SU974601A1 - Television signal recording and reproducing device - Google Patents

Description

one

The invention relates to television and can be used in magnetic video recording devices and in various television systems.

A television signal recording and reproducing apparatus is known, comprising first, second and third gracnecons. The deflecting systems of the recording and reading sections of the first and second gracnecons are connected respectively to the first and second blocks. horizontal and vertical scanning, a-deflecting systems of the recording and reading sections of the third gracnecon are connected respectively to the third and fourth blocks of horizontal and vertical scanning; the output of each horizontal scanning unit is connected to the first input of the corresponding vertical scanning unit and magnetic recording and scaling signal recording heads , a magnetic video readout head connected to the input of the third gracnecon, a magnetic readout head of the scale signal connected with the input of the third horizontal scanner unit, the first identification signal generating unit, a delay line whose output through the first identification signal generating unit is connected to the input of the first gracnecon, the output of which is connected to the video recording magnetic head, the sync selector, whose input is connected to the output of the delay line, phase a discriminator, the first and second inputs of which are connected respectively to the outputs of the first and second vertical scanning units, horizontal definition and vertex control units ticks, the inputs of which are connected to the output of the phase discriminator, 20 the first scale signal generation unit, the first input of which is connected to the output of the horizontal definition control unit, and the output to the first input of the first horizontal scanning unit and to the input of the second gracnecon, the output of which is connected to the magnetic the scaled signal recording head, a synchronous generator, the first input of which is connected to the output of the vertical definition control unit, the second input is connected to the output of the sync selector, the first output is connected with the second input of the first signal generating unit, and the second output with the second inputs of the first horizontal and vertical scanning units, the first frame recognition unit, the input of which is connected to the output of the third gracnecon, reading repeat unit, the input of which is connected to the output of the first identification unit frames, and the output - with the second input of the fourth block of vertical scanning fl | J. However, the device has a WIDE bandwidth when recording and playing television signals. The purpose of the invention is to reduce the frequency band when recording and reproducing television signals. For this purpose, a television signal recording and playback device containing the first second and third gracnecons, wherein the deflecting systems of the recording and reading sections of the first and second grafecones are connected respectively to the first and second horizontal and vertical scanning units, and the deflecting systems of the sections the recording and reading of the third gracnecon are connected respectively with the third and fourth blocks of horizontal and vertical scanning, with the output of each horizontal scanning block being connected to the first input the house of the corresponding vertical scanner unit, video recording and scale signal recording heads, a video signal reading magnetic head connected to the input of the third gracnecon, a scale signal reading magnetic head connected to the input of the third horizontal scanning unit, the first block

Claims (1)

generating identification signals, the delay line, the output of which through the first generation of generation of identification signals is connected to the input of the first gracnecon, the output of which is connected 55 is connected to the control inputs of the corresponding video recording magnetic head, the sync selector whose input is connected to the output of the line and holding memory blocks, the outputs of which are connected to the second the inputs of the first and second blocks of the subtraction, the first and second blocks of control, the outputs of which go down the first and second blocks of memory, the logical element And the output of which It is connected to the control input of the first ki, the phase discriminator, the first and second inputs of which are connected respectively to the outputs of the first and second vertical scanning units, horizontal and vertical definition control units, the inputs of which are connected to the output of the phase discriminator, the first scale signal generating unit, the first the input of which is connected to the output of the horizontal definition control unit, and the output is connected to the first input of the first horizontal scanning unit and to the input of the second gracnecon, the output to expensively connected to the magnetic head, recording a scale signal, a synchronous generator, the first input of which is connected to the output of the vertical definition control unit, the second input is connected to the output of the sync selector, the first output is connected to the second input of the first identification signal forming unit; and the second output is connected to the second inputs of the first horizontal and vertical scanning units, the first frame recognition unit, the input of which is connected to the output of the third gracnecon, the read repetition unit, the input of which is connected to the output of the first frame recognition unit, and the output is connected to the second input of the fourth block vertical scanner, introduced the second signal generation unit identification, the output of which is connected to the second input of the first scale signal generation unit and to the input of the delay line, the first and second Electronic switches, the first and second delay blocks, the outputs of which are connected respectively to the first and second inputs of the first electronic switch, the output of which is connected to the first input of the second identification signal generation unit, the first and second subtraction blocks, and the output of the first subtraction unit is connected to the input of the second block delays, and the output of the second subtraction unit is connected to the second input of the second electronic switch; the first and second