SU627517A2 - Digital magnetic recording apparatus - Google Patents

Description

The invention relates to instrumentation.

According to the main author. St. No. 576587 known device for digital magnetic. records containing sequentially the connecting trigger, the decoder and the counter connected by a counting input to the generator of eich aloic pulses, and the input of setting the initial state through a shift register to the output of the decoder and to the coding scheme. The known device improves the noise immunity of information by writing to a magnetic carrier groups of binary characters, in which there are a fixed number of ones and zeros.

The drawback of the device is the complexity of its design, which limits its use in the construction of multi-track recording-playback systems. The complexity of the design determines the low reliability of such systems.

The purpose of the invention is to enhance the functionality of the device by enabling it to be used both during recording and playback.

This is achieved by adding two AND circuits and an OR circuit to the digital magnetic recorder, the output is connected to the installation input of the initial state of the counter, and the inputs connected to the first and second AND circuits, the input of the first AND circuit, and its other input is connected to the playback command signal bus, and the second circuit AND with its inputs is connected to the input of the shift register and the recording command signal bus. .

FIG. 1 shows a block diagram of the device; Wah FIG. 2 - time diagrams of his work.

Claims (1)

The device for digital magnetic recording contains a generator of reference pulses 1, a counter 2, a decoder 3, a trigger 4 with a counting input, a register of a sovng 5, a coding circuit 6, an OR circuit 7, two circuits AND 8 and 9, an amplifier 1 O reproducing an izmedeka, a playback head 11 , recording amplifier 12 and recording head 13 of which the device is respectively the A command bus of the playback signal, W1 B of the recording command signal, and C of the recorded digital code The diagram 1 (fng. 2) shows the output pulses of the reference pulse generator, In frame 2, the command and control signal BS is written on chart 4, the counting code 2 is changed for time, in diagram 5, signals at trigger input 4, in diagram 6, output signals of VDI circuit 7, and in diagram 7, signal. There is a filler at the input of 1 record 12, in diagram 8 there are signals on the input bus D. The device works in sections. zapksi and Bospro 1 launched 11. In p8zhga1e records corresponding to tevdkalamIg postutgayushmi bus coman. signal B (FIG. 2, aimrpa iua 3) and bus A (FIG. 2, diagram 2), circuit 9 is open to pass the play code. When a group of binary characters of the write code is received, the input of the coding scheme 6 converts this rpjrnna that ka schemes, regardless of the code of the input group, 15 have a new group of double characters with a fixed number of unites of zeroes. This group of characters is recorded; B register 5o Shift by one bit is performed by receiving a pulse from the decoder 3 (Fig. 2, Diagram 5). In the case of O, the output of the shift register 5. Through the circuit AND 9 N OR -7 to the input of the installation of the initial CONDITION of the counter 2 is transmitted a pulse (F1n, 2, diagram 6), which connects the counter 2 to the initial stable (FIG. 2, D1Tgram 4), In the Spa. " In I, the output of the shift shift register 5 and, the pulse is absent (FIG. 2, diagram 6), therefore the counter 2 is reset to the initial state automatically upon receipt of a predetermined number of pulses (s) from the generator 1. The first output of the descrambler 3 deciphers 5 -N | The second state of the counter 2 in recording mode (FIG. 2, diagram 5), the second output, connected to the bus D, is the is-oe state of the counter 2 in any mode (FIG. 2, diagram 8), 17 the first output decoder 3 controls the trigger with counting input 4, the output of which (Fig. 2f diagram 7) is connected via amplifier 12 to the recording head 13. Thus, I is recorded by a pulse whose duration is equal to n periods of the pulse reference generator 1, and O performed by a jfMpulse whose duration is equal to HI (Generation-1 Periods, In playback mode The corresponding potentials, post1ushus1mn on the bus command signal recording B (Fig. 2, chart 3) and on the bus command signal playback A (Fig. 2, chart 2, circuit AND 9 closed for passing-. Research Institute of the recording code, and the circuit And 8 open , 1t for the passage of the playback code. The playback signals from the playback head 11, U1 and C (| K1rmirovanny in short 1 mpulsus amplifier reproduced w 10, chermez schemes And 8 and I / 1 and 7 come on the installation of the initial state of the counter 2 - (fig . 2, diagram b). The state of the counter, if), is decoded by the decoder 3, the pulse at the output 13 of which (Fig. 2, diagram 8) corresponds to the units of the reproduced code. The decrypted number rtt2 is usually equal to () / 2, but depending on the specific conditions, the application of the device may be within the limits of #t j -i И1 /. I .In | record mode weekend KNinyjibCH on can be used Olya control recording schemes. The invention of the Device (X) for digital magnetic recording aut. St. N9 576587, characterized by the fact that, in order to increase the level of the device's capabilities, there are two additional AND and OR schemes, the output connected to the installation input of the initial state of the counter, and the inputs of the first and second schemes And, the input of the first circuit AND is connected to the playback amplifier, and the other input is connected to the command signal bus reproducing-1, the second circuit is connected to the input of the shift register and the recording command signal bus by its inputs. HiimillinilllUlliniiHllHiilllllltllintinimilll