KR940003351B1 - Circuit for auto gain control - Google Patents

Abstract

The circuit adjusts gain of a video signal amplifier by the brightness of a room. The circuit includes a peak detector for detecting peak level of a brightness signal, a first comparator for comparing the detected peak level to a reference level, a second comparator for comparing output signal of the peak detector to a difference amplifier, a switch for supplying output signal of the peak detector to an automatic gain controlled amplifier, switches (SW2,SW3) for supplying output signals of the difference amplifier and the level detector, and a switch selector for selecting switches (SW1-SW3) by output signal of the comparators.

Description

Gain Control Circuit for Automatic Gain Control Amplifier According to Illuminance

1 is a conventional automatic gain control amplifier gain control block diagram.

2 is a waveform diagram of FIG. 1.

3 is an automatic gain control amplifier gain control block diagram according to the illuminance of the present invention.

4 is a detailed circuit diagram of the selector of FIG.

5 is a waveform diagram of FIG. 3.

* Explanation of symbols for main parts of the drawings

1: automatic gain control amplifier 2: low pass filter

3: synchronous end clamp 4,5: differential amplifier

6 gate part 7: adder

8: detector 9: peak detector

10,11: comparator 12: selection unit

13 differential gain control unit 14 differential amplifier and level detector

15: comparison unit 16: switching unit

SW ₁ to SW ₃ : Switch I ₁ to I ₂ : Inverter

G ₁ to G ₃ : Endgate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video circuit of a TV or monitor, and more particularly, to an automatic gain control amplifier gain control circuit according to illuminance for automatically controlling the gain of an automatic gain control amplifier for an input video signal according to the surrounding contrast. It is about.

1 is a conventional automatic gain control amplifier gain control block diagram. As shown therein, the image signal input terminal S _in is connected to the automatic gain control amplifier 1, and the output terminal of the automatic gain control amplifier 1 is The low pass filter 2 and the synchronous end clamp 3 are sequentially connected to input terminals of the differential amplifiers 4 and 5 to which the reference voltage V _ref is applied to one input terminal, and the output terminal of the differential amplifier 4 is connected. Connected to the adder 7 and the output end of the differential amplifier 5 is connected to the adder 7 via a gate portion 6, the output end of the adder 7 is connected to a detector 8, The output stage (8) is connected to the automatic gain control amplifier 1, and the operation and problems of this conventional circuit are explained as follows.

In the composite video signal inputted to the video signal input terminal S _in , the ratio of the sync signal to the video signal is 3 to 7. That is, when the composite video signal is IV _{pp, the} sync signal is 0.3V and the video signal is 0.7V.

The composite video signal is input to the differential amplifiers 4 and 5 through the automatic gain control amplifier 10, the low pass filter 2 and the synchronous front clamp 3, where the differential amplifier of the differential amplifier 5 is used. Since the gain for (4) is set to 7/3 times, the output composite video signal of the differential amplifier 5 is amplified 7/3 times larger than the output of the differential amplifier 4, and the synchronization portion at the gate portion 6 is obtained. Since only the back porch period of the gate is gated, the signal obtained from the gate portion 6 becomes a pulse signal as shown in FIG. 2b, and the signal and gate of FIG. 2a as the output from the differential amplifier 4 are obtained. The signal of FIG. 2b which is the output signal of the differential amplifier 5 which passed through the part 6 is added to the adder 7, and becomes a signal like FIG. 2c. The peak of the signal is detected by the detector 8, and the gain of the automatic gain control amplifier 1 is controlled by the output of the detector 8. However, since the pulse applied to the video signal is 7/3 times the synchronization signal, the white peak is fixed at 100%. Therefore, if the video signal level of the input composite video signal is low (low illumination), the gain cannot be adjusted and the screen is not bright.

In view of the above-described conventional problems, the present invention detects a luminance signal of a video signal, detects a peak value of the luminance signal, compares the detected peak value with a reference signal, and outputs the peak value and the luminance signal. Synchronize the synchronous front end signal with a certain level and compare it with the detected value, and select the signal that controls the gain of the video signal by logical combination according to the comparison result, and automatically control the gain of the video signal according to the surrounding contrast. Invented so as to be described in detail with reference to the accompanying drawings as follows.

3 is an automatic gain control amplifier gain control block diagram according to the illuminance of the present invention. As shown in FIG. 3, an automatic gain control amplifier 1 for adjusting and amplifying gain of an image signal and a low pass filter for detecting only a luminance signal ( 2), a synchronous front clamp 3 for fixing the front end of the synchronous signal at a constant level, and a differential amplifier 4 and 5 for differentially amplifying the output signal of the synchronous front clamp 3 at a constant ratio to detect the peak level; In an automatic gain control amplifier gain control circuit comprising a differential amplifier and a level detector 14 comprising a gate section 6, an adder 7 and a detector 8, the output signal of the low pass filter 2 A first comparator comparing the peak detector 9 for detecting the luminance signal peak level with the reference signal V ₁ set for detecting an image level for low illumination; 10) and the output signal of the peak detector 9 The comparator 15 comprising a second comparator 11 comparing the output signal of the dynamic amplifier and level detector 14 and the output signal of the peak detector 9 are connected to the automatic gain control amplifier 1. switch for switching that the input to the gain control signal (SW ₁₎ and a switch (SW ₂ for switching that the output signal of the differential amplifier and the level detector 14 is input to the gain control signal of the automatic gain control amplifier (1), and SW ₃₎ switching (16 a in), a first of the comparison unit 15, the second comparator 10, a switch (SW ₁ of a combination of logic output signals (11) said switching section (16) ~ SW ₃₎ a differential amplifier (5 on the controlling selection selection section 12, the selecting unit (the differential amplifier and a level detector (14 interlocked with the switch (SW ₃₎ according to the selection signal 12)) ), And a differential amplification gain adjusting section 13 for adjusting gain.

