DE1114529B - Method and arrangement for compensating the vertical loss of opening when obtaining a television signal - Google Patents

Description

The present invention relates to a method of compensating for vertical aperture loss in the acquisition of television signals in a television system with line-by-line scanning of the Image. In such known television systems, the sharpness of the reproduced picture is paramount Line through the bandwidth of the channel for the transmission of the television signal from the recording and Playback device determined. With wireless transmission of the television signal, there is only one frequency channel limited width available, so that it is of great importance to make optimal use of this channel.

It is known that the sharpness of a television picture by the application of the so-called aperture correction can be improved. This is normally done in such a way that one in the transmission channel the gain increases with the frequency according to a certain law. Such a one Correction, however, only increases the sharpness in the line direction. With an appropriately extended aperture correction one therefore obtains a TV picture with different sharpness in line direction and perpendicular to it. It would therefore be of great importance The advantage of applying a correction in all directions, in particular also across the line direction.

When forming the signal value corresponding to a picture element, the increasing value is taken into account Frequency characteristic (and the associated phase correction) of the simple aperture corrector the brightness of the picture elements immediately preceding and following the picture element and gives these neighboring elements a "negative weight". The brightness of a bright picture element between two darker picture elements is therefore opposite to its original brightness enlarged.

As a result, the signal for the relevant picture element is blurred by signals from the neighboring ones Compensated for elements in the line direction due to the finite extension of the scanning element. An aperture correction effective on all sides would have to match the brightness of all picture elements in the vicinity of the scanned picture element, i.e. also that of the picture elements transversely to the line direction in the adjacent lines.

It has already been suggested to enable a comparison of the information in the neighboring rows, to store two complete lines of the image signal. Apart from the great effort for such a process, its implementation also presents considerable technical difficulties

Procedure and arrangement for compensation

of vertical opening loss
when obtaining a television signal

Applicant:
Bush and Rank Cintel Limited, London

Representative: Dr.-Ing. W. Lampert, patent attorney,
Stuttgart W, Breitscheidstr. 4th

Claimed priority:
Great Britain April 21, 1955

Thomas Cayton Nuttall, London,
has been named as the inventor

opposite. For example, in the currently introduced television systems with interlining, follow the Lines that are spatially adjacent to each other, not directly on top of each other in time.

By the method of the present invention, the hitherto with the application of an all-round Difficulties associated with aperture correction are eliminated. The method according to the invention for compensation vertical aperture loss in obtaining a television signal in a television system with line-by-line scanning of the image by a scanning element consists in that the scanning element in addition to the deflection in the line direction transversely to the line direction periodically with smaller, one or a few neighboring lines of amplitude capturing and a number of periods above the highest The image frequency of the television system is deflected (wobbled) and that resulting from the scanning Signal in a first signal component with a frequency range up to the highest frame rate of the television system and a second signal component, the signal frequencies includes above this highest frequency, is split that this second signal component by mixing with an auxiliary signal of twice the frequency of the number of periods of the transverse deflection more suitable Phase and, after the subsequent band limitation, converted into the frequency band of the television system and is additively combined with the first signal component in such a way that in the output signal with the

109 707/100

Frequency range of the television system's information content from the neighboring lines and thereby the sharpness of the one obtained from the output signal TV picture is increased transversely to the line direction.

The process according to the invention can be carried out in various ways. At a The preferred arrangement is the scanning beam of an electronic image decomposer in addition to the deflection in the line direction with a frequency above the upper limit frequency of the television system deflected transversely to the line direction with a small amplitude, the signal thus obtained in a the first component corresponding to the scanning in the line direction with the cut-off frequency of the television system and into a second, higher-frequency, second corresponding to the scanning of the neighboring areas Component and divided by this second component by means of an auxiliary frequency with twice Frequency of the additional transverse deflection a correction signal within the frequency range of the Television system derived and added to the first signal component so that an aperture correction is obtained across the line direction.

The separation of the two signal components can be done in a simple manner by a low-pass filter for the dem Component corresponding to line content and a bandpass filter for the component corresponding to the neighboring areas Component can be made.