electronic switches and the second input of the second signal generation unit, the second scale signal generation unit, the input of which is connected to the output of the first subtraction unit, the first input of which is connected to the inputs of the first delay unit, the first memory unit, the integrator, whose input connected to the output of the second scale signal generation unit, and the integrator output is connected to the second input of the logic element AND, the frame definition unit whose input is connected to the integrator output, and the output one is connected to the input of the first control unit, the first input of the logic element AND, the third input of the second identification signal generating unit and the control input of the phase discriminator, the line recognition unit whose output is connected to the control input of the second electronic switch, the second frame recognition unit the output of which is connected to the input of the second control unit, and the input is connected to the output of the third grafecone, the inputs of the second memory unit and the line recognition unit, the first inputs of the second subtraction unit and the second electronic switch.  The drawing shows a block diagram of the proposed device.  The device for recording and reproducing a television signal contains a logic transducer 1, consisting of the first control unit 2, the logical element AND 3, the frame definition unit k, the integrator 5, the first and second delay blocks 6, 7, respectively, the first memory block 8, the first subtraction unit 9, second scale generation signal 10, the first electronic switch 11 and the second identification signal generation unit 12 encoding the time converter 13, which is from the clarity control unit 14, which holds the horizontal definition control unit 15, the vertical definition control unit 16, phase discriminator 17 and synchronous generator 18, blocking lines 20 for support 19, first recognition, world alignment of graphecons 21, first and second first blocks, respectively, scale 23 of the formation 24 the horizontal signal, the first block scan, the first vertical scanner unit 25, the second horizontal scanner unit 26, the second vertical scanner unit 27 and the sync selector 28, the recording head unit 29 consisting of a magnetic head Signs 30 of the video signal recording and magnetic head 31 of the scale signal recording, a block of 32 reproduction heads, consisting of a magnetic video reading head 33, and a magnetic head 3 of the scaling signal, decoding the time converter 35, consisting of the third BG graphekon, read-repeat block 37 , the third horizontal scanning unit 38, the third vertical scanning unit 39, the fourth horizontal scanning unit 40, the fourth vertical scanning unit A1 and the first recognition unit 2 frame oh, a decoder 43 consisting of a second electronic switch kk, a second recognition unit kS, a second frame control unit 46, a second storage unit kj, a second subtraction unit 48, and a row recognition unit 49.  The device works as follows.  When recording moving images, the video signal from the source enters the logic converter 1, where it is delayed in the first block 6 of the delay for the duration of one line, then the first electronic switch 11 passes, the second block 12 forms the identification signals and is fed to the input of the time converter 13, which encodes and compresses the video signal, with the result that the compressed video signal and the compressed scale signal are recorded by the tape recorder block 29.  The video signal through the delay line 19 and the first identification signal generating unit 20 enters the recording section of the first grafekon 21.  The first scale signal generation unit 23 also receives the video signal and generates a scale signal, which is fed to the input of the second gracheon 22 and to the first input of the first horizontal scanning unit 24.  This unit, the controlling, diverting systems of the recording sections of the first and second gracnecons 21, 22, provides. line scan recording electric ::, o: ;; , rays.  The speed of movement of these beams varies in accordance with the scaling signal.  In this case, the gracneco amplifiers must provide the necessary correction associated with a change in the recording speed (not shown in the drawing). The first vertical scanning unit 25 receives the signal from the first horizontal scanning unit 2A and, by turning the deflection systems vertically, provides a predetermined horizontal density. the recording tracks on the screens of the first and second gracnecons 21, 22, the second horizontal sweep block 26 and the second vertical scan block 27 control the deflection systems of the scanning sections yvani first and second grafekonov 21, 22 and provide a reading at a reduced constant rate of compressed videosig Nala and compressed scale signal.  which are respectively recorded on magnetic tape by magnetic heads 30 and 31.  With this method of recording a teleaizable signal, different frames can be different for a magnet-1 carrier of different lengths along the length of the segment, but in media: one frame is the segment W g- ;; / ;;; -:; O1 length.  If n arrive with great redundancy,:. : i :: l / lr takes on the magnetic: y,. ::;,) e: ioK smaller than the mouth:; | d - In the case, you can, for example, somatically provide pauses. l / GECHI UHP-U reduce the degree of RE in the state of receiving images of the image of each frame. the segment is longer than that. It is necessary to compress the video signal while reducing the number of x images provided with a clear definition.  electron beam in grams;) ::; ggs with some lagging; - ksivasshego- W43 and this note on the list of records; atsI -1 3 grafecon, defined:. g: znost 0 phases on E (outputs OiOpcro blocks 25, 27 verGetzzertokg which connect; seg. with the first and second, :: - gozorah discriminator |; whose signal is postjK 15, at a resolution of 97 8 horizontally.  This unit changes the frequency parameter of the first scale signal generation unit 23 and thus changes the horizontal clarity.  The vertical definition is changed because it is possible in the gracnec to periodically provide for the skip of one field of decomposition of a television frame, and during playback this frame is determined and this field is read twice in the gracone.  For this, the vertical clarity control unit 16, receiving a signal from the phase discriminator 17, switches the synchronous generator, 18 to the generation mode of multiple frequencies.  