SU601744A1 - Digital information magnetic recording method - Google Patents

Description

The invention relates to the field of instrumentation, 3 particularly to magnetic recording, and the use of digital information in magnetic recording can be found. A known method of magnetic recording of digital information by forming a recording current according to the modulation result of each period of the carrier over two levels of one kilometer, out of two bits of digital information 1. Moreover, the carrier sequence uses a pulse sequence with a period having more D | the first of which is equal to half the duration of the singing. The known method provides a slight error in the recovery of digital information, but does not allow to achieve high recording density. TaiKJKe is known for magnetic recording of digital information based on the formation of a recording current based on the modulation result of two digital information carriers, as well as coding one of two bits for half a period carrier frequency fluctuations. In this case, a high recording density is not achieved and a significant error in the recovery of digital information is observed during playback 2. The purpose of the invention is to increase the magnetic recording density and reduce the digital information recovery capability. This is achieved due to the fact that according to the proposed method of magnetic recording of digital information one of the two bits is encoded by a half-period of the carrier wave, and the other is a half-time carrier wave, with the addition or filling part of it with one or several periods of higher frequency oscillations. In Fig. 1, time diagrams are given that characterize the proposed method of magnetic digital recording and information; in fig. 2 shows an apparatus for carrying out the method. Magnetic recording of digital information on the proposed method is as follows. In the converter /. With each half-period of carrier frequency oscillations, for example, a single bit of digital information arriving at the converter from the output of source 2 is encoded; carrier frequency oscillations (Fig. 1 G) are obtained by dividing higher frequency oscillations coming from generator 3 in the divider 4. In the converter, the zero bit is encoded with a period of carrier oscillation, the first half of which is filled with several oscillation periods of generator 3.

As a result, the encoding of the digital format in the converter / is carried out so that the field pNO | C of the second half of the period encoding the zero bit is opposite to the polarity of the last pulse of the previous bit of information (FIG. 16).

The coding result (ki is used to form a flooded current in a mess). The cooler 5, the input of which is connected to the output of the transmitter I of the I drive, and the output to the recording magnetic head 6. The oscillogram of the reproduced information is presented in FIG. 1 c, from which it can be seen that each zero bit corresponds to a pair of unipolar pulses, and to each unit bit a pulse of any polarity.

Claims (2)

1. The method of digital recording of digital information based on the formation of a current by filling the result of modulating two digital information carriers, as well as coding one of two bits with a half-period of carrier frequency oscillations, characterized in that in order to increase the recording density, the other two bits the carrier oscillation code is encoded with a half-cycle, with one or several higher frequency oscillations added to it. 2. A method according to claim 1, stating that with the purpose of reducing the error in restoring digital information, the other of the two bits is encoded with a carrier oscillation loop, part (of which is filled with one or several periods fluctuations of a higher rate | Stotes. Sources of information taken into account by ekapertize; 1. Author's certificate Y 542231, cl. G 11 B 5/02, 1976. 2. “Electronics, Oct Br, 1959, No. 32, p. 47-49, Gabor A. Digital signals at high density on magnetic tape.