KR930007499Y1 - Viewfinder contrast control circuit for video camera - Google Patents

Abstract

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Description

Contrast Control Circuit of Viewfinder for Video Camera

The accompanying drawings are embodiments of the present invention.

* Explanation of symbols for main parts of the drawings

3: comparison unit 5: delay unit

6 switching unit 7 amplifying unit

8: Sawtooth generator R1-R9: resistance

VR1-VR3: Variable resistor OP1-OP3: Operational Amplifier

CNT: n-ary counter AD: end gate

NT: Inverter FT: Field Effect Transistor

The present invention relates to a contrast control circuit of a viewfinder for a video camera. In particular, when shooting in low light, the viewfinder for a video camera increases the contrast voltage of the viewfinder to make the viewfinder screen brighter. It relates to a contrast control circuit of.

In the conventional video camera, the contrast voltage of the viewfinder is fixed, and thus, when shooting in a low light condition without a light, the screen on the viewfinder is dark, which makes it difficult to shoot.

Therefore, the present invention has been devised to solve such a problem, and detects an aperture driving signal to determine whether or not a low light condition is detected. It is to provide a coat last control circuit of a viewfinder for a video camera that facilitates shooting in a state.

Hereinafter, the configuration and the effect of the present invention will be described in detail by the accompanying drawings.

A comparison unit 3 for comparing the detected aperture drive signal with the reference voltage set by the variable resistor VR1 to determine whether low illumination is applied, an amplifier 7 for amplifying the output of the comparison unit 3, A switching unit 6 for switching the output of the comparing unit 3 to the amplifying unit 7 on / off, a delay unit 5 for controlling the switching unit 6, and the amplifying unit ( 7) A sawtooth generator 8 for generating a sawtooth wave by mixing the output of 7) with a vertical pulse supplied from a normal synchronization signal generator, and the sawtooth output of the sawtooth generator 8 is a contrast voltage terminal of a conventional viewfinder circuit. It is to apply to (10).

The delay section 5 includes an operational amplifier OP2 for inverting and amplifying the output of the comparator 3, a variable resistor VR2 for adjusting the gain of the operational amplifier OP2, and an output of the variable resistor VR2. Is controlled by the switching unit 6 by combining the inverter NT for inverting the N, the n-counter counter CNT operated by the output of the operational amplifier OP2, and the respective outputs of the n-counter counter CNT. N input and gate AD for outputting a signal.

In addition, the switching section 6 is connected to the output terminal of the n input and gate AD in the delay section 5, the gate (G) is connected to the output terminal of the operational amplifier OP1 in the comparator 3 (D) ) Is connected to the field effect transistor (FT).

Reference numeral 1 denotes an aperture driving unit, 2 an aperture driving motor, 4 a clock pulse input terminal, 9 a vertical synchronous signal input terminal, and R1-R9 are resistors.

Next will be described the effect of the embodiment of the present invention having the configuration as described above.

In the case of low illumination, the aperture driving signal voltage input to the operational amplifier OP1 in the comparator 3 is lowered, and the aperture driving signal voltage is compared with the reference voltage set by the variable resistor VR1, and then is lower than the reference voltage. If it is low, the output of the operational amplifier OP1 is at the 'high' level.

The 'high' level output of the operational amplifier OP1 is applied to the drain D of the field effect transistor FT in the switching section 6 while being applied by the operational amplifier OP2 in the delay section 5. On the other hand, the inverted amplified by the operational amplifier OP2 in the delay unit 5, the output voltage inverted and amplified by the operational amplifier OP2 causes the 'EN' stage of the n-definition counter CNT to be 'on'. do.

Therefore, the n-counted counter CNT is counted according to the pulse input through the terminal 4, and n is the AND gate when all the outputs Q ₀ -Q ₇ of the counter CNT become 'high' levels. The output of AD is at the 'high' level, thereby triggering the gate G of the field effect transistor FT in the switching section 6 so that the field effect transistor FT is 'turned on'. Accordingly, the 'high' level output of the operational amplifier OP1 applied to the drain D is input to the amplifier 7.

On the other hand, the n-definition counter used in the delay unit 5 of the present invention does not need to brighten the viewfinder screen when a momentary low light condition occurs during shooting, so that the output of the operational amplifier OP1 is 2 ^n. −1 pulse is delayed for a certain period of time input through the terminal 4 and then applied to the amplifier 7.

If the low light condition is normally returned before the above delay time, the output of the operational amplifier OP1 is at the 'low' level. Accordingly, the output of the operational amplifier OP2 in the delay unit 5 is converted again, and the n-counted counter CNT is returned. ) Is cleared to an initial state so that the field effect transistor FT in the switching section 6 is 'off'.

In this way, the 'high' level output of the operational amplifier OP1 input to the amplifier 7 is inverted and amplified by the amplifier 7 and then input to the sawtooth generator 8 and input through the terminal 9. By being mixed with the vertical synchronization signal, the sawtooth wave generator 8 outputs a sawtooth wave having a vertical period. The sawtooth wave is input to the contrast voltage terminal 10 of the viewfinder to increase the contrast voltage of the viewfinder, thereby brightening the viewfinder screen.

On the other hand, when the light intensity changes from the low light state to the normal light state again, the output of the operational amplifier OP1 in the comparator 3 becomes the 'low' level, and by the same circuit operation as described above, the field effect transistor in the switching part 6 ( Since the FT) is 'off', the sawtooth wave generator 8 is not operated.

As described above, the present invention automatically increases the contrast voltage of the viewfinder when the low light state is taken by the video camera, thereby brightening the viewfinder screen, thereby providing convenience in shooting.

Claims (3)

A comparison unit 3 for comparing the detected aperture drive signal with the reference voltage set by the variable resistor VR1 to determine whether low illumination is applied, an amplifier 7 for amplifying the output of the comparison unit 3, A switching unit 6 for switching the output of the comparison unit 3 to the amplifying unit 7 on / off, a delay unit 5 for controlling the switching unit 6, and the amplifying unit ( The output of 7) is a sawtooth generator 8 for generating a sawtooth wave by mixing with a vertical pulse supplied from a normal synchronization signal generator, and the sawtooth output of the sawtooth generator 8 is contrast voltage terminal of a conventional viewfinder circuit ( 10) a contrast control circuit of a viewfinder for a video camera. The method of claim 1, wherein the delay unit (5) includes an operational amplifier (OP2) for inverting and amplifying the output of the comparison unit (3), a variable resistor (VR2) for adjusting the gain of the operational amplifier (OP2), and Inverter NT for inverting output of variable resistor VR2, n-ary counter CNT operated by output of said operational amplifier 0P2, and each output of this n-ary counter CNT is combined. And an n input and gate (AD) for outputting a control signal to the switching section (6). 3. The switching unit (6) according to claim 2, wherein the switching unit (6) has a gate (G) connected to the output terminal of the n input and gate (AD) in the delay unit (5) and the output terminal of the operational amplifier (OP1) in the comparison unit (3). And a field effect transistor (FT) connected to the drain (D).