SU877607A1 - Device for digital magnetic recording - Google Patents

Description

The invention relates to instrumentation, and in particular to the technique of digital magnetic recording on mobile storage media.

Known devices for magnetic recording of digital information that perform ⁵ recording of information in a three-frequency method with correction, which is carried out by compensating for the position of the pulses of the three-frequency _<(} code before recording. The recorded information at the input of these devices comes in the form of a three-frequency signal GO.

Upon receipt of the recorded information in the form of a signal without returning to zero, the device data is not operational. To ensure the operability of these devices, a preliminary signal conversion is required. I am without returning to zero in the three-frequency.

Known devices for magnetic recording of digital information, perform.

They convert the signal without returning to zero in the three-frequency T2J.

These devices do not allow recording corrections.

The closest in technical essence to the proposed one is a device for digital magnetic recording, in which a block containing a shaper of recorded information in the form of a register, two triggers for intermediate storage and shifting of information, three comparison schemes are used as a signal converter without returning to zero to a three-frequency one; a collection circuit, an inverter and means for generating two series shifted 180 * using a counting trigger, and as a shaper of compensatory pulse displacements in a three-part The signal used was a block containing a shift register for intermediate storage of information with a parallel output of the content and the output of the current value of information, a mutually shifted series generator, an input connected to a synchronizer, a shifted series switch with information inputs connected to an output of a mutually shifted series generator, with control inputs connected to the output of the contents of the shifted register and with a gating input, made in the form of a decoder of the contents of the state of the shift th | register, and switching schemes for advanced series, recording amplifier [3J Such a device is complex. The purpose of the invention is to simplify the device. ,

This goal is achieved by the fact that in the device for digital magnetic recording, the signal conversion unit without returning to zero in the three-frequency one is made in the form of a comparison circuit and ₂ triggers, the input of which is connected to the synchronizer output, and the output with a shift register synchronizing input and one of the inputs comparison circuit, while the other input of the comparison circuit is connected to the output of the current information, and its output is connected to the gate input of the mutually shifted series switch. In FIG. I shows a block diagram of a device for digital magnetic recording ₃ ; in FIG. 2 - time diagrams of his work.

The device contains a 4-bit shift register I, connected by an information input to the input for inputting the recorded information of the device (input a), a clock 2, a shaper 3 of mutually shifted series, the input of which is connected to the output of a clock 2, a converter 4 of a two-frequency signal into a three-frequency, made in a comparison schedius 5 and the trigger 6, counting input connected to the output of timing generator 2 and output to the clock input of the shift register to the input 1 and scheme ⁴ to 5 comparisons, the other input of which, conn chen to the output current information of the shift register 1 (yield 2nd level), and the output - to the strobe input of the switch 7 shifted series ⁵¹ of three data inputs of which are connected to corresponding outputs of generator 3 are mutually shifted series and four of its control inputs connected respectively to the four 5! the outputs of the shift register I. To the output of the switch 7 shifted series connected amplifier 8 recording.

The switch 7 of the shifted series contains a 4-bit decoder 9, four circuits OR 10-13, three circuits AND 14-16, the inputs of the decoder 9 are connected to the corresponding four control inputs of the switch 7 of the shifted series, the status outputs of the decoder 9 AI, A5 and A14 are connected to the corresponding inputs of the OR 10 circuit, the status outputs of the decoder 9 AO, A2, A7, A9, A10 and A15 are connected to the corresponding inputs of the OR 11 circuit, and the status outputs of the decoder 9 AZ, A8, All are connected to the corresponding inputs of the OR circuit 12. The first inputs of the circuits And 14-16 are connected respectively to three info mation inputs of the switch 7 shifted series, the second inputs of the three AND gates connected to the strobe input of the switch 7, and the third inputs of the three AND gates connected respectively to the outputs of AND circuits 10-12. The outputs of the circuits AND 14-16 are connected to the corresponding inputs of the circuit OR 13, the output of which is connected to the output of the switch 7.

The device operates in the following ob- ⁷ again.

The information input 4-pa3pHflHoto of the shift register 1 receives an STD * information is sent in the form of a signal without returning to zero (Fig. 2, signal), tied to the synchro-series S 'produced by the sync generator 2. Counting trigger 6 divides the frequency of the δ series, generating a series (signal B) with a duty cycle of "2, the period of which is equal to the clock interval of information 1T. 4-bit shift register 1 performs intermediate storage of information for the duration of the clock interval. The shift of information is performed on the leading edge of the signal from the output of trigger 6 (signal B).

