KR830000754Y1 - Screen automatic adjustment device of television receiver - Google Patents

Abstract

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Description

Screen automatic adjustment device of television receiver

1 is a circuit diagram showing an example of a color television receiver with an inventive circuit.

2 is a principle circuit diagram of the present invention.

3 is a circuit diagram showing an embodiment of the present invention.

The present invention relates to a screen automatic adjustment device of a color television receiver to automatically adjust the state of the screen according to the ambient light of the receiver.

Background Art A device that automatically adjusts the brightness, contrast, and color saturation of a screen in accordance with ambient light of a receiver has conventionally been known to use an AGC circuit of an intermediate frequency amplifier circuit. This device changes the gain of the intermediate frequency amplifier circuit by changing the impedance of the photoelectric conversion element according to the ambient light and changing the AGC voltage according to the change of the impedance, thereby adjusting the contrast and color saturation of the screen. have. The photoelectric conversion element is connected to a variable resistor for brightness adjustment provided in an image amplifying circuit, so that automatic brightness adjustment is performed. However, the method using the AGC circuit has the following drawbacks. The photoelectric conversion element is connected between the input side of the AGC circuit and the image amplification circuit, but an image signal is applied to the input side by the image detection circuit. Therefore, the video signal is also applied to the spectral conversion element, and therefore various restrictions are imposed on the circuit configuration. The photoelectric conversion element needs to be disposed at a position far from the front panel of the receiver, that is, the internal circuit. Therefore, the photoelectric conversion element and the internal circuit must be connected using a long lead wire. Due to this external noise

The present invention raises the above drawbacks by performing all adjustments in a direct current manner, and an embodiment of the present invention will be described below with reference to the drawings.

1 shows a circuit diagram of a general color television receiver, and (1) shows an antenna. (2) high frequency amplifier circuit, (3) audio circuit, (4) speaker, (5) video detection circuit, (6) video amplifier circuit, (7) sync separation circuit, (8) deflection Circuit (9) is a large vision circuit, (10) is a high-voltage rectifier circuit, (11) is a band amplification circuit, (12) is a color demodulation circuit, (13) is a matrix circuit, (14) is a pedestal colamp ( pedestalclamp circuit, 15 is a water pipe. Reference numeral 16 denotes an adjustment circuit for automatically adjusting the screen according to the present invention, and the output direct current control voltages V _C1 and V _{C2 are applied} to the image amplifier circuit 6 and the band amplifier circuit 11.

By the conventionally known method using the DC control voltages V _C1 and V _C2 , the level and gain control is performed in the video amplifier circuit 6 to adjust the brightness and contrast, and the gain is controlled in the band amplifier 11. Color saturation is adjusted.

2 is a principle circuit diagram of the present invention, in which (17) is cds photoelectric conversion elements R ₁ , R ₂ is split resistance, T ₁ is control transistor R ₃ is screen resistance volume resistance, (18) is correction circuit, (19 ) Is the power terminal and L is the light.

According to the illuminance of the main far-infrared light L, when the resistance value of cds changes, the voltage change is applied to the base of the transistor T ₁ through the resistors R ₁ and R ₂ . Collector voltage of the point A change in the drawing by this, the voltage change is applied to the correction circuit through a resistance R _3.

In this correction circuit 18, DC control voltages V _C1 and V _C2 divided at appropriate ratios are obtained and applied to the video amplifier circuit 6 and the band amplifier circuit 11, respectively. This makes it possible to automatically adjust the brightness, contrast and color saturation of the screen. In this case, the black level of the video amplifier circuit 6 is not changed by the pedestal clamp circuit 14. As apparent from the above description, the present invention uses the DC voltage change at point A in FIG. 2 as a reference level and divides it to obtain DC control voltages V _C1 and V _C2 .

Figure 3 shows an embodiment of the present invention, the same reference numerals are attached to the same parts as the first and second views. Resistors R ₁ , R ₂ . R ₁₀ is a voltage divider for obtaining the required voltage, R ₃ is a volume resistor for sensitivity adjustment, R _S is a thermistor for compensation of temperature characteristics, and C is a capacitor installed to prevent the circuit from operating against sudden changes in external light. to be. 20 is a high voltage power supply terminal, and a voltage of high voltage (about 180V) is applied to the power supply (about 18V) of the terminal 19. Despite its high voltage resistance R _9, R _10, such as the internal impedance thiooxidans of the T ₁ hameuroseo to transistor transistor T ₁ fire average handedo through, and always give the upper limit of the DC voltage change (上限) (approximately 18V) to the point A Doing.

D is a protective diode.

According to the above configuration, the DC voltage at point A can be changed in the range of approximately 0 to 18V, and the divided voltages R ₁₁ , R ₁₂ ... … By dividing the voltage at a predetermined ratio by R ₂₀ , the DC voltage V _C1 and V _C2 , for example, when ambient light becomes dark, the voltage level of A decreases, the screen is darkened, and the color saturation is lowered. The operation is made.

As described above, the present invention provides a resistor (e.g., resistor R ₃ ) and an active element (e.g., between a DC power supply terminal (e.g., terminal 19) and a reference potential terminal (e.g., ground). The other end of the photoelectric conversion element (e.g. cds) to which a DC voltage is applied at one end thereof is connected to the control electrode (e.g. base) of the active element while connecting the series circuit with the transistor T ₁ ). From the output electrode (eg collector) of the device, obtain a DC voltage of the level according to the brightness of ambient light, and divide the DC voltage to control the first and second direct currents.

Therefore, according to the present invention, since only a direct current voltage is applied to the photoelectric conversion element, even if the photoelectric conversion element and the internal circuit of the receiver are connected using a long lead wire, the stray capacitance is not affected. In addition, even if a shield wire is used, its capacity does not affect the circuit operation. Regarding the connection noise, the noise can be removed by a simple method, for example, by providing an AC bypass capacitor at one end of the inner circuit side of the lead wire. In addition, since the plurality of controlled circuits are all controlled by a DC voltage, common control for changing contrast, color saturation, and luminance at the same rate can be easily performed, and there is no interference between the controlled circuits. Moreover, these control operations do not affect the S / N of the screen. In addition, since the voltage change in the photoelectric conversion element is amplified by a transistor or the like, the sensitivity is extremely good. The interlocking and linearity control can be performed over a wide range of ambient light illuminance. In addition, since the additional circuit according to the present invention can be added with almost no change to the conventional television circuit, it is possible to obtain an effect such that it can be provided inexpensively.

Claims (1)

The series circuit between the resistor and the active element is connected between the DC power supply terminal and the reference potential terminal, and the other end of the photoelectric conversion element to which the DC voltage is applied at one end is connected to the control electrode of the active element. Obtain a DC voltage at a level corresponding to the brightness of ambient light at the output electrode of the device, divide the DC voltage to obtain first and second DC control voltages, and apply the first DC control voltage to the image amplifier circuit; And simultaneously applying the second DC control voltage to a band amplifying circuit so that at least the contrast and color saturation of the screen are automatically adjusted in accordance with the brightness of the ambient external light.