SU970726A1 - Pick-up television camera - Google Patents

Description

The invention relates to television and can be used as part of TV transmitting cameras of various purposes, for example, for domestic application and broadcast television.

A known TV camera, a photoelectric converter, a preliminary video amplifier, a black point fixing unit, a locker and an automatic sensitivity control channel consisting of a series-connected amplifier of video pulses, a detector and a constant amplifier are known. current, the output of which is connected to the control input of the photoelectric converter 1.

However, with this sensitivity, when the sensitivity is automatically adjusted, a redistribution between the amplitude (from black to white) and the black level is possible, depending on the nature of the observed image.

Closest to the proposed is a TV kilometer, containing a photoelectric converter with adjustable output signal, a pre-video amplifier at the black point of the video signal, a limiter, an amplifier and a video signal detector, and a DC amplifier. This TV camera allows you to maintain a constant amplitude of the video jack (from the black level to the white level) when the illumination of the object 2 changes.

However, when observing small areas of plant objects, for example, in the underwater television, image distortion occurs due to the voltage mismatch on the tube electrode controlling the sensitivity and the illumination on the target. This happens because the criterion for tuning the tube mode is the amplitude of the video signal from the black level to the white level.

20

When observing a low-contrast object, the voltage at the control electrode will vary so that the sensitivity of the tube increases. If this is a contrasting object

25 is observed on a light background (as in underwater television), and to obtain the required video signal, the voltage on the control electrode increases more than the allowable level 30, due to the illumination

target In this C, the image of the bright areas of the object or the entire image is transmitted with distortion, the so-called image swimming occurs.

The purpose of the invention is to eliminate image distortion when observing low-contrast objects.

This goal is achieved by the fact that, in a transmitting TV camera, a photoelectric converter connected in series with an output signal adjustment, a preliminary video amplifier is a latch on a black point of the video signal, a damper limiter, a video pulse amplifier, the first peak detector, a DC amplifier, the output of which is connected with the photovoltaic converter control inputs, a series-connected video amplifier, a second peak detector, a minimum minder and an adder, the second input of which is connected to the output of the first pikavrgo detector, and the output is connected to the input of a direct current amplifier, and the input of the video signal amplifier is connected to the output of the preliminary video amplifier.

The drawing shows a structural electrical circuit of the proposed transmitting TV camera.

The TV camera contains a photoelectric converter 1, a preliminary video amplifier 2, a latch 3 on the black point of the video signal, a limiter 4, an amplifier 5 video pulses, a first peak detector b, an amplifier 7 of a video signal, a second peak detector 8, a limiter 9 at a minimum, an adder 10 and an amplifier 11 constant nnogo current.

TV camera works as follows.

The luminous flux from the transmitted scene is converted by the photoelectric converter 1 into a video signal, the latter is fed to the preliminary video amplifier 2, the output output to the latch 3 by the black dot of the video signal. From the output of this latch is fed to the limiter 4, which ensures the limitation of damping pulses and a signal, by the level corresponding to the background illumination. After restriction, the signal is additionally amplified and detected by amplifier 5 and detector 6. At the output of the latter, a slowly varying voltage is generated corresponding to the amplitude of the video signal from the black level to the white level. At the same time, the video signal is amplified by the video signal amplifier 7 and detected by the maximum by the second peak detector 8, where a slowly varying voltage is formed corresponding to the level of the video signal. This voltage is supplied to the limiter 9 by a minimum of 1y, at the output of which the voltage appears when the input voltage exceeds the level of the limit.

Slowly varying voltage from the output of the limiter 9 to the minimum vly and from the output of the first peak detector 6 is fed to the inputs of the accumulator 10 and then to the amplifier 11 of direct current, and from its output to the adjusting input of the photoelectric converter 1. When observed

The 5 high-contrast objects of the voltage at the outputs of the peak detectors 6 and 8 are close in magnitude, but since the voltage level of the video signal is applied to the output of the adder 10,

minus the limiting level, the control factor of the photoelectric converter operating mode will be the voltage from the channel output to the amplitude of the video signal from the black level to the white level. Thus, when observing high-contrast objects, the proposed TV camera scheme will maintain a constant amplitude of the video signal from the black level to the white level. When observing low-contrast objects, the video signal level voltage will significantly exceed the amplitude voltage of the video signal, despite the aforementioned decrease in its level, A sufficient control signal will be the voltage from the output of limiter 9 at the minimum corresponding to the level of the video signal. The magnitude of the limit and total

The gain in the automatic control channel is set (in the process of adjusting the circuit) so that the output of the TV camera is supported. lived fairly constant

5 video signal level close to the maximum allowed, due to the parameters of the transmitting tube.

Swimming image in this

Q case will not be. Thus, when observing high-contrast objects, a constant amplitude of the video signal is maintained at the camera output, and when observing low-contrast objects, the transmitting tube does not sink and the image is not distorted and does not disappear.

Using the proposed TV camera will improve the quality

images when observing low contrast objects. The greatest gains from using the camera should be expected in underwater television, when the object is veiled by haze

backscatter

Claims (2)

1. The patent of Germany 1801122, cl. H 04 N 5/19, 1971, 2. Authors certificate of the USSR 566401, cl. H 04 N 5 / 34,1975 (prototype). li ten