SU1170498A1 - Method of multichannel magnetic recording of analog signals - Google Patents

Abstract

METHOD 1 | IFROM MAGNETIC RECORDING OF ANALOG SIGNALS, which consists in reversing the carrier along two levels to saturation through. Intervals of T, 2T and ST of a rectangular carrier manipulated by information signals (where T is the clock interval), characterized in that, in order to improve the accuracy of analog signal conversion in a given part of the measurement scale by using additional discrete signals with t-bit the bottom of the analog-to-digital conversion, the analog signal is converted in the specified part of the measurement scale into t 2 additional discrete signals, corresponding to (t + n) - to the discharge analog-to-logo-digital conversion, where n g 1, ohm signals with a combination of T, 2T and 3T recording current intervals, S corresponding to each additional discrete signal, are formed by carrier manipulation in portions of the carrier where m + 2 discrete signals are recorded by an H-bit analog; logo-1frame conversion.

Description

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00 It The invention relates to instrumentation, primarily to the technique of accurate magnetic recording. A known method of digital magnetic recording of analog signals, concludes in magnetic reversal of magnetic media in the presence of binary code units, as well as in the period of the following low bit, if there are all zeroes in the slave and prohibit peshvani in the lower bit, rem 1 all the characters in the word - one. If1 The disadvantage of the method is the broadband reproduction spectrum and, as a result, the difficulty of achieving high density and reliability of the recording, especially in the case of harsh environmental conditions. There is also a method of digital recording based on magnetic reversal of magnetic media in the presence of units in the recoded information, in which each of the input information a group of four characters is converted into a group of five characters — thus that the number of following zeros does not exceed two Pj. In this case, the reproduction signal has a narrow energy spectrum and is continuous, which greatly facilitates its decorating and increases recording fidelity. The disadvantage of this method is the need to introduce redundancy of 20%, which reduces the information recording density and, as a consequence, the accuracy of analog signal conversion during recording. The purpose of the invention is to increase the accuracy of analog signal conversion in a given part of the measurement scale due to the use of additional discrete signals at t-bit analog-digital conversion. This goal is achieved by the fact that, according to the method of digital magnetic recording of analog signals, which consists in reversing the carrier on two levels to each other at intervals T, 2T and ST of the rectangular carrier, manipulated by information signals (where T is the clock interval), the analog signal convert into a given part of the measurement scale into t 2 additional discrete signals corresponding to 8 (t + n) -discharge analog-to-digital transformation, where n 1, and signals with a combination of T, 2T and 3T recording current intervals and, corresponding to each additional discrete signal, form a carrier manipulation in the carrier sections where m + 2 discrete signals of the t-bit analog-digital conversion are recorded. As a result, each transformed word has no more than two un-i zeros and no more than one zero at the beginning and end. The drawing shows a block diagram of a device for implementing a writing method in the case of recoding seven-bit words into eight-bit words (t 7, p 8). The analog signals from the output of switch 1 are converted by analog-to-digital converter 2 to parallel seven-bit binary words, which are converted to constant storage device 3 and further are multiplexed by converter 4 into a code sequence. The switch 5, with a frame synchronization frequency, adds a marker word to the sequence, coming from the output of multiplexer 6. A combination of eight units is forbidden; therefore, a marker sequence of type 10111111111111111 is easily detected during playback. Unit 7 records information media. In accordance with a known method without returning to zero. As a result of the conversion of 128 codewords to 104 eight-bit words, the measurement accuracy in the 40 / 64th part of the scale corresponds to a 7-digit code, and in the rest of the scale - to a 6-digit code. Consequently, recoded eight-bit words carry information about 104 levels of quantization of an analog signal, which corresponds to an increase in the amount of information transmitted about measurement accuracy. Indeed, in the case of using the 4/5 encoding method with an eight-bit word, only 64 levels can be transmitted, i.e. 6 bits of binary code when expired in 5% density. To transfer a greater number of levels (and increase the accuracy of j measurements), a transition to a 7-bit code is required, however, this requires an increase in density by 10%.

By transcoding information into 10 bit words, it is possible to transfer 354 levels, i.e. An additional 98 levels that can also be used to measure and transmit the analog signal in separate zones of the scale with higher accuracy.

In addition, the use of the proposed method of recording analogue memory allows to increase the information recording density by 10-15%, compared to the prototype.

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Claims (1)

METHOD OF DIGITAL MAGNETIC RECORDING OF ANALOGUE SIGNALS, which consists in magnetizing magnetization of a medium at two levels to saturation at intervals T, 2T and ZT of a rectangular carrier manipulated by information signals (where T is a clock interval), characterized in that, in order to increase the accuracy of conversion of analog signals into of a given part of the measurement scale due to the use of additional discrete signals during m-bit analog-to-digital conversion, the analog signal is converted in a given part of the measurement scale to t <2 ^m additional discrete signals corresponding to (t + n) - bit analog, digital-to-digital conversion, where about? 1, while the signals with a combination of the Intervals T, 2T and ZT of the recording current corresponding to each additional discrete signal are formed by manipulating the carrier in the areas of the medium where m + 2 discrete signals of m-bit analog * ·: logo-digital conversion are recorded. SU ... 1170498 1 1170498 2