SU1495847A1 - Method for magnetic recording of digital information - Google Patents

Abstract

The invention relates to instrumentation, in particular to a magnetic recording technique, and can be used in information recording systems and external storage devices of computer technology. The purpose of the invention is to increase the recording density and fidelity of the reproduction result by reducing the intersymbol distortion of the reproduced signals. According to the proposed method, the signals of the initial digital sequence are transformed according to the known rules of group coding of M / N signals by digital magnetic recording (for example, according to the rules of the 4/5 BVNM method) into an intermediate three-interval signal A with integer values of the samples (time intervals) of 1T, 2Т and 3Т, where Т is the duration of the recording signal clock interval. From this signal A, a signal B is formed, which is recorded on the magnetic recording medium in the form of short rectangular pulses of alternating polarity, located 0.5 T from the beginning of each sampling, and two additional pulses are generated for 2T samples (through 1Т and 1, 5T from the beginning of the sampling), and for 3T samples, five additional pulses through 0.75T, 1T, 2T, 2.25T and 2.5T from the beginning of the sampling. The duration of the clock interval T is chosen equal to T = (1.5-2) δ / V, where δ is the working gap of the magnetic head

V-velocity of the magnetic recording medium. The size of the magnetic imprint of the waveform will be commensurate with the width of the working gap δ of the magnetic head. The pulse frequency in a bundle of three pulses (0.5T when recording 2T samples, and 0.25T for 3T samples) is higher than the resolution of the reproduction path, and the reproduced signal B has a multiplicity of time intervals between zero-intersections 1: 1, 5: 2 Signals G and D are formed from this signal. The proposed method has a 0.5T detection window, the same information content (1.6 bit / period) as 4/5 BVNM method, but provides greater recording density and accuracy of the playback result due to the fact that The second and third pulses in packs when recording 2T and 3T samples perform the function of predistortion and high-frequency biasing, which reduces the inter-force distortion of the reproduced signals. 1 il.

Description

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The invention relates to instrumentation, in particular to a magnetic recording technique, and can be used in information recording systems and external storage devices of computer technology.

The purpose of the invention is to increase the recording density and fidelity of the reproduction result by reducing the inter-symbol distortions of the reproduced signals.

The drawing shows signal plots explaining the essence of the proposed method.

The method is carried out as follows.

The signals of the original digital information sequence are converted into an Intermediate three-interval record signal A with integer values of the samples (time intervals) of this signal, equal to IT, j2T and ST, where T is the duration of the tact interval of the recording signal. The pre-formation of input information signals is carried out according to the known rules of group coding of the digital magnetic recording signals m / n, for example, in the 4/5 BVNM method, as shown in the iia drawing, or in the 2/3 ADBN method, resulting in to the formation) of an interim information signal A with a sampling rate of 1: 2: 3 yr of the duration of the minimum dis- iccTa IT.

From the intermediate information signal A, a signal B is formed, which is coded and recorded on the magnetic record carrier in the form of short straight | gol pulses of alternating polarity, located 0.5T from the beginning of each discrete signal A, and for the samples Two additional pulses and mpuls are generated at intervals IT and 1.5T о: T are the beginnings of these samples, and for ST intervals, five additional pulses are formed through interventional 0.75T IT; 2T, 2.25T and 2.5T from the beginning of these samples. The duration of the clock interval T of the recording signal is chosen

equal to T (1.5-2) 5 / Y, where 8 is the working gap of the magnetic head, and V is the speed of movement of the magnetic recording carrier.

With such a choice of the duration of T and the writing of short rectangular shules of alternating polarity

(the duration of which should be sufficient to magnetize to saturation, from B to-B7, magnetic recording medium) the magnetic imprint of the waveform will be comparable with the size of the working gap of the magnetic head.

When the recording signal pulses follow at intervals IT, the duration of the intervals between zero transitions of the reproduced signal B will also be equal to 1Т. When following a packet of three pulses with intervals of between 0.5t (when recording 2t sampling) or of three pulses with intervals between them of 0.25T (when recording sampling 3T), the intervals between zero-transitions of the reproduced signal are respectively 2T and 5T, since the pulse frequency in a pack will be higher than the resolution of the magnetic head during playback. In this case, the TF disc is reproduced as two adjacent 1.5T intervals. The second and third. the extra pulses in each burst perform the function of predistortion and high frequency biasing, which reduces intersymbol distortion of the reproduction signal.

All information contained in the reproduced signal B is transferred to its intersection points (zero transitions) with the axis of symmetry, which is used to form the signal G, three-interval with a sampling rate of 1: 1.5: 2, from which the conversion of two adjacent samples 1 The ST of a single sampling ST forms a signal. A corresponding to the 5th signal of the original recording signal A. From the signal G, the sync pulses are extracted and the information is decoded from the signal D, according to the known rules for decoding sin-interval signals, for example, the 4/5 BVNM method. The detection window for the proposed method is 0.5 tons, and the information content, taking into account the transcoding, is 1.6 bits / transition, i.e. the same as dl sporba 4/5 BVNM,

The proposed method provides, in comparison with the 4/5 BNHM method, an increase in recording density and an increase in the fidelity of the reproduction result by reducing the intersymbol distortion of the reproduced signal.

Claims (1)

Formula inventive n and A method of magnetic recording of digital information, in which the signals of the initial digital information sequence are divided into groups and converted into an intermediate three-interval recording signal with integer values of the samples (time intervals) of this signal equal to 1 t, 2 t and 3 T, where T is the clock duration recording signal interval, characterized in that, in order to increase the recording density and fidelity of the playback result by reducing the intersymbol distortion of the reproduced signals, recording to magnetic recordings are carried out by short rectangular pulses of alternating polarity located 0.51 from the beginning of each discrete intermediate three-interval recording signal, and for the 2T samples of this signal two additional pulses are formed at intervals IT and 1.5T from the beginning of these discretes, and for the ST samples of the intermediate three-interval write signal, five additional pulses are formed at intervals of 0.75T; 1T; 2T; 2.25T and 2.5T from the beginning of these intervals, while the duration T of the clock interval of the recording signal is chosen equal to T (l, 5-2) o / V, where o is the working gap of the magnetic head; V is the speed of movement of the magnetic recording medium