SU930220A2 - Device for measuring magnetic medium start time - Google Patents

Description

The invention relates to a device- ⁴ structure and can be used when setting up and operating memory devices on a moving magnetic medium.

According to the main author ... No. 85560 3, a device for measuring the start time of a magnetic medium is known, which contains four NAND elements, a magnetic playback head, an amplifier driver, three triggers, three counters, a register, a digital registration and display unit, a bus Start, reference frequency generator, decoder, deviation switch [1].

The disadvantage of this device is that it does not provide the installation of an asymmetric corridor of the set speed deviations, i.e. Its measurement capabilities are limited.

The purpose of the invention is the expansion of the functionality of the device.

To achieve this goal, a device containing a magnetic playback head connected in series, an amplifier-driver and a first trigger, the direct output of which is connected to the first inputs of the first and second elements

AND NOT, the first counter, the output of which through the register is connected to the digital indication and registration unit, the second trigger, the input of which is connected to the Start bus, the decoder, the output of which is connected to the deviation switch, and the input is connected to the input U of the digital indication and registration unit and the output of the second counter, to the input of the zero setting of which the output of the third AND-NOT element is connected, the direct output of the first trigger is connected to the counting input of the third trigger, the direct output of which is connected to the first input of the fourth AND-NOT element m the input of the first AND-NOT element, the output of which is connected to the second inputs of the second and fourth AND-NOT elements, the outputs of which are connected to the first and second inputs, respectively, of the third AND-NOT element, the inverse output of the third soy trigger. din with the input of setting the zero.

the third counter, the output of which is connected to the zero setting input of the third trigger, the direct output of the second trigger is connected to the • zero setting input of the first counter, the counting input of which is connected to the counting inputs of the second and third counters and to the output of the reference frequency generator, three additional elements And -NOT and a trigger, to the information and synchronization inputs of which the direct outputs of the first and 'third triggers are connected, respectively, and the direct and inverse outputs of the additional trigger are connected to the first the moves of the first and second additional AND-NOT elements respectively, the outputs of which through the third additional AND-NOT element are connected to the register entry input, 'and the output of the deviation switch, which, made in the form of a double switch, is connected to the second inputs of the first and second additional elements AND NOT.

the drawing shows a block diagram of a device.

The device comprises a magnetic playback head 1 coupled to a magnetic medium 2, for example, magnetic tape, an amplifier driver 3, a trigger 4, AND-NOT 5-6 elements, a trigger 7, AND-NOT elements 6-8, a counter 9, an AND-NOT element 10, counter 11, decoder 12, start bus 13, trigger 14, counter 15, register 16, digital indication and registration unit 17, reference frequency generator 18, speed deviation switches 19 and 20, AND-NOT elements 21, 22 and 23, trigger 24.

The device operates as follows.

The command ^and start “from the start bus 13 starts the movement of the magnetic medium 2, on which a signal with a fixed period is pre-recorded, and simultaneously the trigger 14 is set to a single state. The signal from the trigger 14 opens the counter 15 and he begins to count pulses with a period T _about coming from the generator 18.

The signal from the magnetic medium 2 is read by means of the magnetic playback head 1, the amplifier-driver 3 to the counting input of the trigger from the direct output of the trigger front switches the trigger 7 to a single state. The signal from the inverted output of flip-flop 7 opens counter 9 and it begins to count pulses with a period T _Q coming from generator 18. Counter 9 has a preset conversion factor determined by the formula Tm, where T _n is the period of the reproduced signal at the nominal speed of the information carrier; T _a - the period of the signal generator 18.

When counting N _{n by a} pulse, a pulse appears at the output of counter 9, .25 and through