Information with the output of the shift register 1 in the form of a parallel-serial code (signals 1, a, b and)) is fed to the control inputs of the switch 7 shifted series. The output .o of the second category of the shift register 1 is also an information output (signal B) and is fed to the second input of the comparison circuit 5, to the other input of which a signal from trigger 6 (signal B) is received. At the output of the comparison circuit 5, the signal is converted without returning to zero in the three-frequency (signal 3). "" The pulses of the three-frequency signal are located in the middle of the clock interval (pulses

N / p N _g , Ng) if the current information is 0 (low signal level e) and at the beginning of the clock interval (pulses Ng, N ^, N5 ·, N ₇ ) j if _{5 the} current information is 1 (high signal level E ) Thus, the Converter 4 performs the conversion of the signal without returning to zero in the three-frequency (intervals

T ₄ "1T, T ₂ " 1,5T and T _} "2T).

The information from the outputs of the shift register 1 through the control inputs of the shifted series switch 7 is fed to the inputs of the four-bit decoder 9, which decodes the states of the information of the shift register I from O to 15 (outputs A0A15, Fig. 1).

With the information '* 0000 of the shift 20 register (signals 2. = 0, 3 = 0, θ = 0, I = 0), the output of AO is excited, and with the information ”0001 of the shift register 1 (signals t = 1, 6 = 0, 0 "0, W = 0) the output At is excited, etc., 25

The OR 10 circuit, combining the inputs Al, A6 and A14 of the decoder 9, is excited at; information 0001,0110 and 1110 shift register 1 (signal And). When considering the signals And 30 and 3, it is clear that at the time of the positive pulse of the signal and the pulse of signal 3 is on the border of two intervals 1T and 1.5T (pulse N2, Νγ) or 1T and 2T (pulse N4). the density of these intervals, the pulse at the junction of these two intervals, is shifted towards the longer interval, thereby _4JJ phase distortion of the signal. To compensate, the pulse before recording is shifted towards a shorter interval. This problem is solved with the help of the series and, and and о, and the series m is ahead of the series n by an amount, and the series O is late relative to the series And by the value Aij. The circuit And 14 as a result of the interaction of the signals And, it produces a signal η corresponding to the offset of the pulses of the three-frequency signal.

In a similar way, the And 16 'circuit and the result of the interaction of signals A, 3, and O produce a signal p corresponding to the compensation bias — ⁵⁵ pulses of the three-frequency signal to the right to delay. In other cases, with information 0000,

0010, 0111, 1001, 1010, and 1111 of shift register 1, the presence of which is indicated by positive pulses of signal k. (Fig. 2 shows pulses for information only 0000, ”0111), the signal pulse z is at the junction of long 1.5T intervals and 2T or 2T and 2T, or in the diagram of short intervals 1T and 1T. In this case, compensation offsets are not introduced into the three-frequency signal, since the phase distortions are negligible. Therefore, the circuit And 15 generates a signal with no compensation bias of the pulses of the three-frequency signal as a result of the interaction of signals to, 3 in

Information states 0100, 0101, 1100 and 1101 (outputs A4, A5, A12 and A13) are not used for switching mutually shifted series, since these states of information of shift register 1 correspond to the second half of wide pulses (pulses N4. And Ν ₇ ) of the signal (in Fig. 2, this part of the pulse is shaded). This happens when the current information is ^w 0 (e “0), and the previous information was 1 (in 1).

The use of the shaded part of the pulse of signal 3 in the formation of compensation offsets would lead to the introduction of extra pulses in the three-frequency code, which is unacceptable.

‘From the output of the OR 13 circuit (signal w), a three-frequency signal containing compensation offsets enters the recording amplifier, which performs recording information on a magnetic medium.

•

The simplification of the proposed device is achieved by combining the functions of the shift register for the conversion unit of the two-frequency signal without returning to zero in the three-frequency signal and for the unit for generating compensation offsets of pulses in the three-frequency signal by reducing the bit capacity of the shift register by storing information in it for a duration of one clock cycle * instead of a half-cycle and due to the simplification of the signal conversion block without returning to zero in the three-frequency one due to the possibility of further process its output signal containing pulses with excessive width.