To explain the invention in more detail, a scanning device based on the light point system is intended below will be explained with reference to the figure, in which, in addition to the per se known aperture correction in the line direction a vertical aperture correction is used according to the method according to the invention. To the Scanning an image 1, e.g. B. a slide, is in a known manner on the screen 3 of the scanning tube 4 written rasters are projected onto the image 1 by means of the optics 2. The scanning tube is from the device 5 supplied with heating and anode voltage. The electron beam generated in the tube 4 is through suitable magnetic means 6 focused and controlled by the deflection system 7 so that on Screen 3 of the scanning tube a grid is written according to the television standard used. The distraction system receives from the tilt generators 8 and 9, the corresponding currents for the horizontal and Vertical deflection. The light transmitted by the slide 1 is by means of an optical system 10 on the Cathode of a photocell 11 collected. The emission of the photocathode changes with time according to the Transparency of the point in the image on which the image of the point of light falls.

The video signal supplied by the photocell arrives in the video amplifier after it has been appropriately amplified 12 to a low-pass filter 13. The upper limit frequency of this filter is chosen so high that as required for the transmission of the video signal according to the scanning standard used. For the The standard introduced in England with 405 lines, 25 frames / sec and a single line jump is the Cutoff frequency of the filter 13 preferably at 3 MHz, so that it the entire video signal corresponding to the Main scanning raster blows through. The filter 13 is followed by a customary aperture corrector 14. That in the line direction corrected signal then passes through a delay element 15, which has a delay in causes the same extent as it has the additional component to be introduced later. In the end the signal arrives in a mixer 16, in which it is combined with the additional signal will.

Up to this point the facility is essentially the same that of a conventional light point scanner and supplies a television signal with aperture correction in horizontal Direction subjected to a certain delay.

To obtain an aperture correction across the

ίο line direction is an additional according to the invention Correction signal obtained in the following way: The cathode ray of the scanning tube 4 is additionally deflected perpendicular to the line direction with a small amplitude and high frequency. The distraction can be sinusoidal in the simplest case; the deflection frequency is said to be outside of normal the television standard of the given frequency band. If the scan z. B. according to the English Standard takes place, the frequency of the additional deflection z. B. 6MHz. The distraction a generator 18, which has an additional system of deflection coils, supplies the additional deflection feeds in the deflection unit 7. It is useful if the deflection generator 18 has an output voltage adjustable size supplies. The amplitude of the additional deflection will be beneficial set in such a way that the scanning spot on both sides of the respective line those points of the screen which are then swept over by the lines of the main grid. The deflection generator 18 is controlled by an oscillator 17.

Due to this additional deflection are in the video signal generated by the photocell 11 and is amplified by the amplifier 12, contain components which are in a frequency band that from the Frequency band for the signals of the main grid is different. This from the added distraction of the light spot originating frequency band is after the amplifier 12 through a band filter 19 from Video signal of the main grid separated. If the main grid corresponds to the English standard, then it can the band filter z. B. be dimensioned for a frequency band of 9 to 15 MHz. This frequency band becomes after the filter 19 is fed to a demodulator 20, which has the task of extracting from the video signal the filter 19 derived additional information to decode. For this purpose, the demodulator 20 is a sinusoidal auxiliary voltage with twice the frequency of the deflection voltage, its frequency through the oscillator 17 is determined, supplied. After the demodulator, a signal is obtained, its mean value on the difference in brightness between a normally scanned picture element and the average brightness value of adjacent picture elements in the adjacent lines depends. The thus obtained Signal has a frequency band from 0 to 3 MHz (in the case of the English standard), there are also frequency bands in other areas. The desired correction signal is obtained through a low-pass filter 23, that has an upper limit frequency of z. B. 3 MHz. The correction signal with a frequency band from 0 to 3 MHz then passes into an amplifier 24 with adjustable gain. After this The correction signal is amplified in a suitable size in the mixer 16 for the main signal added.

