KR900005147Y1 - Gama compensator control circuit for video camera - Google Patents

Abstract

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Description

Gamma Correction Adjustment Circuit of Video Camera

1 is a block diagram of the present invention circuit diagram.

2 is a characteristic diagram showing gamma correction amount of a video camera.

3 is a circuit diagram of the present invention.

4 is a waveform diagram of each part of the circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

5: switching unit 10: buffer amplifier

15: mixed amplifier 20: voltage amplifier

25: clamp VR ₁ : variable resistor

IC ₁ , IC ₂ , IC ₃ : Analog Switch Q ₁ -Q ₁₀ : Transistor

ZD: Control diode R ₁ -R ₁₄ : Resistance

C ₁ -C ₅ : Capacitor

The present invention relates to a gamma correction amount adjusting circuit of a video camera.

In the video camera, the photoelectric conversion characteristics of the image capturing tube and the light emitting characteristic of the receiving tube do not coincide. Therefore, a gamma correction circuit for matching them is essential. Was difficult.

Therefore, there was a need for a circuit capable of adjusting the gamma correction amount according to an external control voltage using a voltage controlled mixing amplifier in parallel with the mixing method using a variable resistor.

In view of the above, the present invention allows the amount of gamma correction signal to be controlled by the voltage of the external control terminal when the video signal and the gamma signal are mixed so that the desired change amount can be selected. It is intended to provide a gamma correction amount adjusting circuit of a video camera that can arbitrarily adjust the gamma correction amount to peripheral equipment of the video camera. It is made by connecting the clamp composed of analog switch and integrating circuit to the output side.

FIG. 1 is a block diagram of a circuit diagram of the present invention. The video signal and the gamma signal of the input terminals A and B are mixed by the variable resistor VR ₁ , and then the image signal and the switching unit 5 of the input terminal A are changed. Is applied to the buffer amplifier 10 and the mixing amplifier 15 and is switched by a gamma on / off control signal. The buffer amplifier 10 amplifies the output of the switching 5 so as to amplify the voltage amplifier. 20), and the mixing amplifier 15 is configured such that the output of the switching 5 adjusts the gamma correction amount by the gamma correction amount control signal.

The outputs of the buffer amplifier 10 and the mixed amplifier 15 are applied to the voltage amplifier 20 to be differentially amplified to an appropriate output level and then output. The feedback signal is fed back to the voltage amplifier 20 as a flyback pulse input. The clamp 25 is fixed to control the voltage to fix the reference black level.

2 is a diagram illustrating a gamma correction amount of a video camera, and FIG. 3 is a circuit diagram of the present invention, in which an image signal of an input terminal A and a gamma signal other than the input terminal B are mixed with a variable resistor VR ₁ and then analog. The switch ₅ is applied to the switch IC ₁ (IC ₂ ) and switched by a gamma on / off control signal to configure the switching 5 to apply an image signal and a mixed signal to the buffer amplifier 10 and the mixing amplifier 15. The output of the analog switch IC _{1 of} the switching unit 5 is configured to be amplified by the buffer amplifier 10 composed of the transistor Q ₁ , and the output of the analog switch IC ₂ of the switching unit 5 is the mixed amplifier 15. ) Is applied to the base of transistor Q ₄ , and a video signal is applied to the base of transistor Q ₇ .

The mixed amplifier 15 has a transistor _{(Q 2) (Q 5)} , (Q 3) and a transistor (Q _2), each collector terminal is presented gongjeop of _{(Q 6) (Q 6)} , (Q 3) (Q 5 Each of the base terminals of the N) is idled to be connected to the transistors Q ₄ and Q ₇ , and the gamma correction amount control signal of the input terminal D is applied to the base of the transistors Q ₃ and Q ₅ .

In addition, a buffer amplifier 10 and a mixing amplifier 15 outputs the voltage amplified to be outputted to the Zener diode (ZD) and associated transistor (Q ₁₀₎ the emitter teocheuk through the transistor (Q ₈₎ (Q ₉₎ consisting of a differential amplifier of OP amplifier OP connected to resistor R ₁₆ and capacitor C ₃ and C ₄ through capacitor C ₅ to analog switch IC ₃ switched by a flyback pulse after configuring unit 20. ) Is configured to fix the reference hump level by configuring the clamp (25) to be connected.

The present invention configured as described above is to correct the gamma characteristic caused by the mismatch of photoelectric conversion characteristics between an image pickup device (imaging tube, solid state image pickup device, etc.) and a light receiving device (CRT, etc.) in a video camera. If the gamma of the imaging tube is 1 as shown in FIG. 2a, but the gamma characteristic of the receiver tube is 2.2 as in FIG. Can be reproduced.

That is, in the present invention, the video signal (terminal A of FIG. 4) input to the input terminal A and the gamma signal (terminal B of FIG. 4) input to the input terminal B are mixed by the variable resistor VR ₁ . is in an analog switch (IC _1), the input terminal (Y) "oN" signal (a high level), the gamma on / off control signal as applied through the input terminal (C) to (IC ₂₎ an analog switch (IC ₁₎ of (IC ₂₎ the control terminal (a) is input to the (b) an analog switch (IC ₁₎ video signal and the gamma signal is the mixed signal which is applied to a terminal (Y) of (IC ₂₎ is a buffer amplifier 10 of the It is input to the base side of the transistor Q ₁ and the base side of the transistor Q ₄ of the mixing amplifier 15.

