SU978189A1 - Device for data magnetic recording and reproduction - Google Patents

Description

digital information, such as a television signal, represented by a binary to one. The purpose of the invention is to increase the efficiency of using magnetic lezity by increasing the recording density and reducing the amount of tape occupied by service information. Increasing the recording density leads to an increase in the recording speed of information and capacity of the device. This goal is achieved by the fact that a device containing successively connected television source, transform node and receiver of this signal, as well as serially connected and digital information source, encoder, recording switch, the second input of which is connected to the second output of a television signal transducer node, and an aapis-playback 11inducer amplifier unit connected to rotating magnetic heads, an electronic switch connected between the outputs of the recording-playback amplifier unit and and the second input, the converting television signal, the decoder associated with the digital information receiver input and the separate reference generator, are sequentially connected to the output of the electronic switch of the comparator integrator and synchronization switch, the second input of which is connected to the third output of the television signal, and the output is connected to the synchronization input of the electronic switch, as well as sequentially connected to the output of the reference generator, a trigger generator and generator p clock pulses whose output is connected to the synchronization input of the digital information source, while the comparator output is also connected to the decoder input. FIG. 1 is a structural diagram of the device; in FIG. 2 - di a1 signal frames. The device contains a television signal source 1, a receiver of a television signal, a digital information source 3, an encoder 4, a digital information receiver 5, a decoder 6, a comparator 7, an integrator 8, a synchronization switch 9, a trigger generator 10, start pulses, a clock generator 11, a VCR . 12, television conversion unit 13, recording switch 14 electronic switch 15, recording-reproduction amplifier unit 1, reference generator 17, rotating magnetic heads 18. A television signal from the output of source 1 is fed to the recording input of the television-conversion signal 13 video magnet (. f) 12. The digital code from the output of the digital information source 3 is input to the encoder 4, from the output of which the recording signal is connected to the rewriting input of the recording switch 14. From the recording output of the television signal conversion section 13, the frequency-modulated signal is fed to the input of the recording compiler 14. From the output of the compactator 14, the signal is fed to the input of the recording-playback amplifiers and then to the magnetic heads 18. From the output of the recording-playback amplifier 16, the reproduced signal is fed to the electronic switch 15, from which output the signal enters the playback input node 71a and to the input of the comparator 7. From the playback output of the evil transformation of the television signal 13, the reproduced television signal arrives at the input of the receiver of the television signal 2. From a computer The pulse signal 7 is fed to the inputs of the decoder 6 and the integrator 8. The reproduced digital code from the output of the decoder 6 is fed to the receiver 5 of the digital information. From the output of the integrator 8, the synchronization pulses of the digital signal are fed to the first input c 1 of the synchronization switch 9, to the second input of which the synchronization pulses of the television signal come from the synchronization output of the television signal 13 conversion. The output of the synchronizer 9 is connected to the synchronization input of the electronic switch 15. From the output of the reference generator 17, double horizontal frequency pulses are fed to the driver 10 trigger pulses, from which output the trigger pulses go to the generator input 11 clock pulses. From the output of the clock-pulse generator 11, information synchronization pulses are fed to the synchronization input of the digital information source 3. To increase the recording density of digital information on a VCR, it is necessary to record digital codes not as frequency-modulated signals, but as digital magnetic recording signals. When writing a binary code using a frequency-modulated signal, the recording speed of information and proportional to it are always limited by the upper limit frequency of the magnetic recording channel, and with digital magnetic recording, the information recording speed may exceed the upper frequency of the band. , For recording and reproducing a digital signal, the device uses a recording and reproducing system of a frequency-modulated signal of a VCR 12, which includes a recording switch 14, a block 16 of recording-reproduction amplifiers, magnetic heads 18 and an electronic switch 15, In accordance with the serial digital code By the digital information source 3, the encoder 4 generates a digital recording signal, which is fed to the rewrite input of the recording switch 14. The recording switch 14 provides a recording-reproduction amplifier or a frequency-modulated television signal or a digital signal to the input. Blocks of digital information are separated by intervals of duration t ;;; (Fig. 2a) following with a period equal to the period of the lines of the television signal. The value of t. must exceed the switching time of the rotating magnetic heads in order to avoid distortion of the reproduced signal by the switching noise occurring in the electronic switch 15. The structure of the digital signal is organized by means of the driver 10 trigger pulses, the output signal icoToporo is shown in FIG. in fig. 2c.

Horizontal frequency pulses are generated from a double horizontal frequency pulse, obtained from the output of the reference oscillator 17 of the VCR 12 operating in the internal synchronization mode. The pulses of the generator 11 synchronize the output of code symbols by the source of digital information 3. The reproduced digital signal from the output of the electronic switch 15, which commits the rotating magnetic heads 18, is fed to the comparator 1, which restores the original pulse form of the digital signal from the reproduced sinusoidal signal. The decoder 6 converts the reproduced pulsed digital signal into a sequence of code symbols that are fed to the digital information receiver 5. The integrator 8 extracts from the pulsed digital signal the synchronization pulses of the electronic switch corresponding to the intervals between blocks of information. The use of an integrator in this case is possible in view of the significant difference between the lengths of the interval tc and the pulses for recording the characters of the code m ;. The synchronization switch 9 provides to the synchronization input of the electronic switch 15 pulses allocated either from a digital signal or from a television reproduced signal. The television signal conversion unit 13 performs the functions of a modem and a selector of synchronization pulses of the electronic switch 15.

When recording digital information in the device, the amount of magnetic tape occupied by service information,

at least an order of magnitude less than in the prototype device. Consequently, the magnetic tape in the proposed device is used more efficiently. If it is necessary to record continuously the amount of information exceeding the capacity of a magnetic tape reel in a known device, the proposed device allows reducing the number of video tape recorders required for this.

Claims (1)

Invention Formula A magnetic information recording and reproducing device comprising a television signal source connected in series, a transformation unit thereof and a receiver of this signal, as well as serially connected digital information source, an encoder, a recording switch, the second clock of which is connected to the second output of a television signal conversion unit, and a recording / playback amplifier unit connected to rotating magnetic heads, an electronic switch connected between the outputs of the recording / playback amplifier unit and a second input of a television signal conversion unit, a decoder associated with the input of the receiver, digital information and a separate operatic generator, characterized by In order to increase the efficiency of the use of magnetic tape, the comparator, integrator and synchronization switch, the second input of which is connected to the third output of the television signal transducer node, are inputted into the device, and the output is connected to the synchronization input of the electronic switch as well as consistently connected to the output of the reference generator, a start pulse generator and a clock pulse generator, the output of which is connected to the synchronization input of the digital information source, while the comparator output is also connected to the decoder input. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 477453, cl. G 11 B 5/02, 18.02.74. 2, USSR Author's Certificate No. 569049, cl. H 04 N 5/78, 06.26.75 (prototype). I I I I I I I I I I I I I Ш1 and I I I I I I