FIG. 4 is a detailed circuit diagram of the third selector 12. As shown therein, an output signal of the first comparator 10 is applied to one input terminal of the AND gates G ₁ and G ₂ . in addition, the other input terminal of the aND gate (G ₃₎ the aND gate (G ₂₎ is to be coupled to one input terminal and, through the application as soon as well as an inverter (I ₁₎ of, (G ₃₎ via an inverter (I ₂₎ It is to be connected to the to and that the aND gate (G ₁ ~ G ₃₎ configured to control the switches (SW ₁ ~ SW ₃₎ of the switching 16 by the output signal of the.

Referring to the effects of the present invention configured as described above in detail as follows.

The composite video signal input to the automatic gain control amplifier 1 is always output as a video signal of a constant level by the automatic gain control amplifier 1 even if its input level is varied. Only the luminance signal is outputted and applied to the peak detector 9, and the peak detector 9 detects the peak difference of the luminance signal and detects a video signal level that varies in accordance with the surrounding brightness. The signal is applied to the non-inverting terminal and the switch SW ₁ of the first and second comparators 10 and 11.

A reference signal V ₁ for detecting an image signal when the illuminance is low is applied to the inverting terminal of the first comparator 10. On the other hand, the luminance signal passing through the low pass filter (2) is input to the differential amplifiers (4) and (5) after the synchronization end is clamped by the synchronization end clamp (3). Since the voltage V _ref is applied and the differential amplifier 5 has a gain 7/3 times larger than that of the differential amplifier 4, the output of the differential amplifier 5 is synchronized by the gate portion 6 to the backperch. When only the back porch is gated and added together in the adder 7 together with the output of the differential amplifier 4, the pulse becomes a 100% white signal as shown in FIG. This signal is detected by the detector 8, applied to the inverting terminal of the second comparator 11, and compared with the output from the peak detector 9. At this time, when the video signal level is more than 100% white signal level, the outputs of the first and second comparators 10 and 11 are all high potential, and the video signal level is higher than the reference signal V ₁ and the 100% white signal. When the level is less than the output of the first comparator 10 is a high potential, the output of the second comparator 11 is a low potential, and when the image signal level is less than the reference signal (V ₁ ), the first and second comparators 10 The output of 11) all becomes low potential. Accordingly, when the outputs of the first and second comparators 10 and 11 are all high potentials, the output of the AND gate G ₁ becomes high potential, and the output of the AND gate G ₂ G ₃ becomes low potential. When the output of the first comparator 10 becomes a high potential and the output of the second comparator 11 becomes a low potential, the output of the AND gate G ₂ becomes a high potential, and the outputs of the AND gates G ₁ and G ₃ become low potential is up, thereby controlling on / off of switches _{(SW 1), (SW 2} ). That is, in the state where the high potential signal is output from the AND gate G ₁ , the switch SW ₁ is turned on so that the output signal of the peak detector 9 is applied as a gain control signal of the automatic gain control amplifier 1. In the state where the high potential signal is output from the AND gate G ₂ , the switch SW ₂ is turned on and the output signal of the detector 8 is applied as a gain control signal of the automatic gain control amplifier 1.

In particular, when the image signal level becomes less than the reference voltage V ₁ and the outputs of the first and second comparators 10 and 11 are all low potentials, the high potential is output only at the AND gate G ₃ so that the switch SW ₃ ) is turned on, so that the output signal of the detector 8 is applied as the gain control signal of the automatic gain control amplifier 1, and at this time, the differential amplifier gain adjustment unit 13 is driven to Try to lower the gain.

As described in detail above, the present invention has an effect of compensating for a bright or dark screen by detecting an image signal level according to ambient light and controlling the gain of an automatic gain control amplifier.

Claims (2)

An automatic gain control amplifier that amplifies by adjusting the gain of the video signal, a low pass filter that detects only a luminance signal from its output, a synchronous front clamp that fixes the front end of the synchronous signal at a constant level, and an output of the synchronous front clamp An automatic gain control amplifier gain control circuit comprising differential amplification and level detection means for differentially amplifying a signal at a predetermined ratio to detect a peak level, comprising: a peak detection means for detecting a peak level of a luminance signal output from the low pass filter; A first comparator for comparing the output signal of the peak detection means with a reference signal set for detecting an image level for low illuminance, and a first comparator for comparing the output signal of the peak detection means with an output signal of the differential amplification and level detection means. A comparison means comprising two comparators and an output signal of the peak detection means Of the switch (SW _2, SW ₃₎ to switch that the switch (SW ₁₎ and the output signal of the differential amplifier and level detection means for switching that the input to the control signal input to the gain control signal of the automatic gain control amplifier switching means And a selection means for receiving the first and second comparison signals of the comparison means, logically combining them, and selecting and controlling the switches SW ₁ to SW ₃ of the switching means. Gain control amplifier Gain control circuit. The method of claim 1, wherein the interlock switch (SW ₃₎ of the switching means according to the selection control means of the selection means further comprises a differential amplifier gain adjusting unit for adjusting the differential amplifier and the differential amplifier gain negative level detector, and wherein the constructed Gain control circuit for automatic gain control amplifier according to illuminance.

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