This device generates pulses of fixed frequencies, corresponding to the frame frequency, as well as corresponding to every second frame, every third and every fourth frame.  Due to the fact that synchronization is provided with the help of a sync selector 28, the synchronous generator 18 controls the operation of blocks 2, 25 horizontal and vertical scanning, turns off scanning and recording for the time of one field at the beginning of every fourth frame, and with decreasing image redundancy of every third second and Finally, one decomposition field of each frame is recorded, which corresponds to a twofold decrease in vertical definition.  The frame sync pulses for such frames are labeled with special identification signals by the first identification signal generation unit 20, which is controlled by the synchronous generator 18. Thus, the clarity control node makes it possible to bring the video signal compression ratio to the required magnitude for all types of images by changing the image clarity.  If the clarity control node is turned off for the duration of a frame, this frame is recorded on magnetic media with maximum clarity.  This property is used in this site.  To do this, it is not enough to turn off the phase discriminator 17; therefore, a control circuit is inserted in it, which will be the control circuit of the clarity control node.  8 in this case, so as not to disrupt the automatic control process.  gracnecons should have a large amount of memory.  In addition, in the recording process in the logic converter 1, the incoming television signal is also given to the first input of the first subtractor and to the first memory block 8, in which the incoming frame is stored and the previous frame is read for the second input of the first subtraction unit 9.  Thus, in the first subtraction unit 9, each line of the incoming frame is subtracted from the corresponding line of the previous frame and the resulting difference signal is fed to the second scale signal generation unit 10, which produces a scale signal for the difference signal to the integrator 5.  In this block, this scale signal is fed to an integrating circuit with a storage capacitor, which is used to determine the possible compression of the difference signal.  If the voltage reaches a certain threshold value at the end of the line on the storage capacitor, then this differential signal of the given line can be significantly compressed, which is typical for similar lines and for a slow-moving image.  In this case, a control pulse is produced, which arrives at the second input of the logic element 3 and in the frame definition block A, in which these pulses are counted. and, thus, the arrival of a sedentary image is determined.  One of the initial frame of a low-mobility image (e.g., fifth) becomes a model frame for subsequent frames.  For this, the frame definition unit sends control pulses to the following devices: to the control circuit of the definition control node 1 of the encoding time converter 13, as a result of which the exemplary frame is recorded with maximum clarity; to the second input of the second identification signal generating unit 12, which pushes the frame sync pulse for the sample frame with the identification signal; to the first input of an AND 3 logic element, with the result that o6ec bakes the operation of the first electronic switch 11 for subsequent frames; to the first control unit 2, which, controlling the operation of the first memory block 8, provides for a record in it, and then multiple reading of a sample frame.   After that, in the first subtraction block 9, each line of the incoming frame is subtracted from the corresponding line of the sample frame and, if it is possible to significantly compress a certain line of the differential signal, then, having performed a predictive analysis for this line, the integrator 5 switches the first electronic switch 11 through the logical element 3 for the same line, since the difference signal comes from the first subtraction unit 9 to the second input of the first electronic switch 11 through the second delay unit 7, where it is delayed by the time one line of television signal.  The control pulse is also fed through the logic element AND 3 to the third input of the second identification signal generating unit 12, which marks the horizontal sync pulse of the difference signal with an identification signal.  The differential signal, alternating with the television signal, is fed to the encoding time converter 13 and is recorded on a magnetic carrier in this manner.  When a significant change in the image (or change of images) occurs, the integrator 5 begins to deliver less control pulses to the frame definition unit k, which in this case switches the logic device 1 to the initial operation mode.  During playback, the compressed video signal is read by the magnetic head 33 and is fed to the input of the third grachecone 36. The compressed scale signal is read by the magnetic head 3 and fed to the input of the third horizontal scanning unit 38, which, by controlling the deflecting system of the third graphekon recording section, changes the recording movement speed the electron beam in accordance with the scale signal, as a result of which the original form of the television signal or nostnogo signal.  The third vertical scanning unit 39 receives a signal from the third horizontal scanning unit ZV and, controlling the vertical deflection system, provides a predetermined density of horizontal recording tracks on the screen of the third gracnecon 36.  The fourth horizontal scanning unit 40 and the fourth vertical scanning unit 1 control the deflection systems of the reading section of the third gracone 3B and provide the readout of the reconstructed video signal.  The first block is k.  frame recognition detects the arrival of a frame sync pulse with a special identification signal and sends a control pulse to the read-repeat block 37, which controls the operation of the fourth vertical scan unit k.  In the readout section of the third gracsecon 36, the scanning of the electron beam is changed in such a way that after reading the First half frame, the returning room of the reading beam is returned to a certain segment along the vertical corresponding to one decomposition field on the screen, and this half frame is read a second time, resulting in correct image.  Thus, in the time decoding converter 35, the original form of the television signal or the differential signal is restored.  