference range or not to determine whether to transmit the corresponding control signal to one or both of the controlled photoelectric conversion circuit and a controlled power adjusting circuit or not so as to determine a standard value; the control unit compares the acquired digital signal with the standard value to determine to perform fine adjustment on the standard value or to send out a control signal for adjusting a windscreen wiper; and when the standard value after the fine adjustment excesses the preset reference range, the control unit transmits a power control signal to the controlled power adjusting circuit again, so that the standard value can be corrected at any time according to the actual condition and a manual calibrating process is saved.

Description

technical field [0001] The invention relates to a rain sensor and a control method. Background technique [0002] In the process of driving a vehicle in rainy days, the driver often needs to manually adjust the running speed of the wiper according to the current amount of rain, so it is easy to cause traffic accidents due to reduced attention to road conditions. In order to avoid this situation, in modern automotive electronic systems, rain sensors are often used to collect rainfall signals, and based on this, calculate and determine the current appropriate wiper speed gear, and communicate with the wiper actuator through CAN or LIN bus. Communication, so that the wiper actuator can automatically adjust the wiper speed output according to the amount of rain, so that the driver can concentrate on driving the vehicle. For example, the Chinese patent document with application number: 200620076000 provides a car wiper control device . [0003] Commonly used rain sensor such as...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B60S1/08G05B11/01
Inventor 邵庞陈长艺韩伟康兵
Owner SHANGHAI YINGHENG ELECTRONICS