SU1182572A2 - Device for magnetic recording and reproducing - Google Patents

Abstract

DEVICE FOR DIGITAL MAGNETIC RECORDING AND REPRODUCTION on auth. No. 1040514, characterized in that, in order to increase the accuracy of analyzing the reliability of recorded and reproducible video signals by stabilizing the levels of these signals in each of the selected ranges, a bus for supplying a constant voltage, a bus for giving control signals of a gain factor, is introduced into it supplying conversion control signals, a bus for supplying comparison process control signals, a switch, a digital-to-analog converter, a subtractor and a common amplifier, the first input of the block The subtraction is connected to the output of the peak detector, the second input is to the bus. To supply DC voltage, the output is to the first input of the common amplifier, the second input of this amplifier is connected to the bus to feed the gain control signals, the output is to the input of an analog-to-digital converter, one from the inputs of the digital-to-analog converter is connected to the bus for supplying § conversion control signals, the remaining inputs are connected to the corresponding outputs of the third register, the output is connected to one of the fixed contacts of the switch The second fixed contact of which is connected with the input of the fourth register, movable with the input of the recorder, and the bus for supplying control signals with the IND process of comparison is connected to a separate input of the comparison unit. ate yu

Description

1 The invention relates to instrumentation, in particular to devices with which it is possible to implement digital magnetic recording and playback of video signals, and is in addition to the main one described in the author. No. 1040514 The purpose of the invention is to improve the accuracy of analyzing the reliability of recording and reproducing video signals by stabilizing the levels of these signals in each of the selected ranges. The drawing shows a block diagram of the device. The diagram shows an input bus 1 connected to a peak detector 2 and a pulse shaper 3, which is connected to an analog-digital converter 5 and a generator 6 of a series of pulses through a conversion unit 4. A subtractor 7 is connected between the peak detector 2 and the analog-to-digital converter 5, the second input of which is connected to the bus 8 for applying a constant voltage, and the amplifier 9, the second input of which is connected to the bus 10 for supplying control signals of the gain factor. The output of the analog-to-digital converter 5 is connected via register 11 to register 12, decoder 13, and elements 14, between the outputs of which and the two inputs of register 12 are included OR elements 15. Meladic output of the decoder 13 and the second inputs of elements 14 are connected in series trigger 16 and relay 17 time. In turn, the trigger output 16 through the elements And 18 connected to the second inputs of the elements OR 15, and through the pulse shaper 19 - with a counter 20 pulses, the outputs of which are connected to the second inputs of the elements 18. The magnetic recording head 21 is connected to a separate the input of the register 12, and the magnetic head 23 of the playback is connected to the register 24, one of the inputs of which is connected to the conversion unit 25 through the serially connected playback amplifier 26 and the information recovery unit 27. The register 24 is connected to the output information buses 28 and with the comparison unit 29, the register 30 is connected to the other inputs, and the conversion unit 25 is connected to the synchronization bus 31. The device comprises a switch 32 loaded on the recorder 33 and a bus 34 for supplying the control signals of the comparison process, a digital-to-analog converter 35 and a bus 36 for supplying the signals of the conversion control. The device can operate both in the video signal recording mode and in the playback mode. In the recording mode, the video signal is fed through the input bus 1 simultaneously to the peak detector 2 and the shaper of 3 pulses. Detector 2 selects the envelope and feeds this signal to subtractor 7, to the second input of which a constant voltage is applied via bus 8 corresponding to the lower value of the range of the recorded signal. The signal amplified to the required degree in the amplifier 9 is fed to the analog-to-digital converter 5. And since the gain is controlled via the bus 10, it is possible to switch to the desired recording range. The shaper 3 generates pulses under the conditions of the voltage crossing the input signal of the zero level and feeds them to the conversion unit 4, the conversion factor of which corresponds to the step of sampling the envelope of the video signal into a digital code. The output pulse from block 4 permits the converter 5 to transmit code to register 11, register 12, to element 14 and decoder 13. At the same time, elements 14 are open with potential from trigger 16. In addition, the pulse from block 4 starts generator 6, which creates a series pulses that shift the register code 12, which will be recorded later through block 22 and head 21 to the information carrier (not shown). Similarly, the device operates throughout the entire line of the input signal. In the presence of a sync pulse, the decoder 13 is activated, the output pulse from which triggers trigger 16. and starts the time relay 17. Then the driver 19 is triggered, the number of output pulses of which, and hence the number of rows in the input signal, counts the counter 20. Since, during the presence of a sync pulse, the AND 18 elements are opened by another output potential of the trigger 16, the counter code 20 goes through the OR 15 elements to the register 12. The duration of the output signal of the relay 17 is equal to the duration of the sync pulse and when this relay is triggered, the trigger 16 reverses and switches to the state at which the input values are recorded on the reading medium deosignal. During playback, the signal from head 23 goes to amplifier 26 and then to block 27 from the output of which the code pulses arrive at register 24, and the sync pulses go to conversion unit 25 and simultaneously to another input of register 24. Conversion factor of block 25 is equal to the number of bits Dov one code group. An impulse of this group is fed from to, bus 31 and to block 29 of comparison. And then the code in register 30 724 is received when there is a pulse at the output of block 29, which differs from the others by a specified amount. The code in the register 30 comes from the bus 28. The pulse from the block 29 is also fed through the switch 32 to the recorder 33, which displays the incoming information in the form of isolines. By means of the bus 34, intended to provide the signals of the control of the comparison process, the difference of the codes is controlled. Depending on the size of this value, the number of isolines varies in the analyzed range of the input signal. Using the switch 32, the digital-to-analog converter 35 can also be connected to the recorder 33, and the output code from the buses 28 converts to voltage. With the help of bus 36 for supplying conversion control signals, the number of bits of the converter 35 is controlled, and consequently, the control of the number of image gradations registered by the recorder 33 is controlled.

Claims (1)

DEVICE FOR DIGITAL MAGNETIC RECORDING AND PLAYBACK by ed. No. 1040514, characterized in that, in order to improve the accuracy of the analysis of the reliability of recorded and reproduced video signals by stabilizing the levels of these signals in each of the selected ranges, a bus for supplying constant voltage, a bus for supplying gain control signals, a bus for supplying signals are introduced into it conversion control, a bus for supplying control signals for the comparison process, a switch, a digital-to-analog converter, a subtraction unit and a common amplifier, while the first input of the calculating unit power supply is connected to the output of the peak detector, the second input is connected to a bus to supply constant voltage, the output is connected to the first input of a common amplifier, the second input of this amplifier is connected to a bus to supply gain control signals, the output is to the input of an analog-to-digital converter, one of the digital-to-analog inputs the converter is connected to the bus for supplying conversion control signals, the rest of the inputs are with the corresponding outputs of the third register, the output is with one of the fixed contacts of the switch, the second izhny contact of which is connected with the input of the fourth register, movable - with a recorder input for supplying a tire comparison process control signals is connected to a separate input of the comparator.