RU1790005C - Device for testing synchronization units of storage devices using movable storage medium - Google Patents

Abstract

The invention relates to the accumulation of information and can be used in control systems of magnetic disk drives and tapes with arbitrary methods of recording information. The purpose of the invention is to increase the reliability of monitoring the dynamic characteristics of the synchronization system of the drive data extraction path. This is achieved by introducing new functional relationships and additional elements that implement the function of simultaneously isolating and measuring the clock period or the period of the information signal and the phase of the information pulse relative to the clock pulse that drives it. The allocation of the time interval between information pulses is carried out by the interval allocation unit, which also identifies the fact of the loss of the information signal. 2 ill. 00

Description

The invention relates to the accumulation of information, and in particular to devices for monitoring digital magnetic recording equipment: magnetic disk drives and tapes.

The purpose of the invention is to increase the reliability of monitoring the dynamic characteristics of a synchronization system.

The invention is illustrated in the drawings.

In FIG. 1 shows a functional diagram of the described device; in FIG. 2 - time diagrams of the operation of the device. The numbers in FIG. 2 indicate the outputs of the corresponding elements.

The device for monitoring the nodes of the synchronization drives on mobile carriers contains the first, second and third multiplexers 1, 2, 3, counter 4, the first and

the second elements And 5 and 6, the first, second and third triggers 7, 8 and 9 element OR 10, the first and second converters 11 and 12 time code, the statistical analyzer 13 time intervals, the input bus 14-20 reading, the number of interval, period code, recording the interval number, synchronization, information, measurement mode, respectively, the information interval allocation unit 21. The information interval allocation unit 21 contains the first, second and third triggers 22-24, as well as the AND element 25. The multiplexer 1 is connected by its control input to the read input bus 14, and the information inputs to the input buses 15, 16 of the interval number and code period, and the output - with the information input of the counter 4, the control input of which is connected to

h o o o o

1СЛ

the output element And 5, equipped with an input bus 17 recording the number of the interval. The synchronization input bus 18 is connected to the input of the input of the trigger 7, to the counting input of the counter 4, the output of which is connected to the information input of the trigger 7, the inverse input of the element And 6 I is the second ohm input of the element And 5. The outputs of the converters 11 and 12 are connected to the information inputs of the statistical analyzer 13. The input bus 20 of the measurement mode is connected to the control inputs of the 2nd and 3rd multiplexers. The input of the input of the trigger 9 is connected to the input bus 18 of the synchronization, the information input is the output of the trigger 7, the inverse output is the first input of the multiplexer 2, and the direct output is the second input of the OR element 10, the first input of which is connected to the output of the trigger 7 , and the output is to the direct input of the And 6 element, connected by its input to the reset input of trigger 8. The trigger installation 8 input is connected to the information input bus 19, and the output is to the stop input of the time-converter 11, the start input of which is connected to the trigger output 9, and the input starts reset along with similar inputs of the statistical analyzer 13 time intervals and the converter 12 time-code is connected to the output of the trigger 7. The multiplexer 3 is connected by the first information input to the direct output of the trigger 9, and the output is connected to the start input of the converter 12, the stop input of which is connected to the output of the multiplexer 2. The information interval allocation unit 2 is connected by its three inputs to the information input bus 19, to the output of the trigger 7, and to the output of the OR element 10, and three outputs, respectively To the second input of the multiplexer 2, to the third information input of the statistical analyzer 13 time intervals and to the second information input of the multiplexer 3. In block 21, the installation input of the trigger 20 together with the input of the trigger 23 is connected to the first input of the information interval allocation unit, the second input of which is connected with the reset inputs 22 of the triggers 22 and 24, and the third one with the first (inverse) input of the And 25 element connected by the output to the installation input of the trigger 24, and the second input to the inverse output of the trigger 23, p my output is connected to a first output 21, and information input together with the third input of AND gate 25 and the third

the output of block 21 is connected to the output of the first trigger 22, and the output of the third trigger 24 is connected to the second output of the block 21.

A device for monitoring the nodes of the synchronization drives on mobile carriers operates as follows.

