KR920004436Y1 - Sharpness control circuit of vtr - Google Patents

Abstract

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Description

Video screen sharpness adjustment circuit

1 is a circuit diagram of one embodiment of the present invention.

2 is a high pass filter output waveform diagram of the present invention.

* Explanation of symbols for main parts of the drawings

DESCRIPTION OF SYMBOLS 1 Light-quantity detection element 2 Comparator

3: voltage divider 4: electronic switch

5, 6, 7: high pass filter 8: low pass filter

9: mixer 10: sharpness adjustment switch

OP ₁ , OP ₂ , OP ₃ : Comparator

The present invention relates to an image processing circuit for displaying a video signal, and to a sharpness adjustment circuit of a video screen to be adjusted to the most suitable picture quality according to the amount of ambient light.

In the conventional VTR, when playing and displaying a video tape, the screen is always reproduced while maintaining a constant sharpness regardless of the brightness of the surroundings. In this dark place, too sharpness was emphasized, increasing eye fatigue.

In other words, the sharpness of the screen could not be adjusted according to the brightness and darkness of the screen, and the constant sharpness was maintained.

In view of the above, the present invention allows the sharpness of the screen to be appropriately adjusted according to the surrounding contrast, so that the user can watch a high quality screen by maintaining the sharpness of the most suitable state even when the surrounding brightness changes. will be.

That is, the present invention provides a light quantity detecting means for detecting a voltage according to ambient brightness, a comparison means for comparing the voltage detected by the light quantity detecting means with a reference voltage, and a voltage detection for determining the magnitude of the output voltage of the comparing means. Means and a switching element for selecting the driving of the sharpness control circuit by the voltage detecting means, wherein the sharpness control circuit is adapted to pass the high pass filter of the different time constants and the low pass portion of the video signal passing through the trade portion of the video signal. The output of the low pass filter passed through is synthesized in the mixer and configured to be output.

This invention is described in detail based on the circuit diagram of one embodiment of the accompanying drawings.

A light quantity detection element 1 for controlling a current flowing by detecting an amount of ambient light, a reference voltage (Vref ₁ > Vref ₂ > Vref ₃ ) and a comparator (OP) having differently set light quantity detection voltages of the light quantity detection element 1; ₁₎ (OP ₂₎ (comparison unit (2), the comparator (OP ₁₎ (OP ₂₎ (inverter (Q ₁₎ for selecting and outputting either one of cheulryeok of OP ₃₎ for comparison in the OP ₃₎ ( Q ₂ ) (Q ₃ ) and the voltage divided by the output voltage of the comparator 2 divided by the resistor (R ₆ -R ₁₁ ) and then output through the diode (D ₁ ) (D ₂ ) (D ₃ ) An electronic switch 4 whose switching operation is controlled according to the distribution 3, the output voltage of the voltage divider 3, and a low pass filter 5 selected by the electronic switch 4 and set with different time constants. 6), and a mixer 9 for mixing the signal passing through the electronic switch 4 and the signal passing through the low pass filter 8, and the voltage divider 3 and the electronic switch ( 4) Company There will be configured sharpness adjustment switch 10 is connected.

At this time, according to the resistance (R ₆ -R ₁₁ ) of the voltage divider (3) (R ₆ 《R ₇ , R ₈ ≒ R ₉ , R ₁₀ 》 R ₁₁ ) Output voltage (V ₁ ) (V ₂ ) (V The criterion of ₃ ) is determined (V ₁ > V ₂ > V ₃ ) and the switching operation of the electronic switch 4 is controlled according to this voltage V ₁ (V ₂ ) (V ₃ ).

The high pass filters 5, 6 and 7, which pass only the high range of the video signal, are configured to maintain different clarity by adjusting the circuit time constant.

In the present invention having such a configuration, first, the light quantity detecting element 1 changes in the flow of current I according to the amount of light incident thereon, and at this time, the resistor R ₁ takes a voltage of V = R ₁ % I.

That is, the voltage V applied to the resistor R ₁ becomes large when the current I of the light quantity detecting element 1 flows a lot, and when the current I flows because the surroundings are dark, the voltage V gradually decreases.

According to the amount of light, the voltage V changes the reference voltages Vref ₁ , Vref ₂ , and Vref ₃ to the non-inverting terminals (-) of the comparators OP ₁ , OP ₂ , and OP ₃ of the comparator ₂ , respectively. Is applied and the relationship is Vref ₁ > Vref ₂ > Vref ₃ .

At this time, the reference voltage Vref ₁ is Is set by the reference voltage Vref ₂ Reference voltage Is set.

Therefore, when the voltage V is applied larger than the reference voltage Vref ₁ , the outputs of the comparators OP ₁ , OP ₂ , and OP ₃ are all high-level output, but the high level output of the comparator OP ₁ is the inverter Q. ₁ ) After being inverted to the low level through Q ₃ , it is applied to the output side of the comparator OP ₂ (OP ₃ ), so when the voltage V is greater than the reference voltage Vref ₁ , only the output of the comparator OP ₁ is high. Will be output as a level.

The high level output of the comparator OP ₁ is applied to the resistors R ₆ and R ₇ to be distributed, but the voltage V ₁ through the diode D ₁ is equal to the electronic switch 4 according to the relationship R ₆ ″ R ₇ . ) Is applied at a high level voltage.