On its way, the correction signal suffers a certain delay, mainly in the band filter 19.

In order to be correctly combined with the main signal, the latter must therefore be increased by the same amount as the main signal Correction signal can be delayed. The delay element 15 in the main channel is used for this purpose.

The auxiliary voltage for the demodulator 20 is twice the frequency of the oscillator 17 obtained by doubling the frequency of the oscillator 17 in a simple manner. To do this, the frequency from Z. B. 6 MHz from the oscillator 17 via an adjustable phase shifter 21 to the frequency doubler 22 fed to the desired auxiliary frequency of z. B. 12 MHz for demodulator 20 supplies. The phase shifter 21 can match the phase of the auxiliary frequency with that of the additional deflection of the light spot are brought into agreement.

The described simple embodiment for the all-round aperture correction according to the invention can may be simplified even further. For example, it appears possible to use the two filters 13 and to replace 23 with a single filter which is arranged after the mixing device 16. aside from that it appears possible to reduce the bandwidth of the filter 19 compared to the mentioned value of 6 MHz. It is likely that the English television standard will use a bandwidth of 3 MHz as proves sufficient.

The invention is not limited to the described embodiment of a television scanner according to the Light point method is limited, but can be used for any television recording equipment, e.g. B. television cameras, and at any point in the television broadcast between recording and playback with Advantage to be applied.

35

Claims (7)

PATENT CLAIMS: 1. A method for compensating for the vertical aperture loss when obtaining a television signal in a television system with line-by-line scanning of the image by a scanning element, characterized in that the scanning element in addition to deflection in the line direction transversely to the line direction periodically with small, one or a few neighboring lines detecting amplitude and a number of periods above the highest image frequency of the television system is deflected (wobbled) and the signal resulting from the scanning is split into a first signal component with a frequency range up to the highest image frequency of the television system and a second signal component, which includes signal frequencies above this highest frequency, that this second signal component is converted into the frequency band of the television system by mixing with an auxiliary signal of twice the frequency of the number of periods of the transverse deflection, and after subsequent band limitation, and with the first signal l component is put together additively in such a way that the information content from the neighboring lines is reduced in the output signal with the frequency range of the television system, thereby increasing the sharpness of the television image obtained from the output signal transversely to the line direction. 2. The method according to claim 1, characterized in that the additional deflection (Wobbling) of the scanning beam takes place at a frequency that is about twice as large as that highest frame rate of the television system. 3. The method according to claim 1, characterized in that the additional deflection is approximately takes place sinusoidally. 4. The method according to claim 1, characterized in that the auxiliary frequency with the second signal component is mixed (synchronous demodulation), by doubling the wobble frequency is obtained and that a preferably changeable setting of the phase position of the Auxiliary frequency is provided. 5. Arrangement for performing the method according to the preceding claims, characterized by an oscillator (17) for generating the Wobbet frequency, which if necessary via an amplifier (18) to the deflection unit (7) for the vertical deflection of the scanning beam is, a low-pass filter (13) for separating the in the frequency range of the television system lying first signal component and a band filter (19) for separating the higher-frequency second Signal component from the image signal supplied by the scanner, a mixer (20), the second Signal component and by means of a frequency doubler (22) with the interposition of a preferably adjustable phase shifter (21) from the oscillator (17) obtained auxiliary frequency is, and an additive mixer (16), on the one hand, the first signal component after the Low-pass filter (13) with the interposition of a delay element (15) and on the other hand the demodulated second signal component after band limitation in a low-pass filter (23) with a suitable, is supplied by a preferably controllable amplifier of adjustable amplitude and which provides the output signal. 6. Arrangement according to claim 5, characterized in that the mean frequency of the Band filter (19) is about twice as high as the frequency of the additional deflection (wobble frequency). 7. The method according to claim 1, characterized in that simultaneously with the aperture correction an aperture correction made transversely to the line direction in the direction of the lines will. Legacy Patents Considered:
German Patent No. 1065 453. 1 sheet of drawings © 109 707/100 9.