SU949710A2 - Magnetic recording apparatus - Google Patents

Description

(54) MAGNET RECORDING DEVICE

one

This invention relates to magnetic recording, in particular to magnetic recording apparatus.

A magnetic recording apparatus is known that contains coils with magnetic tape connected to motors connected via a power amplifier and speed controller connected in series to the first input of a motion control unit, a magnetic head block connected respectively to recording and reproducing blocks. working information, reference intervals and service information, as well as a unit of reference frequencies connected to the second input of the motion control unit, the first inputs of the service information recording unit and the controller speed, the second input of which is connected to the output of the reference intervals playback unit and the first input of the reference intervals recording unit, the second input of which is connected to the second input of the service information recording unit and the first output of the motion control unit, the third input of the reference intervals recording unit records of work information, the second

the output of the motion control unit, to the second inputs of the playback unit of the working information and reference intervals, the output of the service information recording control unit is connected to the service information recording unit, and the first and second inputs are connected respectively to the second input and output of the reference interval recording unit the records are connected respectively to the third input of the motion control unit, and through the duplication block of service information to the third input of the speed controller, the first analog input the recording density generator is connected to the second input of the service information duplication unit and the first output of the service information playback unit, the second output of which is connected to the third input of the service information duplication unit, the outputs of the reference frequency unit are connected to the inputs of the service information duplication unit, the recording density analyzer and service information recording control unit 1.

Claims (2)