Claims (3)

(54) DEVICE FOR DIGITAL MAGNETIC FIELD The invention relates to an instrument engineering, in particular to a technique of digital magnetic recording on mobile data carriers. Magnetic digital information recording devices are known that record information of a three-frequency information method with a correction, which is carried out by compensating displacements of the position of the pulses of a three-frequency code before it is written. Recorded information to the input of these devices comes in the form of a three-frequency signal}. Upon receipt of the recorded information in the form of a signal without returning to zero, these devices are not operational. To ensure the operability of these devices, the preliminary conversion of the signal without returning to zero in the three-frequency one takes place. There are known devices for magnetic recording of digital information that performed RECORDING signal conversion without returning to zero to three-frequency G23. These devices do not allow correction during recording. The closest in technical essence to the present invention is a device for digital magnetic shading in which a block containing a shaper of information to be stored in the form of a register, two triggers for intermediate storage and information shifting, three are used as a signal converter. Comparison schemes, the collection scheme, the inverter and the means for carrying out 180 series shifted by two series with the help of a counting trigger, and as a composer for displacement of pulses into tr hchastotnom signal used unit comprising a shift register for intermediate storage of information content with a parallel output and the output current value information. 38 shaper of mutually shifted series input connected to the synchronizer, switch of shifted series with information inputs connected to the output of the generator of mutually shifted series, with control inputs connected to the output of the content of the shifted register and with a gate input, made in the form of a shifter of the contents of the shift register the register, and the switching circuits of the mutually shifted series, the write amplifier GZZ. Such a device is complicated. The purpose of the invention is to simplify the device. The aim is achieved by the fact that in the device for digital magnetic recording the signal transducer unit without returning to the frequency pool is made in the form of a comparison circuit and a trigger, the input of which is connected to the synchronizer output and the output of the shift register and one of the inputs of the comparison circuit, while the other input of the comparison circuit is connected to the output of the current information and its output to the gate input of the switch of mutually shifted series. FIG. I shows a block diagram of a digital magnetic recording device; in fig. 2 - time diagrams of his work. The device contains a 4-bit shift register 1, connected by a wired input to the input for entering the recorded information of the device (input a), clock generator 2, shaper 3 mutually shifted series, the input of which is connected to the output of the sync generator 2, converter 4 two frequency signal to three-frequency , made in the form of a comparison circuit 5 and a trigger 6, a counting input of the synchronous generator 2 connected to the output, and an output to the synchronization input of the shift register 1 and to the input of the comparison circuit 5, the other input of which is It is connected to the output of the current information of the shift register 1 (output of the 2nd bit), and the output is connected to the gate input of the switch 7 of the shifted series, three information inputs of which are connected to the corresponding outputs of the forwarder of 3 mutually shifted series, and its four control inputs are connected respectively, to the four outputs of the shift register I. To the output of the switch 7 to shift the series, the amplifier 8 is connected to the record. Switch 7 of the shifted series contains a 4-bit descrambler 9, four OR 10-13, three circuits AND 14-16, the inputs of the decoder 9 are connected to the corresponding four control inputs of the switch 7 of the shifted series, the outputs of the decoder 9 A1, A5 and AI4 connected to the corresponding inputs of the OR circuit; 10, outputs of the state of the decipheror 9 AO, A2, A7, A9, AID and A15 are connected to the corresponding inputs of the OR II circuit, and outputs of the state of the decoder 9 A3, A8, AP Connected to the corresponding inputs of the OR circuit 12. The first inputs of the circuits AND 14-16 are connected respectively to the three information switch inputs of 7 shifted series, the second inputs of all three AND circuits are connected to the gate input of switch 7, and the third inputs of all three AND circuits are connected respectively to the outputs of AND 10-12 circuits. The outputs of the circuits AND 14–16 are connected to the corresponding inputs of the circuit OR 13, the output of which is connected to the output of the switch 7. The device operates as follows. To the information input 4-bit of the shift register 1, receive the information in the form of a signal without returning to zero (Fig. 2, signal 0) attached to the synchronization series B generated by the synchronous generator 2. The counting trigger 6 carries out the frequency division of the S series to produce a series (signal 6) with a duty cycle of 2, the period of which is equal to the IT information clock interval. The 4-bit shift register 1 performs intermediate storage of information for the duration of the clock interval &amp; The information shift is performed on the leading edge of the signal from the 1st turn of trigger 6 (signal and). The information with the output of the shift register 1 is in the form of a