KR920008256Y1 - Backlight compensative mode auto-selective circuit - Google Patents

Abstract

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Description

Backlight compensation mode automatic selection circuit

1 is a backlight compensation mode selection circuit diagram of a conventional aperture.

2 is a backlight correction mode automatic selection circuit according to the present invention.

3 is an input / output waveform diagram for explaining the operation of the backlight compensation mode automatic selection circuit diagram shown in FIG.

* Explanation of symbols for main parts of the drawings

10: high luminance detection unit 20: low luminance detection unit

30: backlight compensation mode selector 40: aperture driving unit

The present invention relates to a backlight compensation mode automatic selection circuit that automatically selects a backlight compensation mode by adjusting an aperture according to a level of a brightness signal input to an image pickup tube that captures a contrast of a subject. The present invention relates to a circuit capable of automatically converting to a backlight compensation mode in a condition requiring backlight compensation by detecting and comparing the amount of a part and the amount of a dark part. In general, when the background is higher brightness than the subject to be photographed, that is, the backlight compensation is required when taking a room with a large window as a background. In this case, the backlight compensation circuit used generally has a configuration as shown in FIG.

When the backlight compensation is required in FIG. 1, the photographer adjusts the driving voltage applied to the aperture driver 1 by turning the switch SW on and off. There was a disadvantage in manually operating the switch SW.

Therefore, this paper is designed to solve the above-mentioned shortcomings and detects the amount of light and dark parts of the luminance signal captured by the image pickup tube, and automatically adjusts the iris to backlight compensation when the high brightness part is below a certain amount. It is an object to provide a mode automatic selection circuit.

In order to achieve the above object, the backlight compensation mode automatic selection circuit according to the present invention has a high luminance detecting means for detecting whether a high luminance portion of an input luminance signal is greater than or equal to a first reference value, and a low luminance portion of the input luminance signal is a second reference value. Low luminance detection means for detecting the following application; and a backlight compensation by controlling a driving state supplied by a backlight mode selection switch made by a user's selection and a logic state of signals output from the high luminance detection means and the low luminance detection means; And a backlight compensation mode selector for selecting whether a mode is required.

That is, when the user operates the switch to select the backlight compensation mode, the present invention detects the amount of the bright and dark parts of the luminance signal picked up by the image pickup tube so that the automatic backlight compensation can be determined. . Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The backlight compensation mode automatic selection circuit according to the present invention has a configuration as shown in FIG.

In FIG. 2, the high luminance detector 10 compares the level of the input luminance signal Y with a first reference voltage determined by the resistors R1 and R2, and is output from the comparator COM1. The comparator COM3 compares the level at which the signal is integrated with the second reference voltage determined by the resistors R6 and R7. The low luminance detector 20 integrates a comparator COM2 for comparing the level of the input luminance signal Y with a third reference voltage determined by the resistors R3 and R4, and integrates the signal output from the comparator COM2. A comparator COM4 for comparing one level with the fourth reference voltage determined by the resistors R9 and R10, and a fifth determined by the level and resistors R11 and R12 integrating the output signal of the comparator COM2. Comparator COM5 for comparing the reference voltage.

Backlight compensation mode selection unit 30 Backlight mode selection switch (SW), AND gate (A2) for combining the signal supplied according to the operation of the switch SW and the output signal of the AND gate (A3), and the comparator ( And an AND gate A1 for combining the output signals of COM4 and COM5, and an AND gate A3 for combining the output signal of the AND gate A1 and the output signal of the comparator COM3.

In the above configuration, each resistance value is set such that the first reference voltage ≥ the second reference voltage, the third reference voltage ≥ the fourth reference voltage, the third reference voltage <the second reference voltage, the fifth reference voltage = OV. The operation relationship of the backlight compensation mode automatic selection circuit of the embodiment having the above-described configuration will be described below.

As shown in the waveform diagram shown in FIG. 3, the backlight compensation mode automatic selection circuit according to the present invention shows a waveform in the case where backlight compensation is to be performed, and (b) requires backlight compensation. It is shown when there is no.

When a luminance signal such as (a) of FIG. 3 is supplied to the input terminal IN shown in FIG. 2, the non-inverting terminal (+) of the comparator COM1 in the high luminance detection unit 10 and the low luminance detection unit ( Supplied to the inverting terminal (-) of comparator COM2 in 20). As described above, the luminance signals supplied to the comparators COM1 and COM2 are compared with the first and third reference voltages b and c set by the resistors R1 and R2 and the resistors R3 and R4, respectively. Signals such as (d) and (h) are output.

The signals output from the comparators COM1 and COM2 become signals as shown in (e) (i) of FIG. 3 through an integrator formed of a capacitor and a resistor, respectively, and are supplied to the comparators COM3 and COM4, respectively. Compared to the second and fourth reference voltages having the same level as (j), a signal such as (g) (k) of FIG. 3 is output. In addition, a signal such as (i) of FIG. 3 integrated and output from the comparator COM2 is supplied to the comparator COM5 to be compared with a fifth reference voltage such as (1) of FIG. 3 and output.

When a luminance signal smaller than the third reference voltage set by the resistors R3 and R4 is supplied to the input terminal IN, the comparator COM4 is a high voltage signal as shown in FIG. The backlight compensating mode selector 30 is output because the comparator COM5 also outputs a "high" logic state by comparing the voltage set by the resistors R11 and R12 and the signal supplied to the non-inverting terminal (+). The AND gate A1 in the circuit supplies the signal of the "high" state to the AND gate A3, and the AND gate A3 is the "high" signal from the high luminance detection unit 10 and the low luminance detection unit 20. The signal "high" is supplied to the AND gate A2 by calculating the "high" signal. Therefore, when the photographer has turned on the backlight compensation mode selection switch SW, the signal is output as a "high" state. In conclusion, the luminance signal applied to the input terminal IN has a high luminance component higher than the first reference voltage, that is, the high luminance portion is higher than a certain amount, and the low luminance component of the luminance signal input to the low luminance detection unit is higher than the third reference voltage. When it is low, that is, when the low luminance portion is below a certain amount, the high luminance detection unit 10 and the low luminance detection unit 20 respectively output a signal of the "high" state.

This signal is logically operated at the AND gate A3 of the backlight compensation mode selection unit to supply the signal of the " high " state to the AND gate A2. When the photographer “on” the backlight selection switch SW, the AND gate A2 is “high” under the above conditions and is supplied to the aperture driver 40. Therefore, the aperture driver 40 drives the aperture to compensate for the backlight.

According to the present invention operating as described above, when the amount of the bright portion of the luminance signal to be picked up is a certain amount or more, on the contrary, the backlight compensation can be automatically performed when the amount of the dark portion is a certain amount or less. That is, the subject innovation of the present application can automatically perform backlight compensation as needed in a state where the backlight compensation mode switch is turned on, so that the automatic operation is performed without the inconvenience of manual operation according to the situation determination of a conventional user. Eliminate discomfort

Claims (1)

High luminance detection means 10 for detecting whether the high luminance portion of the input luminance signal is equal to or greater than a first reference value, low luminance detection means 20 for detecting whether the low luminance portion of the input luminance signal is less than or equal to a second reference value; The necessity of the backlight compensation mode is selected by the logic state of the signal output from the high brightness detection means 10 and the low brightness detection means 20 and the driving voltage supplied by the backlight mode selection switch made by the user's selection. Backlight compensation mode automatic selection circuit comprising a backlight compensation mode selection unit.