SU415830A1 - - Google Patents

Description

one

The invention relates to communication technology, namely to television systems.

A device for converting a television signal into digital form is known, comprising a television sensor, a gated cascade, an analog-to-digital converter, a strobe pulse generator, a sampling pulse generator, a voltage block of X coordinate, a voltage block of Y coordinate, a diaphragm generator, control block and video monitoring device.

A disadvantage of the known device is the inability to arbitrarily change the discreteness of the video signal sampling, the insufficient accuracy of the diaphragmization of the raster section and the lack of visual control over the conversion process.

In the device of the proposed construction, these objectives are achieved by introducing a controlled frequency divider, a mixer and a specific connection of other units.

A block diagram of a device for converting a television signal is shown in the drawing.

The described device contains a television sensor 1, a gated cascade 2, an analog-digital converter 3, a generator of 4 gating pulses, a block 5 of X coordinate voltage, a generator of 6 sampling pulses, a controlled frequency divider 7, a generator & diaphragm signals, unit 9 of the voltage of the coordinate Y, unit 10 of the control, mixer 11, synchronous generator 12, video monitoring device 13. The device works as follows. The video signal from the television sensor is fed to the gated cascade, where it is carried out using a gating pulse,

generated by the gating pulse generator, sampling of a single video signal element during a single horizontal scanning period, and elements selected at one frame have the same coordinates, the raster segment on which sampling is performed is limited by a rectangular aperture, the signals of which are generated by the diaphragm generator and fed to gating pulse generator and block

coordinates Y. The signal from the output of the gating cascade enters the analog-to-digital converter, and the latter converts it into a binary code. The coordinate codes X, Y are the points at which the video signal is sampled by a block of coordinates Y and a block of coordinates A. To form a strobe pulse, pulses of the sampling pulse generator are fed to the gating pulse generator, and discrete switching

The video signal samples are produced by a power frequency divider controlling the formation of a strobe on the line. The control of the diaphragm of the desired object and the video signal conversion process is performed by applying to the video monitoring device a signal from the mixer output, to the input of which a strobe pulse is output from the strobe pulse generator, a video signal from the television sensor output and a signal from the diaphragm generator output. The control unit for supplying its signals to the Y coordinate coordinate, the X coordinate unit and the diaphragm generator generates the control of the start and end of the video signal conversion into code. The clock generator synchronizes the operation of all blocks of the device. The video signal from the output of the television sensor is not fed to the analog-to-digital converter continuously, but during the time of each line only for a short period of time corresponding to approximately the transfer time of one image element in the bodies of the viewing system. Moreover, the video signal is sampled on each line (for one frame) at the same point along the X axis. This is achieved by applying a corresponding duration to the gated cascade in each line of the strobe pulse. The generation of a strobe pulse is produced by a strobe pulse generator, which counts the number of pulses of the sampling pulse generator received through the switchable frequency divider, and at the moment when their number is equal to the X number recorded in the X coordinate block, a strobe pulse is generated. The number written to the block is incremented by one after the end of each frame, and thus, in the next frame, the pulse is generated at the time defined by the X coordinate. The counting of the number of pulses from the generator starts after the signals from the diaphragm generator arrive at the block, thus. m, selectively converting a portion of the television image. After the appearance of the permitting signal from the generator of diaphragm sigals, the coordinate block Y counts the number of scanned lines, forming the code of the sample line number. The switchable frequency divider, by dividing the number of pulses of the sampling pulses generator, allows changing the sampling step in X and Y. The generator generation frequency is fr Zf page where is the horizontal scanning frequency; t - -, & t where Gst is the time of the forward stroke of the line; D / is the minimum sampling step. Applying the gating pulse generator to the frequency fr, we get the minimum sampling step, i.e. the number of samples on the line is maximal, giving this frequency block -G-, -, etc., we get the number of samples on L | J / 2 line in two, three / g times less than the maximum. To change the vertical resolution of samples from the same switchable frequency divider, clock TOT / ST signaling signals are thereby provided, thereby forming a strobe on each row, on every second row, on every nth row, i.e. from one discreteness of samples to another at the same time, both in rows and a frame, the selection of a fragment for transformation on the raster is carried out by the operator by adjusting the duration of the signals of the diaphragm sigals generator and are visual m monitoring the position of the diaphragm on the video monitor. The conversion process on the screen of a video monitor is indicated by a vertical light strip moving inside the diaphragm, which is a strobe signal. Mix all the signals for visual control of the manufacturer on the video mixer. The control unit provides control of the start of the video signal conversion to the code and the automatic stop of the device after the end of the conversion of the selected portion of the image. The stop occurs after the first point of the sample falls outside the diaphragmized area. The subject of the invention 1. A device for converting a television signal into digital form, comprising a television sensor, a gated cascade, an analog-to-digital converter, a strobe pulse generator, a sampling pulse generator, a voltage block of the X coordinate, a voltage block of the coordinate of the Y coordinate, a diaphragm signal generator, a block control and video monitoring device, characterized by the fact that, in order to arbitrarily change the discreteness of the video signal sample, between the sampling pulse generator and a strobe pulse generator is switched on a controlled frequency divider. 2. The device according to claim 1, characterized in that, in order to increase the accuracy of the diaphragm of the raster section, the output of the diaphragm signal generator is connected to the inputs of the gating generator, the voltage block of the Y coordinate and the control unit. 3. The device according to paragraphs. 1, 2, characterized in that, for the purpose of visual control of the conversion process, a mixer is connected between the television sensor and the video monitoring device, the inputs of which receive signals from the outputs of the diaphragm generator and the gating pulse generator.