When reproducing moving images, the video signal from the output of the decoding time converter 3 is fed to the input of the decoder 43 in which. h it passes the second electronic switch k and arrives at the output of the attached device.  When a sedentary image begins to arrive, the second identification unit 5sadr 45 determines the arrival of an exemplary frame on a frame sync pulse with an identification signal and delivers a control. a pulse in the second control unit 46, and the result of which the exemplary frame is recorded in the second memory block -47) and then periodically read (synchronously with the arrival of the next frame, and fed to the second input of the second subtractor 48, and the incoming video signal is fed to the first input of this devices.  In the second subtractor block 48, each line of the incoming frame is subtracted from the corresponding line of the sample frame and, if a difference signal is received, the result is the initial television signal that is fed to the second input of the second electronic switch 44.  The line recognition unit 49 determines the arrival of the difference signals from the horizontal sync pulses with the identification signals and, by controlling the operation of the electronic switch 44, provides appropriate switchings in it, with the result that the original video signal is output to this device.  Thus, the proposed device provides a significant reduction in the bandwidth of a video channel, which allows it to be used to transmit a television signal.  DETAILED DESCRIPTION OF THE INVENTION A television signal recording and reproducing apparatus comprising first, second and third graphograph.  In this case, the deflecting systems of the recording and reading sections of the first and second gracnecons are connected respectively to the first and second blocks of horizontal and vertical scanning, and the deflecting systems of the sections. recording and reading the third gracnecon are connected respectively to the third and fourth blocks of horizontal and vertical scanning, with the output of each horizontal scanning block connected to the first input of the corresponding vertical scanning block, magnetic recording heads of the video signal and the scale signal, the magnetic reading head of the video signal connected to the third grafone’s input , magnetic head, readings of a scale signal connected to the input of the third horizontal scanning unit,. the first identification signal generating unit, the delay line, the output of which through the first identification signal generation unit is connected to the input of the first gracnecon, the output of which is connected to the video recording magnetic head, the sync selector, whose input is connected to the output of the delay line,; phase discriminator; the first and second inputs of which are connected respectively to the outputs of the first and second vertical scanners, horizontal and vertical definition control blocks, whose inputs are connected to the output of the phase discriminator, the first scale signal generation unit, the first input of which is connected to the output of the definition control block horizontally, and the output is connected to the first input of the first horizontal scanning unit and to the input of the second gracnecon, the output of which 1 is connected to the magnetic head of the scale signal recording, synchronous generator i whose first input is connected to the output of the vertical definition control unit, the second input is connected to the output of the synchronizer, the first output is connected to the second input of the first identification signal generating unit, and the second output is connected to the second inputs of the first vertical and horizontal scan blocks, the first frame recognition unit, the INPUT of which is connected to the output of the third grachec, the readout repetition unit, whose input is connected to the output of the first frame recognition unit, and the output is connected to V By the fourth input of the fourth vertical scanning unit, characterized in that, in order to reduce the frequency band when recording and reproducing television signals, a second signal generation unit is introduced. the identification, the output of which is connected to the second input of the first block, forms the scale signal and the input of the delay line, the first and second electronic switches, the first and second blocks of the delay, the outputs of which are connected to the first and second inputs of the first electronic | Go switch, the output of which is with the first input of the second formative signal recognition unit, the first and second subtraction units, the output of the first subtraction unit 01I connected to the input of the second delay unit, and the output of the second subtraction unit The first and second memory blocks, the outputs of which are connected to the second inputs of the first and second subtraction blocks, the first and second control blocks, the outputs of which are connected to the control inputs of the first and second memory blocks, respectively, And element, the output of which is connected to the control input of the first electronic switch and to the second input, the second signal generation unit, the second scale signal generation unit, the input of which is connected to the output the house of the first blocks of Umitani, the first entrance, which is connected to the inputs of nepBorq.  the delay unit, the first memory block, the integrator, the input of which is connected to the output of the second scale signal generation unit, and the integrator output is connected to the second input of the logic element, And, the frame definition unit, whose input is connected to the integrator output, and the output is connected to the input of the first block control unit, with the first input of the logic element I, with the third input of the second signal generation unit and the control input of the phase discriminator, the line identification unit whose output is connected to the control input nor the second electronic switch, the second frame recognition unit, the output of which is connected to the input of the second control unit, and the input is connected to the output of the third gracneca, the inputs of the second memory block and the line recognition unit, the first inputs of the second subtraction unit and the second electronic switch.  Sources of information taken into account during the examination 1.  USSR author's certificate in application number 2650893 / 18-09.  cl.  H OA N 5/78, 31. 07 78 (prototype).  . {- - -I -p Qtix