SU1688283A1 - Device for checking confidence of digital magnetic recording - Google Patents

Abstract

This invention relates to magnetic recording. The purpose of the invention is to improve the accuracy of control. The device contains the first and second shift registers, the first, second and third modulo-two adders, the clock pulse generator, the gate element, the first and second error counters, the first and second clock interval counters, the first and second decoders, the input signal corrector, the trigger, the element And, the indicator of the number of errors and the unit for setting the size. 2 Il.

Description

The invention relates to magnetic recording, and in particular to devices for monitoring the reliability of high-density digital magnetic recording.

The purpose of the invention is to improve the accuracy of control of the reliability of high-density magnetic recording due to the correction of distorted bits of reproducibility of information.

Figure 1 and 2 shows a block diagram of a device for monitoring the reliability of digital magnetic recording.

The device contains a first shift register 1, connected by the first and second outputs to the inputs of the first adder 2 modulo two, connected by an output to the information input of the first shift register 1, the clock input of which is connected to the output of the clock generator 3, the second shift register 4, connected by the first and the second outputs with the inputs of the second adder 5 modulo two, connected by the output to the first input of the third adder 6 modulo two, the output of which is connected to the information input of the gate element 7, connected an output with a counting input of the first counter of 8 errors, a magnetic recording-playback channel with terminals 9 for its connection, a second input of the gate element 7 connected by a stack input of the second shift register 4, a first counter of 10 clock intervals, the counting input of which is connected to the output of a clock pulse generator 3 and with the input signal of the magnetic recording-playback channel, the reset input of the first counter 1C of the clock intervals is connected to the output of the first adder 2 modulo two, and the output to the input of the first decoder 11, the output for which it is connected to the installation input of the first shift register 1, an input signal corrector 12, the first input of which is connected to the second input of the third adder 6 modulo two and to the information output of the magnetic recording-reproduction channel, the information input of which is connected to the third output of the first shift register, and the output of the clock is connected to the gate input of the gate element 7 and to the counting input of the second counter 13 clock intervals, the reset input of which is connected to the output of the gate element 7 and through the input of the second counter 14 errors, the output of which is connected to the reset input, and the reset input - with the installation input of the trigger 15 and the output of the second counter 13 clock intervals, element And 16, the first input of which is connected to the output of the third adder 6 modulo dhz second input is connected with the trigger output 15 and with the inhibit input of the second decoder 17, the input of the error number code of which is connected to the output of the error counter 8, and the output is connected to the input of the error quantity indicator 18, the output of element And 16 is connected to the second input of the input corrector 12 signal, the output of which is connected to the data input of the second shift register 4, the bit setting unit 19, the output of which is connected to the input for setting the bit of the second counter 14 errors.

Reliability control of high-density digital magnetic recording is carried out as follows.

Under the influence of clock pulses coming from the output of the generator 3 clock pulses to the clock input of the first shift register 1, which together with the first adder 2 modulo two make up a pseudorandom sequence generator (PSP), continuously repeating pseudorandom sequences of length 2 ⁿ -1 (l the length of the first and second registers 1 and 4 of the shift). These SRP in the form of bits of a serial code without returning to zero (BVN) from the third output of the first shift register I are fed to the information input 9 * of the magnetic recording-playback channel. Autostart of the memory bandwidth generator is carried out by the first counter 10 and the first decoder 11. If the memory bandwidth is not generated, then the first counter 10 clock intervals controlled by the signal bandwidth. which comes from the output of the first adder 2 to the reset input is not reset, and when the ηth clock pulse arrives at its counting input, an impulse is generated at the output of the decoder 11, which sets one of the cells of the first register 1 into the unit at the installation input.

At the same time, from the output of the generator 3 to the input 9 of the clock signal of the magnetic recording-playback channel, clock pulses are received that accompany the signal of the SRP.

From the information output 9 ’of the channel of magnetic recording-reproduction, continuously repeating SRPs in the form of bits of a sequential BVN code are fed to the first input of the corrector 12, made on the adder modulo two, and to the second input of the third adder 6 modulo two.

From the output 9 of the magnetic recording-playback signal: the clock pulses accompanying the SRP signal are fed to the counting input of the second counter 13. to the clock input of the second register 4 and to the gate input of the gate element 7.

In the initial state, the set of η non-zero binary symbols of the second shift register 4 may not belong to the period of this SRP, in this case, the signal at the output of the second adder 6 is not a reference measuring signal, and when compared with the channel output signal at the output of the third adder 6, an error signal is generated in the form of positive bits arriving at the information input of the gate element 7 and at the first input of the element And 16.