4. The signal posit50 sets the trigger 7 to the zero state, so Sak counter 9 is set to zero. Thus, on the direct output of the trigger 7 is formed positive by it, the pulse of the reference duration T _H = N ₀ T ₀ . At the input of AND-NOT elements 5 and 6, a pulse is received from the output of trigger 4, corresponding to the instantaneous period of the reproduced signal. In element 5, a comparison is made of the duration of the reference pulse from the output of the trigger 7, corresponding to the nominal speed of the magnetic medium and the duration of the reproduced signal from the output of the trigger 4. At the output of element 5, a shorter duration in the form of a negative pulse is highlighted. In the case when the instantaneous speed of the magnetic medium is less than the nominal speed, the duration T _n is allocated, which is compared with the duration of the reproduced signal using the AND-NOT element b, the output of which is a negative pulse whose duration is directly proportional to the deviation of the instantaneous magnetic speed information carrier from rated speed. Similarly, in the case when the instantaneous speed of the magnetic information carrier is greater than the nominal speed, the duration T _in is allocated at the output of element 5 •, which is compared with the duration of the reference pulse using the AND-NOT 8 element, the output of which is a negative pulse whose duration is directly proportional to deviations of the instantaneous speed of the magnetic information carrier from the nominal speed. The signal from the outputs of elements 6 and 8 goes to the AND-NOT 10 element, at the output of which we get a positive pulse corresponding to the pulse coming from the elements of bi 8. The signal from the output of element 10 opens the counter 11 for the duration of its duration and it counts the number of pulses arriving from the generator 18 of the reference frequency, the number of which is proportional to the deviation of the carrier speed from the nominal speed, at the end of the pulse at the output of the element 10 from the counter 11 information is output to the digital recording unit 17 and ind Indications of the absolute instantaneous deviation of the speed of the magnetic information carrier. The decoder 12 converts the parallel binary code into a parallel decimal code and outputs the code value of the counter 11 to the corresponding switches 19 and 20, with which the range of 65 deviations of the speed & V is set. The signal from the switches 19 and 20 deviations of the instantaneous speed through the elements AND 21 and 22, and then through the element AND 23 is fed to the input of the register register 16. 5

If the speed of the magnetic medium in a smaller direction exceeds the specified interval & V, then one is recorded in the trigger 24 and to the input of the register register 16 through the elements 21 and 23. 10, only the switch 19 is connected, and if at the output of the decoder 12, which is connected via the switch 19, the elements 21 and 23 are connected to the recording input of the register 16, a signal appears, 15 'then it writes the value of the counter 15 to the register 16.

Similarly, if the speed of the magnetic medium exceeds the predetermined interval + AV, 20 then zero is recorded in the trigger 24 and only the switch 20 is connected to the input of the register 16 through the elements 22 and 23, and if at that output of the decoder 12, which 25, switch 20, elements 22 and 23 are connected to the recording input of register 16, a signal appears, it writes the value of counter 15 to register 16.

This process occurs every θ time when the instantaneous speed of the magnetic information carrier exceeds a predetermined speed range in a smaller or larger direction. When the starting transition process is completed and the speed of the magnetic medium ^{35 is} fixed, no signals appear at the output of the element 10. Thus, the code corresponding to the start time of the magnetic medium 2 is recorded in the register 16, the code from the register 40 is registered in the digital block of registration and indication.

The invention allows the device for measuring the start time of the magnetic medium to expand the functionality, namely to provide a change in the start time when installing an asymmetric corridor of permissible deviations of the instantaneous speed of the medium from the nominal values.

Claims (1)

