SU1506589A1 - Supervidicon overlight protection device - Google Patents

Abstract

The invention relates to television. The purpose of the invention is to increase the reliability of protection. The protection device contains a lens 1, aperture 2, a super-vidicon 3, a video amplifier 4, an anchor block 5, a detector 6, a diaphragm control unit 7, a controlled power supply 8, a low-pass filter 9, a linear amplifier 10 and a threshold unit 11 made in the form diode. With a sharp increase in the illumination of the photocathode of the Supervidicon 3, the constant component of the current in the signal plate circuit increases to the value determined for the overexposure state. At the same time, there is a sharp drop in the variable component of the video signal. Using video amplifier 4, an anchor block 5, a filter 9, an amplifier 10 and a threshold unit 11, the detector 6 generates a control voltage for the control unit 7, which causes the shutdown of the diaphragm 2 and controls the power supply 8 so as to reduce the voltage on the photocathode supervidicon 3. As a result, the working illumination on the photocathode of supervidicon 3 and the video signal are restored. The goal is achieved by ensuring independence from the transmitted story. 1 il.

Description

b

/

ate

about

O) SP

00 iO

ABOUT

The invention relates to television technology and can be used in devices for the protection of television transmitting tubes of the type Supervidicon from powerful illumination.

The purpose of the invention is to increase the reliability of protection by ensuring independence from the transmitted plot.

The drawing shows an electrical block diagram of a device for protecting a supervidicon from powerful illumination in conjunction with a supervidicon.

Protection device supervidikon against powerful illumination contains a lens

I, diaphragm 2, supervidicon 3, video amplifier 4, anchor block 5, detector 6, a diaphragm control block 7, controlled power supply 8 - NIN, low-pass filter 9 (LPF), linear amplifier 10 and threshold

unit 11, made in the form of a diode.

The device works as follows.

In the initial state, a current flows in the circuit of the signal plate of the Supervidicon 3, which has a constant and variable (informational) component, corresponding in magnitude to this light intensity. Moreover, the low-pass filter 9 separates the constant component of the signal, which is the input signal of the linear amplifier 10, from which the amplified signal is fed to the input of the threshold unit

II. The video signal is fed to the video amplifier 4, then to the input of the block 5, where it is fixed to a certain constant level, which ensures that the state of the threshold block 11 is closed in the normal operating state. From the output of block 5, the video signal goes to detector 6, which transforms it into a control voltage proportional to the level of the video signal. Control voltage is supplied to the unit.

7 aperture control and a controlled power supply 8.

With a sharp increase in the illumination of the photocathode of the Supervidicon 3, the constant component of the current in the signal plate circuit increases to the value determined for the overexposure state. Accordingly, the signal at the input of the linear amplifier 10 and the signal at the input of the threshold unit 11 increase. At the same time, there is a sharp drop in the variable

component of the video signal input to the video amplifier 4, and from it to block 5 to the minimum value corresponding to the overexposure state. A sharp decrease in the variable information component of the signal taken from the signal plate of the supervidicon occurs in a state of overexposure due to the occurrence of charge spreading on the target. Simultaneous decay of the video signal at the output of unit 5 and the constant component of the current of the signal plate, and therefore, the signal at the input of the threshold unit 11, which is a diode, opens it and the signal generated by the constant component enters the input of the detector 6, equivalent to a video signal when the illumination increases; Detector 6 generates a control voltage, which is supplied to the aperture control unit 7, causing the aperture to close, and to the controlled power supply 8, reducing the voltage to the photocell. As a result, the working illumination on the photocathode of the supervidicon 3 is restored and the video signal is restored. Unit 7 is made in the form of two comparators and a bridge power amplifier connected to an electric motor that changes the aperture opening. Simultaneous growth of the video signal and reduction of the constant component of the current of the signal plate of the supervidicon 3 causes the threshold unit 11 to close, and the detector 6 begins to generate a control voltage proportional to the video signal. As a result, the optimum relative aperture of the diaphragm and the voltage on the photocathode of the supervidicon 3 are established.

Claims (1)

Invention Formula The supervidicon protection device against high-intensity illumination containing a sequentially mounted lens and a diaphragm placed in front of the supervidicon, a video amplifier whose input is connected to the output of the supervidicon, an aperture control unit whose output is connected to the control input of the diaphragm, a controlled power source whose output 515065896 connected to the power input of the photocathode sunflower amplifier, the output of which The peridicon, as well as the threshold unit, is connected to the input of the threshold unit, characterized in that, as well as in series In order to increase the reliability of the protection of the anchor block, whose input is connected by providing independent output with a video amplifier output, and the deot of the transmitted plot, a detector is inputted, the input of which is connected to the threshold unit connected in series with the filter input and low frequencies, the input of which is connected by the inputs of the controlled source of pinen with the output of the supervidicon, and the li-JQ and the diaphragm control unit.