The selection of the interval from the input clock sequence is carried out using multiplexer 1, counter 4, and the first element And 5. In this case, the binary code N - 2 is supplied to the input bus of the slot number 15, N is the number of the studied sync sequence interval,

On the leading edge N - 1 of the clock sequence, trigger 7 overwrites the information from the transfer output of counter 2, takes a single state 0. With the appearance of a leading edge at the output of trigger 7, a new measurement cycle begins. When this occurs, the initial reset of the converters 11 and 12 time - code and statistical analyzer 13

5 time intervals, triggers 22 and 24 of the information interval allocation unit. Triggers 8 and 9 are also in the reset state, trigger 23 of the information interval allocation unit in

In the general case, it may be in any state. The measurement of the phase of the information pulse relative to the strobe clock is performed by the time-code converter 11. The Nth clock cycle is extracted by trigger 9, which acts as a delay element for 1 clock cycle of information from trigger 7. The leading edge from trigger 9 is perceived by the time-code converter 11 as a start signal. It should be noted that the information signal may be ahead of the corresponding sync pulse. In this case, the phase between them is negative. To

5 to take this situation into account, the phase measurement can begin half a step earlier than the selected interval. A window with a length of 1.5 clock cycles is formed by an AND 6 element, the output of which is connected to the asynchronous reset input

0 of flip-flop 8. With the arrival of an information pulse during window operations, flip-flop 8 switches to a single state, which is a stop signal for converter 11 time-code. If the brake light

5 came before the start, so the phase is negative. Trigger 8 eliminates the possibility of multiple issuance of stop signals in the event that several information pulses arrive during the operation of the window.

Converter 12 time-code is designed to measure:

1) the clock period in N-M clock cycle;

3) the time interval between information pulses for the Mth clock cycle.

In this case, the measurement mode is set via the corresponding input bus 20, which controls the multiplexers 2 and 3, switching the start and stop inputs of the time-code converter 42 to those parts of the circuit that are responsible for highlighting the above-mentioned time intervals. The allocation of the time interval between information pulses is carried out by the information interval allocation unit 21 in a window spanning N and N -1 clock cycles. To highlight this window, the OR element 10 is used. With the arrival of the first information pulse

trigger 22 takes a single state, thereby generating a start signal to time-converter 12. On the leading edge of the next information signal, the unit from the output of the trigger 22

is transferred to the trigger 23, the measurement of the time interval is stopped. In the event of an information signal falling out, by the time the window ends with the OR element 10, the trigger 22 will be set to single

state, and trigger 23 will be reset. This situation is decrypted by AND element 25, and trigger 24 is set to one.

Claims (2)

SUMMARY OF THE INVENTION 1. A device for monitoring nodes of synchronization of drives on mobile carriers, comprising an input bus connected to the control input of the first multiplexer, the information inputs of which are connected to the input buses of the interval number and period of the code, and the output to the information input of the counter the input input of which is connected to the output of the first element AND, equipped with an input bus for recording the interval number, an input information bus, an input synchronization bus connected to the counter input of the counter, the output of which is connected to the information input of the first trigger and to the second input of the first AND element, the second and third triggers, the first and second time-code converters, connected by the outputs to the information inputs of the statistical time interval analyzer, and the initial reset inputs of which are combined with the static analyzer input of the same name , an input bus of the measurement mode connected to the control input of the second multiplexer, and an OR element, characterized in that, in order to increase the reliability of the control of the characteristics of the synchronization system, the second AND element is introduced into it, the third multiplexer connected to the first information input with the direct output of the third trigger, the control input to the input bus of the measurement mode, and the output to the start input of the second time-code converter, stop input which is connected to the output of the second multiplexer, an information interval allocation unit, the three inputs of which are connected respectively to the input information bus, to the output of the first trigger and to the output of the OR element, and t and output, respectively, to the second input of the second multiplexer, to the third information input of the statistical analyzer of time intervals and to the second information input of the third multiplexer, while the output of the first trigger is connected to the input of the initial reset of the time-code converters, the input of the third trigger is connected to the synchronization input bus , the information input is with the output of the first trigger, the inverse output is with the first input of the second multiplexer, and the direct output is with the second input of the OR element, the first the course of which is connected to the output of the first trigger, and the output to the direct input of the second element And, connected by another input to the output of the counter, with its output to the reset input of the second trigger, the installation input of which is connected to the input information bus, and the output to the stop input the first time converter is a code whose start input is connected to the direct output of the third trigger, the input synchronization bus being connected to the input of the first trigger. 2. The device pop. 1, characterized in that the information interval allocation unit is made in the form of three triggers and AND element, while the installation input of the first trigger together with the input of the second trigger is connected to the first input of the information interval allocation unit, the second input of which is connected to the reset inputs of the first and the third trigger, and the third one with the first (inverse) input of the And element connected by the output to the installation input of the third trigger, and the second input to the inverse output of the second trigger, the direct output of which is connected to rvym output isolation unit information interval and information the input together with the third input of the And element and the third input of the Information Interval allocation unit is connected to the output of the first trigger, the output of the third trigger being connected to the second output of the Information Interval allocation unit.  Ј //, / i.V /, g