parallel-serial code (signals 1, E, B and L are fed to the control inputs of the shifted series switch 7. The output of the second bit of the shift register 1 is also the output of the information (signal c) and enters the second input of comparison 5, the other input of which receives a signal from trigger 6 (signal). At the output of comparing circuit 5, cfU conversion is performed without returning to zero in a three-frequency (signal b) 1 "pulse of a three-frequency signal located in the middle ovogo interval (pulses N, N ,, Ng, Ng), if the current information is equal to O (low signal E, and at the beginning of the clock interval (pulses Ng, N, Njj-, Ny) j if the current information is equal (high level signal 3). Thus, converter 4 performs signal conversion without returning to zero in three-frequency (intervals T "JT, l in 1.5T and Tk 2t), Information from the outputs of the shift register J through the inputs to switch 7 of the shifted series enters the inputs of the four-bit decoder 9, which decrypts the information of the shifts th register 1 from O (outputs AOA15, FIG. ). With the shift register information 0000 (signals ,, e "0 0), the output of the AO is excited, and the output is generated. shift register information 1 0001 (signals 1 1,,, F, O), the output A1 is excited, etc. The OR 10 circuit, combining A1, A6 and A14 of the decoder 9, is excited when the information of the 0001,0110 and 1110 shift register 1 (signal. Considering the signals And and 3, it is clear that at the moment of action of the positive pulse of the signal and the pulse of the signal 5 is on the border of two IT intervals and 1.5 T (NN or IT pulse and 2 T (pulse)). During reproduction of these intervals recorded with high density, the pulse located at the junction of these two intervals shifts to the longer interval. thus, the phase distortion of the signal occurs. The impulse before recording is shifted towards a shorter interval. This problem is solved with the help of series and and o, with the series of the opera: holding the series n by the value of D, and the series O delaying relative to the series n by the value of Dg. 1A as a result of the interaction of the signals AND b, it produces a signal n corresponding to the pulse offset of the three-frequency signal. Similarly, the AND 16 circuit as a result of the interaction of the signals L and J and produces a signal p corresponding to the compensation offset of the pulses right to lag. In the remaining cases, with information 0000, 0010, 0111, 1001, 1010, and 11 of the shift register I, which is indicated by positive signal pulses K. (for f | G | 2 shows pulses for information only 0000, 0111, the signal 3 is located at the junction long intervals, 5T and 2T or 2T and 2T, or on the circuit of short intervals IT and IT. In this case, the compensation shifts to the three-frequency signal are not introduced, since the phase distortions are not significant at the same time. Therefore, the AND 15 circuit produces a signal with no compensation three-frequency sig pulses As a result of the interaction of signals to, 3 and k, Information states 0100, 0101, 1100 and 1101 (slots A4, Az, A12 and A13) are not used for switching mutually shifting of these series, since these states of the shift register 1 correspond to The second half of the wide pulses (pulses N and N7) of the signal 3 (in Fig. 2. This part of the pulse is hatched). This occurs when the current information is 0 (E Oj, and the previous information was 1 (B - O. The use of zachrytrovoy of the pulse signal 3 in the formation of compensation offsets would lead to the introduction of impulses in the three-frequency code, which is unacceptable. From the output of the OR 13 (signal t) circuit, a three-frequency sigal containing compensation bias enters the recording amplifier, which performs the recording of information on magnetic media. . . Simplification of the proposed device is achieved by combining the functions of the shift register for the two-frequency signal converting unit without returning to zero in the three-frequency signal and for the block for generating compensation pulse shifts in the three-frequency signal by reducing the displacement of the shift register by means of intermediate information storage, in one tact of a place of a poltakt and due to simplification of the signal localization without returning to zero into a three-frequency mode thanks to the possibility of further processing abat his output signal, containing pulses with excessive ptrina The invention A device for digital magnetic recording containing a synchronizer connected to it, a generator of mutually shifted series, a signal conversion unit without returning to zero in the three-frequency shift register, a recording amplifier and a switch of the shifted series, whose information inputs are connected to the outputs of a mutually shifted series driver, its control inputs to the outputs, one of which is a shift register information output Its output is connected to the input of a recording amplifier, characterized in that, in order to simplify the device, the signal conversion unit without turning back to zero into a three-frequency signal is made in the form of a comparison circuit and a trigger, the output of which is connected to the synchronizer output. the synchronization input of the shift register and one of the inputs of the comparison circuit, while the other input of the comparison circuit is connected to the current information output, and its output is connected to the gate input of the switch of mutually shifted series. Sources of information taken into account pri.expertise. US patent number 3697977 CL. 340-347, 1972. 2. US patent number 3774178, cl. 340-174.1, 1973. 3. US patent number 3879342, cl. 360-45, 1975 (prototype). g d e) i A JnJtglpJl JlLJlJlJ J1-LJlJ // srie.2.