SU736165A1 - Information reproducing method - Google Patents

Description

one

The invention relates to instrumentation and can be used in the technique of digital magnetic recording to reduce the effect of media skews on the reliability of reproduction in conditions of unstable speed of its movement 5 in a tape machine.

There is a method of reproducing information from a multi-track magnetic medium, which involves reproducing information signals, storing them, generating group signals and voing the product of the line code for the last of the group signals 1.

However, this method imposes a restriction on the structure of the line — the obligatory j presence during playback of its elements of several pulses necessary for synchronization. This is due to the fact that this method involves the reproduction of a string without recording — reproducing special sync signals — using information signals for this purpose, i.e. it is inherently a self-synchronizing way of reproducing information.

Of the known methods, closer to the technical essence and the achieved effect to the proposed is a method for reproducing information on which information and synchronization signals are recorded and stored on a multi-track medium recorded by line-by-line parallel code on a multi-track medium, and also form gates for reproducing information lines, on the falling front of which the line code is reproduced. In this case, the sync signal is reproduced from a special sync track, located in the middle and formational tracks.

However, this method has a significant drawback consisting in insufficiently correct reproduction of information under conditions of increased recording density and transverse-longitudinal instability of movement of the information carrier regarding the heads in the recording-reproduction cycle (presence of distortions and inconsistency of longitudinal speed).

Claims (2)

In order to ensure the correct reproduction of the information line, the following condition must be observed: its generation time, i.e. the time interval from the moment of fixation of the first bit. up to the moment of fixation of the last bit should not exceed the period of following lines. Under conditions of stable speed of movement and absence of carrier skew, this condition is observed. In this case, the recording density is maximum. The presence of carrier skewing, even at a stable speed of its movement, limits the recording density with the calculation by the magnitude of the expected maximum skew. Therefore, this method provides for a constant string formation time, based on a given recording density at the maximum value of the expected carrier skew. And this time is determined by the constant duration of the strobe pulse, at a given front of which the line is reproduced. The purpose of the invention is to increase the reliability of reproduction of information in the conditions of transverse-longitudinal instability of movement of the information carrier. This goal is achieved by the fact that, after reproducing signals, the current follow-up period is synchronized, their pulses are saved, the synchronizing impulse of each current line is delayed by an amount equal to the memorized half-cycle of following the synchronizing signals of the previous line, and then the gates are reproduced. The method involves generating a gating pulse for reproducing the first information line on the delayed synchronizing pulse of the zero line additionally recorded on the media, the reproduction of which is prohibited. In the method, the duration of the period of the sync signals reproduced from the information carrier is converted into a binary code, and the delay of the sync signal by which a strobe pulse is produced that reproduces the string is reversed by converting the corresponding code into a duration. A new positive effect consisting in increasing the fidelity of reproducing information in the conditions of unstable movement of the information carrier in the record-reproduction cycle is achieved due to the delay of the synchronization signal, on which the current line is reproduced, which forms the variable variable, namely, depending on the speed of movement. media change the time of formation of the information line. Moreover, the duration of each delay will be equal to half of the period of the sync signal preceding its formation. The drawing shows a block diagram of the device that implements the proposed method. The method of reproducing the info line 1 is as follows. Reproduce and capture the information and sync bits of a string written in parallel on a multi-track storage medium. Each period of the next clock is memorized. The sync signal of each current line is delayed by an amount approximately equal to the stored half-cycle of the sync signal of the previous line by converting it to the corresponding time interval. A delayed clock signal generates a playback pulse. The method involves the reproduction of the first information line on the delayed sync signal of the zero line, d, recorded on the media before recording the information lines. The zero line, on which only the sync signal is recorded, serves to form the sync signal delay of the first information line. The method also provides for the order of the operations for storing the clock signal, followed by its conversion into a time interval, namely: -the duration of the clock sequence reproduced from the information carrier is converted into a binary code; -code remember; - at the moment of the beginning of fixation of the duration of the next period of the sync signal, they begin the inverse transformation of the previous half-period code into the duration; At the end of the inverse transformation of a code into a duration, a strobe pulse is generated to reproduce the current line. A device for implementing the proposed method comprises a sequentially connected playback unit 1, a memory unit 2 and a resolution unit 3, as well as a delay shaper 4 connected with an input to the playback unit and an output with a memory unit. The delay driver is made in the form of two transducers interconnected converters "time interval - code (code - time interval 6. The output of converter 6 is connected to the enable input of resolution 3 directly, and to the installation input of memory 2 through delay element 7. Device It works as follows: The reproduced information signals from block 1 are fed to memory block 2, from where, via resolution block 3, they are outputted as a line code to an external device for accumulation or subsequent information processing. The signal from block 1 does not receive an input to the delay 4 shaper made in the form of two transducers.The transducer 5 converts the time interval between two consecutive clock pulses into a code that is stored in the second transducer 6 and converted to a temporary flush equal to the duration of pilovin (slightly less) of the memorized time interval between the last two clock pulses.At the end of each conversion, the output of the converter 6 generates a pulse for issuing the line code from the memory block 2 through the resolution block 3. The same signal through the delay element 7 reset the memory elements of the block 2, preparing them for fixing the next bits of the next line. As for the zero line, it will not be output to an external device, since, due to the lack of code, the converter 6 does not generate a pulse reproducing this line. If it is impossible or unreasonable to write on the carrier a zero line, which is used during reproduction to form the original code, this code can be installed in the converter 6 before the device starts operation. At the same time, it should correspond to the average value of the expected half-cycle of following lines. Thus, a device that implements the proposed method provides for the formation of delays, the duration of which varies in accordance with the change in the clock period, i.e. in accordance with the change in the speeds of movement of the information carrier. Claim 1. Method of reproducing information in which information and synchronization signals recorded by line-by-line parallel code are recorded onto multi-track media, and also form strobe playback pulses of information lines, in order to improve the reliability of information reproduction, after reproducing signals remember the current period of the synchronization pulses, delay the synchronizing pulse of each current line on the led The value is equal to the memorized half-cycle of the following synchronization signals of the previous line, after which the recruitment pulses of information lines are generated. 2. A method according to claim 1, characterized in that the strobe playback pulse of the first information line is formed on the delayed synchronization pulse of the zero line additionally recorded on the media, the playback of which is prohibited. 3. The method of claim 1, characterized in that in it the duration of the period of the synchronization signals reproduced from the information carrier is converted into a binary code, and the delay of the synchronization signal, which forms a strobe pulse, which reproduces the string, is reversed by converting the code into duration Sources of information taken into account during the examination 1. USSR author's certificate No. 536514, cl. About 11 On 5/06, 1976. 2. USSR author's certificate jVo 400910, cl. G 11 B 5/06, 1971 (prototype).