The error signal, scanned by clock pulses, in the form of pulses from the output of element 7 is fed to the counter input of counter 8, to the counter input of second counter 14 and to the reset input of second counter 13, setting it every time

If the control enable circuit, which is trigger 15, is in the on state, then from the output its positive potential goes to the input for ¹ pret of the second decoder 17 and to the second input of the And 16 element, generating an error signal at the first input for each positive bit , the correction signal is also in the form of a positive potential arriving at the second input of the corrector 12. In this case, regardless of the fidelity of the input signal to the information input of the second shift register 4, an invert A signal relative to its first input generates error signals at the output of the third adder 6 and at the output of the gate element 7. The duration of this mode of operation of the device is determined by the capacity of the second counter 14, selected from the calculation of the maximum permissible number of distorted bits of reproducible information that occur one after another, depending on the statistical properties of the interference affecting the magnetic recording-reproduction channel, as well as on the necessary measurement accuracy.

The pulse signal from the output of the second counter 14 is fed to the reset input of the trigger control trigger circuit 15 and, setting it to O, prohibits the formation of the And 16 element at the output, regardless of the error signal received at its first input, the input signal correction signal.

In this case, the uncorrelated input signal bandwidth of the SRP will begin to arrive at the information input of the second shift register 4. The second (η-bit) counter of 13 clock intervals, reset by the pulse error signal, when the second shift register 4 is filled with a set of η undistorted binary symbols, the SRP generates a signal at the output of the trigger 15, setting the trigger to 1, and to the reset input of the second counter 14 errors, setting it to O.

From this moment on, each distorted input bit of information coming from the information output 9 of the magnetic recording-playback channel is corrected by the correction signal of the input signal and fed to the information input of the second shift register 4 undistorted. A positive signal from the output of the trigger 15 is fed to the input of the prohibition of the second decoder 17, allowing the passage of the value of the number of errors, the first counter 8 errors on the error indicator.

The correction mode of the input signal of the memory bandwidth is automatically interrupted by a predetermined number of consecutively distorted bits of the information output of the magnetic recording-reproducing channel 9 and containing gaps of less than η undistorted bits. This amount is set by the bit depth of the counter 14 errors when you press the corresponding button of the push button switch of the bit setting unit 19, which by the corresponding logic circuits OR connects the output of the counter 14 to the corresponding bit.

Each case of stopping the correction of the input signal, indicating the arrival of the number of consecutively distorted bits more than previously set by the second counter 14 errors, is indicated by the ignition of the LED on the indicator 18. The decrypted value of the number of errors at this time on the indicator 18 is not received as a result of exposure to the input of the zero potential inhibit from trigger output 15.

Claims (1)

Claim A digital magnetic recording reliability control device containing a first shift register connected by the first and second outputs through the first adder modulo two to the information input of this register, the clock input of which is connected to the output of the clock generator, the second shift register connected by the first and second outputs through the second modulo adder two ,, third modulo adder two and a gate element with a counting input of the first error counter, trigger, input and output terminals of the magnetic recording channel In this case, the other input of the gating element is connected to the clock input of the second shift register, about 1688283 h, which means that, in order to improve the accuracy of control of the reliability of high-density magnetic recording, two decoders and two clock interval counters are introduced into it , a second error counter, input and output terminals of the recording-reproduction channel clock signal, an input signal corrector, an And element, a bit setting unit and an indicator, while the counting input of the first clock interval counter is connected to the output m of a clock pulse generator and with an input terminal of a clock signal of a recording-playback channel, a reset input - with an output of the first adder modulo two, and an output - through a first decoder with an installed input of the first shift register, the third input of which is connected to the input terminal of a recording-playback channel, the first input corrector input signal is connected to another input of the third-20 of its adder modulo two and to the output terminal of the recording-playback channel, the output terminal of the clock signal of which is connected to the gate input of the test element and with the counting input of the second counter of clock intervals, the reset input of which is connected to the counting inputs of the first and second error counters, the output and reset input of the latter are connected respectively to the reset input and the trigger setup input connected to the output of the second clock interval counter, output the trigger is connected to the inhibit input of the second decoder and through the element And to the second input corrector of the input signal, the output of which is connected to the information input of the second shift register 15, another the input of the And element is connected to the output of the third adder modulo two, the output of the first counter .error is connected to the input of the error code of the second decoder, the output of which is connected to the indicator input, is connected to the output of the digit setting block of the second error counter. Compiled by N. Makarenko ... Editor M. Kelemesh Tehred M. Morgenthal Corrector »V. Girnyak Order 3711 Circulation ₍ Subscription VNIIIPI State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35. Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhgorod, 101 Gagarina St.