That is, the analog switch IC ₁ (IC ₂ ) varies the video signal of the input terminal A and the gamma signal of the input terminal B when the gamma on / off control signal of the input terminal C is applied at a high level. When the signal mixed with the resistor VR ₁ is applied to the base of the transistors Q ₁ and Q ₄ and is applied at a low level (“off” signal), the image signal of the input terminal A is transferred to the transistor Q ₁ ( Q ₄ ) is applied to the base.

Therefore, when the mixed signal output from the analog switch IC ₂ is applied to the base of the transistor Q ₄ of the mixing amplifier 15 and the image signal of the input terminal A is input to the base of the transistor Q ₇ , respectively, the mixing amplifier is input. Each collector terminal of transistors Q ₂ (Q ₅ ) and transistors Q ₃ (Q ₆ ) of (15) is common and has transistors Q ₂ (Q ₆ ) and transistors Q ₃ (Q ₅ ). Each base terminal is common, but the transistors Q ₂ and Q ₆ are fixed, and only the transistors Q ₃ and Q ₅ vary in output only by the gamma correction amount control signal applied from the input terminal D to the base side. Therefore, the collector-side current of the transistors Q ₃ and Q ₅ changes according to the gamma correction amount control signal potential (terminal D in FIG. 4) applied to the input terminal D. FIG.

That is, the output at both ends of the load resistor (R ₃ ) is the base potential of the transistor (Q ₃ ) (Q ₅ ) is the base of the transistor (Q ₂ ) (Q ₆ ) by the gamma correction amount control signal potential of the input terminal (D). If it is higher than the side potential, the collector current of the transistor Q ₃ flows more than the transistor Q ₆ , and the gamma signal input to the transistor Q ₄ appears to be mixed in a large amount. On the contrary, by the gamma correction amount control signal potential of the input terminal D, When the base potential of the transistors Q ₃ and Q ₅ is lower than the base potential of the transistors Q ₂ and Q ₆ , the collector current of the transistor Q ₃ flows smaller than the transistor Q ₆ , so that the transistor Q ₇ The input video signal is mixed with each other.

As a result, in the above operation, the sum of the collector currents of the transistors Q ₃ and Q ₆ is constant so that there is no change in gain, only the gamma correction amount is controlled without the gain change by the change of the DC level DC of the input terminal D.

The output signal is input to the base side of the transistor Q ₉ of the automatic amplifier through the resistor R ₉ of the voltage amplifier 20, and the output of the analog switch IC ₁ of the switching unit 5 is the buffer amplifier 10. after amplified by the transistor (Q ₁₎ the input signal so applied to the base side of the differential amplifier transistor (Q ₈₎ through a resistor (R ₅₎ is a differential amplifier in the transistor (Q ₈₎ (Q ₉₎ load resistance (R ₁₁₎ to appear, and wherein a load resistor (R ₁₁₎ the voltage drop is the voltage across the zener diode resistor (R ₁₅₎ through (ZD) for varying the base-side voltage level shift of the transistor (Q ₁₀₎ drop at When is indicated, the negative feedback output is stabilized by the resistor (R ₁₂ ).

In addition, the clamp 25 circuit composed of the analog switch IC ₃ and the OP amplifier OP is analogized only in the reference black level section of the video signal by a flyback pulse (terminal E in FIG. 4) supplied to the input terminal E. When the switch (IC ₉ ) is turned on and charged to the capacitor (C ₅ ) connected to the non-inverting terminal (+) of the OP amplifier (OP), the OP amplifier (OP) is integrated and outputted to the resistor (R ₁₃ ). The reference black level is fixed.

Here, when the gamma on / off control signal applied to the attraction terminal C is in a low level (off state), the analog switch IC ₁ (IC ₂ ) is connected to the terminal X and the input of the gamma signal is blocked, thus gamma Since no correction is made, this terminal is held at the low level for gain adjustment.

As described above, the present invention can set the desired gamma correction amount by adjusting the level of the mixed signal mixed with the video signal and the gamma signal to the switching unit to the DC level voltage applied to the mixer amplifier. The integrated output from the black level part is fed back so that the black level is adjusted and stable output is obtained. The level amount can be adjusted by DC power supply, so it is easy to use as a peripheral device such as self-correction by the microcomputer and camera control unit. The effect is to adjust the amount of correction.

Claims (1)

The video signal and the gamma signal input are mixed in the variable resistor VR ₁ and then configured to switch 5 so that the gamma on / off is switched by the control signal and the output of the analog switch IC ₁ is a buffer amplifier. is amplified in 10 configured to be applied to the voltage amplifier section 20 outputs the video signal selected by the analog switch (IC ₂₎ is applied to the transistor (Q ₄₎ (Q _7), said transistor (Q ₄₎ ( Q ₇ ) is configured by connecting the transistor (Q ₂ ) (Q ₃ ) (Q ₅ ) (Q ₆ ) that the emitter and the collector are in common to configure the mixing amplifier 15 to adjust the gamma correction amount by the gamma correction amount control signal, The outputs of the buffer amplifier 10 and the mixed amplifier 15 are differentially amplified in the transistors Q ₈ and Q ₉ configured as differential amplifiers and output through the transistor Q ₁₀ connected to the zener diode ZD. 20, but the voltage amplifier 20 Raleigh back-pulse input is connected to an analog switch (IC ₃₎ for controlling the capacitor (C ₅₎ the clamp (25) by controlling the feedback voltage of the OP amplifier (OP) by the charging voltage thereby fixing the reference black level of the configuration in which the video Gamma correction amount adjustment circuit of the camera.