SU45860A1 - Device for adjusting the constant illumination of visions - Google Patents

Description

At present, devices are already known for adjusting the illumination of far-vision images, in which a special photovoltaic device is used that perceives the average illumination of the transmitted image. The electrical signal of the device in one way or another modulates the amplitude of the carrier frequency of the radio transmitter of the Acoustic tracking.

According to the invention, for the purposes of the modulation, an auxiliary high-frequency oscillator is applied, the amplitude of which varies in proportion to the average image brightness.

To control the constant component of the received image, a constant signal is used that is extracted by rectifying devices and filters; This signal serves to change the bias potential of the Wenelt Brown tube.

In FIG. 1 shows a transmitter and FIG. 2-focal receiver,

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Image decomposition / is carried out using a disk J rotated by a motor 2, through the holes of which light beam 4 falls on photocell 5, to which photo current amplifier 6 is adventitious, amplified pulses are sent to an image radio transmitter.

The current of the photocell 8, which perceives the average illumination of the image, is amplified by the amplifier 9 and modulates in amplitude the high-frequency oscillator 10. For example, an oscillator with independent excitation is given, i.e., an auxiliary frequency o is supplied to its grid from a corresponding external source. This frequency is fed to a modulating device 11 of the radio transmitter 12.

In the receiver 13, which receives the modulated carrier frequency after the corresponding amplification and detection, the auxiliary frequency is extracted from the entire spectrum by means of a filter 14 after appropriate amplification and detection.

low frequencies (after the amplifier / 5) supplied to the loudspeaker / 6, and then rectified ml. by means of a lamp or contact rectifier 17. Unplugged and smoothed DC voltage modulates the control electrode 18 of the Brown receiver tube 19, which is at a negative potential; This electrode is simultaneously supplied from the receiver 20 for receiving images with pulses corresponding to image decomposition.

The nonlinear distortions that occur in the detection of the auxiliary frequency, in case the characteristics of the detector used are non-linear, predict the constant component of the current corresponding to the average illumination. In this case, the transmitter must have a correction device that would create a non-linear relationship between the constant component of the current corresponding to the average illumination and the amplitude of the auxiliary frequency; at the same time, the non-linear dependence should be such that at the reception site at the output of the detecting device 77 the full identity of the average illumination of the received image from the same transmitted one is ensured.

In the case when the carrier frequency of the tone transmitter is modulated in addition to the acoustic transmission by synchronizing frequencies or pulses, these latter are positioned in relation to the acoustic frequency spectrum as follows: the frequency used to synchronize the vertical frame scan (equal to the number of images in sections, tons). that is, at a dimension of 25 hertz.) lies outside the lower part of the spectrum of acoustic frequencies. To be able to isolate it, the latter should be limited to 50 hertz. The frequency used to synchronize the horizontal (progressive) scan lies outside the acoustic spectrum, so the latter should be cut to the extent necessary to extract the clock frequency without interference from other frequencies. For reasons of conserving broad spectrum transmission

the acoustic frequencies of the synchronizing horizontal scan are often doubled or quadrupled at the transmitting end and subjected to demultiplication at the receiving point, or for the same purpose an auxiliary frequency far from the upper edge of the acoustic spectrum is used, which is modulated by the synchronizing frequency. In cases where the same result is achieved. In both the first and second transmission methods, in accordance with the present invention, it is possible to completely refuse to transmit changes to the constant component of the image by applying a special auxiliary frequency; It is quite possible to send changes to the constant component to the receiving site by modulating or amplifying one of the synchronizing frequencies or its carrier (i.e., the auxiliary frequency modulated by it). At the same time, in order to achieve perfect synchronization and, accordingly, not distorted deviation of the cathode ray of the Brownian tube at the receiving point, limiting devices should be provided that maintain the constant amplitude and phase of the pulses applied to the relaxation circuit for its synchronization. In the case where amplitude modulation of the carrier frequency of the audio transmitter is used to control the average lightness of the image, it is necessary to select and maintain a range of changes in the modulation depth within which the modulation coefficient changes depending on the value of the image current constant . However, avoiding overmodulation is also difficult; arising from pergmodulation interference distorts the image. To eliminate this drawback, the idea of the present invention is modified as follows: the auxiliary frequency is modulated not in amplitude, but in frequency. It is clear that in this case one should take into account the appearance of a certain frequency spectrum; the amplitude will remain constant. The photocurrent of the photocell 8 in FIG. 1 now affects not the amplitude, but the oscillation frequency of the oscillator 10. The modulating device is not driven — it is performed in the usual way. The coefficient of modulation of the carrier frequency of the audio transmitter, it is understood, remains unchanged (for all variations of the auxiliary frequency). In order to convert frequency changes and amplitude changes at the receiving point, known devices can be used, for example a tuned circuit, the amplitude of current to be rectified, in which the current will vary with frequency.

The subject matter of the invention.

Claims (3)

1. A device for adjusting the constant illumination of far-sighted images using a separate photovoltaic device on the transmitter, which perceives the average illumination of a frame, the electrical signal from which modulates the amplitude of the carrier frequency of the radio sound transmitter, characterized in that an auxiliary high-frequency generator is used for the said modulation, the amplitude of oscillations of which varies in proportion to the average brightness of the image. 2. The form of the device according to claim 1, characterized in that rectifiers and filters are used to reproduce a constant signal, which serves to change the bias potential of the cylinder, to reproduce at the place of reception of a signal of a constant illumination of the image in the audio receiver. Brown's Venelt tube. 3. In the device according to claim 1, use frequency modulation instead of amplitude and corresponding to this type of frequency detection modulation at the reception site.