RU2063644C1 - Device to control automobile rear view electrochromic mirror - Google Patents

Abstract

FIELD: road transport. SUBSTANCE: rear view mirror control device has operating and reference photodetectors unit, comparator unit, switch-on unit and DC voltage converter made in form of pulse voltage stabilizer. Introduced additionally is special module to reduce mirror darkening time and used is voltage stabilizer positive starting element. EFFECT: reduced power consumption for operation of electrochromic mirror. 3 dwg, 1 tbl

Description

 The invention relates to structural elements of electro-optical converters, specifically to devices for automatic control of an electrochromic car rearview mirror. Such electrically controlled dimming mirrors will protect the driver’s eyes in the dark from the blinding effects of headlights from behind the vehicle. These mirrors are installed instead of conventional mirrors with manually controlled mechanical correction of the angle of reflection of the incident light.

 US Pat. No. 4,917,477 discloses electrochromic control schemes for an electrochromic car rearview mirror containing photosensitive elements, a comparison unit, a voltage converter, and a power-on unit. The voltage converter in these circuits is made in the form of a circuit of a powerful quenching resistor and a transistor switch. Due to the fact that the voltage applied to the working element of the mirror is less than 10% of the voltage level of the vehicle electrical system, most of the power consumed by the circuit is dissipated in the form of heat on the elements of this circuit. This leads to the use in the circuit of a powerful (10 W) quenching resistor of the appropriate dimensions and causes additional heating of the surrounding elements. When turned on, a fixed voltage level is applied to the working element of the mirror, which corresponds to a certain time of its dimming.

 The aim of the invention is to provide a device for automatic control of an electrochromic car mirror with less power consumption, providing a shorter mirror dimming time.

 These goals are achieved by using a pulse voltage stabilizer as a voltage converter in the device and by the presence of an additional boosted start-up element, a voltage regulator for the working element of the mirror.

 A significant difference of the improved solution is that the voltage converter, made in the form of a pulsed voltage regulator of the working element of the mirror, has a much higher efficiency (80%) compared with the prototype (less than 10%), and in combination with the forced power supply the working element of the mirror provides the supply at the initial moment of increased amplitude of the voltage pulse (see Fig. 1).

 The use of forced switching reduces the time of dimming the mirror by 2-3 times.

 The electrical circuit (Fig. 2) of the electronic control unit for an electrochromic car rear-view mirror consists of a photodetector system, a comparison unit, a voltage converter and a power-on unit, a fixed-on body, a power-off unit, a power-on indicator and a power source (see block diagram of Fig. 3).

 When illuminating the working sensitive element R2 of the photodetector system, its resistance and voltage removed from the divider R1-R2 decreases. When the threshold voltage value set by the trimmer resistor R4 is reached, the voltage at the output of the operational amplifier (YES1) of the comparison unit switches from high to low. In this case, the transistor VT1 of the switching unit is closed and turns on the pulse stabilizer of the DC voltage converter. The stabilization voltage is set by resistor R16. In the stabilizer circuit, an accelerated inclusion organ (R17, 18, 19, C5, VT7) is introduced, which operates as follows. When voltage appears at the output of the stabilizer, the VT7 transistor opens, which increases the stabilization voltage by a factor of 2 by charging the capacitor C5 (≈ 0.5 sec) by connecting a resistor R17 to the lower arm of the divider R15, 16. After charging the capacitance (C5), the transistor VT7 closes, the operating voltage is set at the output of the stabilizer (≈ 1B). The circuit is operational in normal mode with the exception of this body.

 With a decrease in the intensity of the blinding light stream below the threshold or its complete disappearance, a high voltage level appears at the output of the operational divider ДА1 of the comparison unit and the transistors VT1 of the switching unit and VT6 of the switching unit open. An open transistor VT1 includes a voltage stabilizer, and transistor VT6 shunts the working element of the mirror, causing its enlightenment.

 The indicator for turning on the stabilizer R14, VD3 works from the pulse voltage taken from the inductance L1. Thus, the VD3 LED emits only during operation of the key stabilizer.

 Power circuits consist of an input blocking capacitance C1, which protects external circuits from the penetration of impulse noise of the voltage stabilizer and parametric stabilizer R6; VD1 supply voltage of the comparison unit and the photodetector system.

 The working element of the mirror has an electrochromic composition, including a solvent and two compounds forming reversible redox systems (ed. Certificate of the USSR N972815 and US Pat N4,902,108). The kinetics of the dimming process and the bleaching of devices with such processes are determined by the diffusion rate of the components of the composition (I. V. Shelepin, O. A. Ushakov, N. I. Karpova, V. A. Barachevsky. Electrochemistry, 13,404.1977).

 When using such a working element of an electrochromic mirror, consuming a current of about 100 mA at a voltage of 1 V, the voltage converter consumes a current of about 20 mA at a power supply voltage of 12V. Power consumption will be no more than 0.25 watts. The circuit of the prototype voltage converter when using a working element with the same parameters will consume power of about 1.2 watts. Thus, the power consumption of the proposed voltage Converter will be approximately five times less compared with the corresponding power of the prototype.

When applying to the working element of the mirror a fixed voltage level of 1 V, complete dimming of the surface with an attenuation coefficient of 6 is achieved within 6 ^o C7 s. The use of the formed inclusion reduces the dimming time by 2 ^° C3 times (see table 1).

Thus, the proposed circuit of the electronic unit for automatic control of an electrochromic car rear-view mirror allows to reduce power consumption by 5 times compared with the known solution, thereby improving the overall thermal characteristics of the unit. In addition, the organ forcing the start of the unit allows to reduce the time of dimming of the mirror by 2 ^o C3 times.

 The proposed control unit for an electrochromic mirror provides not only reduced power consumption, but also makes the mirror faster. TTT1 YYY2

Claims (1)

 A device for controlling an electrochromic automobile rear-view mirror, comprising a DC voltage converter, the input of which is connected to the output of the power source, and the output to the electrical input of the mirror, a comparison unit, the inputs of which are connected to the outputs of the working and reference photodetector unit, and the output to the input of the power unit voltage converter, characterized in that the voltage converter is made in the form of a pulse voltage stabilizer, equipped with an accelerated start.

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