A disadvantage of the known magnetic recording apparatus is the lack of control over the information that ensures the accuracy of the speed control of the magnetic tape. The purpose of the invention is to improve the accuracy of controlling the speed of movement of the magnetic tape. This goal is achieved by introducing an overhead information control unit into the magnetic recording apparatus, the output of which is connected to a motion control unit, the control output of which is connected to the first input of the overhead information control unit, the third, fourth and fifth inputs of which are connected respectively to the seventh output of the reference frequency block, to the second output of the recording block of the reference intervals, with the first and second outputs of the reset block The value you insider information. FIG. 1 shows a structural diagram of a magnetic recording apparatus; in fig. 2 is a schematic diagram of the control information block. The magnetic recording apparatus contains coils 1 and 2 with magnetic tape connected with motors 3 and 4 connected through serially connected power amplifier 5 and speed controller 6 to the first input of motion control unit 7, block 8 of magnetic heads connected respectively to blocks 9 and 10 of recording and reproducing working information, with blocks 11 and 12 of recording and reproducing reference gaps, with blocks 13 and 14 of recording and reproducing overhead information, and also a block 15 of reference frequencies connected to the second input of block 7 pack Motion, the first inputs of the service information recording unit 13 and the speed controller 6, the second input of which is connected to the output of the reference intervals playback unit 12 and the first input of the reference intervals recording unit 11, the second input of which is connected to the second input of the service information recording unit 13 and the first output of the motion control unit 7, and the third input of the reference interval recording unit 11 is connected to a separate input of the work information recording unit 9, to the second output of the motion control unit 7, to the second input units 10 and 12 of reproducing working information and reference intervals, the output of control information recording control unit 16 is connected with service information recording unit 13, and the first and second inputs are connected to the second input and output of reference intervals recording unit 11, respectively the recording is connected to the third input of the motion control unit 7, the second output through the service information duplication unit 18 is connected to the third input of the speed controller 6. The first input of the recording density analyzer 17 is connected to the second input of the service information duplication unit 18 and the first output of the service information playback unit 14, the second output of which is connected to the third input of the service information duplication unit 18, the corresponding outputs of the reference frequency unit 15 are connected to separate inputs of the unit 18, the overlapping overhead information, the recording density analyzer 17 and the overlay recording control unit 16. In addition, the device contains the service information control unit 19, the output of which is connected to the motion control unit 7, the control output of which is connected to the primary input of the service information control unit 19, the second, third, fourth and fifth inputs of which are connected respectively to the seventh output the reference frequency unit 15, with the second output of the recording unit 11 reference intervals, with the first and second outputs of the service information reproducing unit 14. The service information control unit 19 comprises the first D-flip-flop 20, the first AND 21 element, the counter 22 and the second D-flip-flop 23, the output of which is the output of the service information control unit 19, the third D-flip-flop 24, the inverse output and the information input which is connected to the clock input of the fourth D-flip-flop 25, the inverse output and information input of which is connected to the first input of the second element AND 26, the output of which through the element OR 27 is connected to the input of the zero setting of the counter 22 and the third input of the third D-tr 24, the installation input to zero of which is connected to the installation inputs to zero of the first, second and fourth D-flip-flops 20, 23 and 25, the direct output of the fourth p-flip-flop 25 is connected to the first input of the third element And 28, the output of which is connected to the second the input element OR 27, and the information input and the input setting to zero of the first D-flip-flop 20 are the first input of the service information control unit 19, the second input of the first And 21 element, the clock input of the first D-flip-flop 20, the second input of the third And 28 element the second input of the second element And 26 owner are respectively the second, third, fourth and fifth control inputs of the unit 19 the service information. The magnetic recording apparatus operates as follows. The operating information is recorded and reproduced using the operating information recording unit 9, the magnetic head unit 8 and the working information reproducing unit 10. Blocks 11 and 12 of recording and reproducing reference gaps serve for recording and reproducing signals corresponding to the distance between the magnetic recording and reproducing heads of a block of 8 magnetic heads, which control the speed in the MARKING mode and determine the length of the working section of the magnetic tape. Blocks 13 and 14 of recording and reproducing service information are used to record and play back the markers of the beginning and end of the tape, as well as the sync signals by which the speed is regulated in the OPERATION, ANTONOM, SWITCH modes. The recording density analyzer 17 recognizes the type of overhead information recorded on one track, and the overhead info backup block 18 combines the clock signals recorded on both overhead tracks before feeding them to speed controller 6. The service information recording control unit 19 monitors the service information recorded over two tracks. The control occurs on the disappearance of the reproduced sync signals. The counting input of the counter 22 through the first element And 21 from the block 15 of the reference frequency receives a pulse sequence, the frequency of which is twice the frequency of the sequence of the clock signals. The first D-flip-flop 20 captures the moment the control starts and is set to one when the first signal of the reference gaps is played. Signals from both service tracks through the second and third elements AND 26 and 28 and through the element OR 27 are input to the zero setting of the counter 22. and the third elements And 26 and 28 is carried out with the help of dividers made on the third and fourth D-flip-flops 24 and 25. In the absence of overhead information, the counter 22 counts up to two while controlling the clock signals, up to one when monitoring e signals corresponding to the marker of the end of the tape, and up to one when monitoring signals corresponding to the marker of the beginning of the tape. In the absence of information from any track, the counter 22 is filled in and sets into a unit the second D-flip-flop 23, the signal from which goes to the motion control unit 7. The use of the invention makes it possible to significantly increase the reliability and, therefore, the accuracy of controlling the speed of movement of the magnetic tape and to increase the accuracy of information reproduction. Claim 1. Inventory magnetic recording auth. St. No. 801081, characterized in that "in order to increase the accuracy of controlling the speed of the magnetic tape, a service information control unit is inserted into it, the output of which is connected to a motion control unit, the control output of which is connected to the first input of the service information control unit, second, third, the fourth and fifth inputs of which are connected respectively with the seventh output of the reference frequency unit, with the second output of the reference intervals recording unit, with the first and second outputs of the playback unit of the service information atsii. 2. An apparatus according to claim 1, characterized in that the service information control unit comprises the first D-flip-flop, the first element I, the counter and the second D-flip-flop, the output of which is the output of the service information-control block, the third D-flip-flop, the inverse output and information input of which is connected to the clock input of the fourth D-flip-flop, the inverse output and information input of which is connected to the first input of the second element AND, the output of which through the OR element is connected to the input of setting the counter to zero and the clock the input of the third D-flip-flop, the input of the zero setting of which is connected to the inputs of the zero-setting of the first, second and fourth D-flip-flops, the direct output of the fourth D-flip-flop is connected to the first input of the third And element, the output of which is connected to the second input of the OR element, moreover, the information input and the setup input to zero of the first D-flip-flop are the first input of the overhead information control unit, the second input of the first And element, the clock input of the first D-Tpnirepa, the second input of the third And element, and the second input of the second And element respectively the second, third, fourth and fifth control inputs of the block overhead information. Sources of information taken into account in the examination 1. USSR author's certificate 801081, cl. G 11 B 15/46, 01.23.81 (protype). 27.