The second and third counters and with the output of the reference frequency generator are additionally introduced three elements of NAND and a trigger, to the information and synchronization inputs of which the direct outputs of the first and third triggers are connected, respectively, and the direct and inverse outputs of the additional trigger are connected to the first inputs respectively, the first and second additional AND-NOT elements, whose outputs through the third additional AND-NOT element are connected to the register record input, and the output of the deviation jumper, which are Lneny in the form of a dual switch, connected to the second inputs of the first and second additional elements AND-NOT. The drawing shows the block diagram of the device. The device contains a magnetic head 1 playback, coupled with magnetic carrier 2, for example, magnetic tape, amplifier 3, trigger 4, elements AND-NOT 5-6, trigger 7, elements I6-8, counter 9, element AND-NO. , counter 11, decoder 12, bus 13 Start, trigger 14, counter 15, register 16, digital indication and registration block 17, reference frequency generator 18, speed deviation switches 19 and 20, AND NOT elements 21, 22 and 23, trigger 24. The device operates as follows. The Start command from the start-up bus 13 starts the movement of the magnetic carrier 2, on which a signal with a fixed period is previously recorded, and at the same time the trigger 14 is set to one state. The signal from the trigger 14 opens the counter 15 and it starts counting pulses with a period T coming from the generator 18. The signal from the magnetic carrier 2 is read by the magnetic reproducing head 1 and fed through the amplifier 3 to the counting input of the trigger 4, the signal from the pr The output of the trigger 4 by a positive edge switches the trigger 7 to one state. The signal from the inverse output of the trigger 7 opens the counter 9 and it starts counting the pulses with the period TQ received from the generator 18. Counter 9 has a predetermined conversion factor determined by the SL formula for the period of the reproduced signal at the nominal speed of movement of the information carrier; Td is the signaling signal period of the generator 18. When calculating the pulse pulses at the output of the counter 9, a pulse appears that triggers the trigger 7 to zero, the caNKM counter 3 is set to the zero state. Thus, a positive impulse of this duration is formed at the direct output of the trigger 7. The inputs of the elements AND-NOT 5 and 6 postaet pulse from the output of the trigger 4, corresponding to the instantaneous period of the reproduced signal. Element 5 compares the duration of the reference pulse from the output of the trigger 7, corresponding to the nominal speed of the magnetic information carrier and the duration of the reproduced signal from the output of the trigger 4. At the output of the element 5, a shorter duration in the form of a negative pulse is selected. In the case where the instantaneous speed of the magnetic information carrier is less than the nominal speed, the duration T is allocated, which is compared to the duration of the reproduced signal period using the AND-N element b, the output of which produces a negative pulse, the duration of which is directly proportional to the deviation instantaneous speed of the magnetic information carrier from the nominal speed. Similarly, in the case where the instantaneous speed of the magnetic information carrier is greater than the nominal speed, the output of element 5 is allocated a duration Tg, which is compared to the duration of the reference pulse using an element IS-HE 8, the output of which is negatively proportional the magnitude of the deviation of the instantaneous velocity of the magnetic information carrier; from the nominal velocity. The signal from the outputs of elements 6 and 8 is fed to the element AND-NOT 10, the output of which gives a positive pulse corresponding to the pulse coming from elements 6 and 8. The signal from the output of element 10 for the duration of its duration opens counter 11 and it counts the number of pulses incoming from the generator 18 of the reference frequency, the number of which is proportional to the deviation of the carrier speed from the nominal speed, at the time of the end of the pulse at the output of the element 10 from the counter 11, information is output to the digital recording unit 17 and indications of absolute instantaneous deviation of the speed of the magnetic information carrier. The decoder 12 converts the parallel binary code into a parallel decimal code and outputs the code value of the counter 11 to the corresponding switches 19 and 20, by means of which the speed deviation range uV is set. The signal from the switches 19 and 20 deviations of the instantaneous speed through the elements AND-NOT 21 and 22, and then through the element AND-H 23 is fed to the input of the record of the register 16. If the speed of the magnetic carrier in a lower direction exceeds the specified interval of control, then the trigger 24 a unit is written and to the record input re; the hirste 16 iHepes elements 21 and 23 connect only switch 19, and if the output of the decoder 12, which through switch 19, elements 21 and 23 is connected to the recording input of register 16, a signal appears then he writes in register 16 the value of the counter 15. Ana If the speed of the magnetic carrier exceeds the specified + 4V interval in a big way, then zero is written to the trigger 24 and only the switch 20 is connected to the register entry input 16 via elements 22 and 23, and the decoder 12, which through the switch 20, the elements 22 and 23 are connected to the register 16 input. A signal appears, it writes the value of the counter 15 to the register 16. This PES process occurs when the instantaneous speed of the magnetic information carrier exceeds the specified speed range in a smaller or b greater side. When the start-up process is completed and the speed of the magnetic carrier is set, no signals appear on the element 10. Thus, the code corresponding to the start time of the magnetic carrier 2 is recorded in the register 16, the code from the register 16 is registered in the digital registration and display unit 17. The invention allows a device for measuring the start-up time of a magnetic carrier to expand its functionality, namely, to ensure that the start-up time changes when an asymmetric corridor is set to allow 1x deviations of the instantaneous speed of the carrier from nominal values. The invention The device for measuring the start-up time of magnetic media by the author. St. 855603, characterized in that, in order to expand the functionality of the device, three IS-NOT and a trigger are additionally introduced in it, to the information and synchronization inputs of which the outputs of the first and third triggers are connected, respectively, and the direct and inverse outputs of the additional trigger are connected, respectively to the first inputs of the first and second additional elements AND-NOT, the outputs of which through the third additional element AND-NOT are connected to the input of the register entry, and the switch is found to deviate Nij, which are configured as dual switch, connected to the second input of the first and second additional AND-NO elements. Sources of information taken into account in the examination 1. USSR author's certificate № 855603, cl. G 04 F 10/04, 1979.