When the voltage V is greater than the reference voltage Vref ₂ and smaller than the reference voltage Vref ₁ (Vref ₁ 〉 V> Vref ₂ ), the output of the comparator OP ₁ goes low and the comparator OP ₂ (OP ₃ ) the output becomes high level, but the high level output of comparator OP ₂ is inverted through inverter Q ₂ and then applied to the output side of comparator OP ₃ so that V is greater than reference voltage Vref ₂ . When the voltage is lower than the reference voltage Vref ₁ , only the output of the comparator OP ₂ is output at a high level.

The high level output of the comparator OP ₂ is applied to the resistors R ₈ and R ₉ to be distributed, but the voltage V ₂ through the diode D ₂ is dependent on the relationship of R ₈ ≒ R ₉ . ) Is applied as a middle voltage.

In addition, when the voltage V is greater than the reference voltage Vref ₃ and less than the reference voltage Vref ₂ (Vref ₂ 〉 V> Vref ₃ ), the output of the comparator OP ₁ (OP ₂ ) becomes low level and the comparator OP The output of ₃ ) becomes high level and the high level output of this comparator OP ₃ is applied to the resistor R ₁₀ (R ₁₁ ) to be distributed, but the diode D ₃ is connected by the relationship of R ₁₀ 》 R ₁₁ . The voltage V ₃ is applied to the electronic switch 4 as a low level voltage.

That is, the light quantity detection voltage V detected by the light quantity detecting element 1 is changed according to the amount of ambient light, which is compared with the reference voltage in the comparator 2 and outputted, and the output of the comparator 2 is a voltage divider ( 3) The different voltage is applied to the electronic switch 4 through 3). Therefore, when the amount of light is incident to the electronic switch 4, a high level is applied. If a medium amount of light is incident, a middle voltage is applied. When incident, the low level is applied.

At this time, the electronic switch 4 is connected to the L terminal when the low level is applied, is connected to the M terminal when the middle voltage is applied, and is connected to the H terminal when the high level is applied.

The video signal as shown in FIG. 2A is applied to the high pass filter (5) (6) (7) so that only the high pass is passed, but at this time, the circuit time constant of the high pass filter is different from the high pass filter (5) ( 6) A signal waveform as shown in Figs. 2b, c, and d is output to the output side of (7).

Therefore, in the electronic switch 4, a signal waveform such as (B) (C) (D) of FIG. One of the spheres is selected and applied to the mixer 9, and the video signal of the low pass component which has passed through the low pass filter 8 is applied to the mixer 9.

For example, when a large amount of light is incident, the voltage V of the light quantity detecting element 1 becomes higher than the reference voltage Vref ₁ , so that the output of the comparator OP ₁ becomes a high level, which is applied to the voltage divider 3. After passing through the resistor (R ₃ ) (R ₇ ) and the diode (D ₁ ) is applied to the electronic switch (4) with a high level voltage, the electronic switch (4) according to the high level voltage of the voltage divider (3) The high pass signal synthesized in the mixer 9 in connection with the H terminal becomes a signal as shown in FIG. 2B passing through the high pass filter 5, so that the final video signal output is further emphasized for sharpness.

Therefore, it is possible to watch a clear image in the bright surroundings.

When the surroundings are very dark, the L terminal is selected by the electronic switch 4 to apply the high pass signal to the mixer 9 as shown in FIG. You can watch.

As such, the present invention can change the sharpness of the displayed screen according to the amount of ambient light, and can automatically maintain the sharpness most suitable for viewing.

Meanwhile, in the present invention, when the sharpness control switch 10 connected between the voltage divider 3 and the electronic switch 4 is switched as shown in the drawing, the sharpness control switch 10 is automatically adjusted as described above. When turned off, the power supply Vcc is distributed to the resistors R ₁₈ and R ₁₉ to apply a middle voltage to the electronic switch 4 so as to maintain a constant form of sharpness at all times.

In other words, if you want to fix the sharpness as in the prior art, the sharpness adjustment switch 10 "off", and if you want to automatically adjust according to the amount of ambient light as in the present invention, display the sharpness adjustment switch 10 in the drawing Just connect as

As described above, the present invention allows the brightness of the screen to be automatically adjusted according to the amount of ambient light in the display of the video signal. It is effective.

Claims (4)

A sharpness adjustment circuit of a video signal, comprising: a light amount detecting element (1) for detecting an amount of incident light, a comparison means for detecting a magnitude of the voltage detected by the light amount detecting element (1) with a reference voltage; A voltage divider 3 for dividing the output of the comparison means, an electronic switch 4 switched according to the output voltage of the voltage divider 3, and an output by switching of the electronic switch 4 The sharpness of the video screen composed of the selected high pass filter (5) (6) (7) and a mixer (9) for mixing the output of the electronic switch (4) and the video signal passed through the low pass filter (8). Control circuit. The comparator ₂ according to claim 1, wherein the output voltage of the light quantity detecting element 1 is applied to a comparator OP ₁ (OP ₂ ) OP _{3 with} reference voltages set by the resistors R ₂ -R ₅ . ) And the voltage divider 3 configured to configure the comparator 2 and to distribute the output voltage of the comparator 2 to the resistors R ₆ -R ₁₁ to output to the electronic switch 4. Sharpness adjustment circuit of the video screen. The high pass filter (5) (6) (7) according to claim 1, wherein the drive is selected by the electronic switch (4), and the sharpness adjustment circuit of the video screen having different time constants for passing the high pass portion of the video signal is configured. . 2. The sharpness adjustment circuit according to claim 1, wherein a sharpness adjustment switch (10) is configured between the voltage divider (3) and the electronic switch (4) to select a sharpness adjustment method.