RU1780113C - Device for synchronization of information picked up from magnetic carrier - Google Patents

Abstract

The invention relates to instrumentation, in particular to devices for synchronizing information, reproducing from a magnetic medium, and is an improvement of the invention by autoswitch. Ns 1704163. The purpose of the creation of this device is to increase the reliability of synchronization by ensuring the self-installation of a voltage-controlled generator, in the absence of a reference frequency at the input of the device, when tuning the PLL loop, and also when changing the input frequency by an amount greater than the specified value. The device comprises a unit for generating the compared signals, made in the form of a single-shot 1, triggers 4 ^ 5 and 8, elements 3,6 and 7, as well as a phase detector 10, a low-pass filter ^ 1, a frequency setting unit 14, a generator 12, a frequency divider 13 . 1-4-10-11-14-12, 2-4-7-8-9-5, 3-5-2, 5-6-8. 12-13-5. 1 ill. 1011 > & "iA XI00оW > & u

Description

The invention relates to instrumentation, in particular to devices for synchronizing information reproduced from a magnetic medium, and is an improvement of the device described in ed. M 1704163.

The main copyright certificate describes a device for synchronizing information reproduced from a magnetic medium, which co contains an input bus connected to the input of a single vibrator, the direct output of a single vibrator connected to the D-input of a D-trigger, and the inverse output to one of the inputs of the second element And and to the C-input of the second D-trigger. The outputs of the two elements And are connected to the S-inputs of both D-flip-flops, respectively. The inverse outputs of both D-flip-flops are connected to the inputs of the fourth AND element, the output of which is connected to the R-input of the RS-flip-flop. .The direct output of the first D-trigger is connected to one input of the phase detector, as well as to the other of the inputs of the second and third elements I. The direct output of the second D-trigger is connected to the second of the inputs of the phase detector, as well as to the other of the inputs the first and third elements I. The output of the third element And is connected to the S-input of the RS-trigger. which by its output through the low-pass filter is connected to the inverse R - inputs of both D - triggers. The output of the phase detector is connected to the input of a low-pass filter, the output of which is connected to the input of a voltage controlled generator. The output of the voltage-controlled generator is connected to the output bus, through the frequency divider it is connected to the inverse D input of the second D-trigger, the C-input of the first D-trigger, and to the second input of the first element I.

The disadvantages of the described device include low synchronization reliability due to the impossibility of finding the generator frequency in the middle of the operating range when there is no reference frequency at the input of the device, when tuning and adjusting the PLL loop, as well as when the input frequency is changed by more than the permissible value.

An object of the present invention is to increase the reliability of synchronization by reducing the time it takes for the generator to synchronize after a failure of synchronization for any reason.

This goal is achieved by introducing a frequency setting unit into the device according to the main copyright certificate, through which a low-pass filter is connected to a voltage-controlled generator, while the frequency setting unit is made in the form of a source follower, a control voltage source, a voltage source key a comparator, the output of which is connected to the control, to it is the key input, one input of which is connected to the input of the source repeater and is the input of the frequency setting unit, the output of which is the output a key, the other input of which is connected to the output of the control voltage source, and the output of the source follower is connected to the control input of the comparator, the first and second inputs of which are connected to the first and second outputs of the voltage source, respectively. The frequency setting unit allows

5 to keep the frequency of the generator controlled by the voltage in the middle of the operating range when there is no reference frequency at the input of the device, when tuning and adjusting the PLL loop, as well as when changing

0 input frequency is greater than the permissible value.

The introduced distinctive prizes 1-1aki, in combination with the remaining features of the object, give a new property: reduction of the time of entering the synchronism of the generator after failure of synchronization for any reason, which meets the criterion of significant differences.

The drawing shows a structural diagram

0 of the proposed device.

The device contains a unit for forming the compared signals, identical to that described in the main copyright certificate N 1704163 and containing the input

5 a bus connected to the input of one-shot 1, with a direct exit, and one-shot 1 connected to the D-input of D-Tpurrepa 4, and the inverse output to one of the inputs of elemen-8 AND

3and to the C-input of the D-flip-flop 5. The outputs of the clients 0 and 2 and 3 are connected to the Z-input of the B-flip-flops

4 and 5, respectively. Inverted outputs D of triggers 4 and 5 are connected .; : from the inputs of the element 1/1 7, the output of which is connected to the R-input of the RS-trigger 8. The direct output of the D-trigger 5 of gen 4. is the first output of the forming unit with a separate bi X signals and is connected to one input of the phase detector 10, as well as to the other from the input j; 4ef.ieh of items 3 and 6. Direct output of D-triggers 5

0 is Blop's second output of the bopi-ii-ipoBani of the compared signals and psdoconnected to the second of the inputs of the phase detector 10, as well as to the other of the inputs of element 1;

5 RS-flip-flop 8, which is its own; and by entering through the low-pass filter 9 it is connected to the active R-INPUT of the D-flip-flops 4 and 5.

In addition, the device contains an active detector 10, the output of which is connected via a low-frequency signal 11, bls; x frequency setting, a voltage-controlled oscillator 12. and a frequency divider 13 with another input of the unit for generating the compared signals, which is connected to the inverse D-input of the D-flip-flop 5, the C-input of the D-flip-flop 4 and to the second input of the And 2 element, as well as the output bus connected to the output of the voltage controlled oscillator 12.

Moreover, the frequency setting unit 14 contains a source follower 15. the input of which is connected to one of the inputs of the key 18 and is the input of the frequency setting unit 14, as well as the control voltage source 19, the output of which is connected to the other input of the key 18. In addition, the output of the source follower 15 is connected to the control input of the comparator 16, to the reference inputs of which the corresponding outputs of the voltage source 17 are connected. The output of the comparator 16 is connected to the control input of the key 18, and the output 18 is the output of the frequency setting unit.

The device operates as follows.

At the initial moment of time, two options are possible: the frequency front of the generator from the output of the divider 13 is ahead of the frequency front from the inverse output of the one-shot 1 or is behind. The duration of the pulses at the output of one Oscillator 1 is determined by the time of the driving elements so that the condition is satisfied:

,

where X is the pulse duration at the output of one-shot 1;

1 / T is the frequency of the reproduced signal,

Frequency mismatch in both cases is expressed in the fact that high-level pulses are received from the output of the unit for generating the compared signals to the input of the phase detector 10, which from the output of the low-pass filter 11 through the frequency setting unit 14 will cause a change in the control voltage of the generator 12, changing its frequency until the pulses cease to arrive at the input of the phase detector 10, which indicates that the reference and natural frequencies are equal.

Let in the tracking mode of the nominal input frequency the voltage level at the output of the low-pass filter 11 be equal to and which is supplied to the input of the source follower 15. Part of this level Uo from the output of the true follower goes to the input of the comparator 16 at the reference inputs

which there are levels and I and U; (lower and upper bounds) from the outputs of the source;

17 voltage. When the device is in tracking mode, the condition is satisfied:

.

In this case, the control voltage from the output of the comparator 15 holds the key

18 in a state in which the output of the low-pass filter 11 is connected to the input of the generator 12. Thus, the voltage U is present at the input of the generator 12. This allows it to operate in tracking mode.

Now, for some reason, let the reference frequency at the input of the device increase. This will cause an increase in voltage at the input of the source follower 15, which causes an increase in Uo at the input of the comparator 16 and as soon as the condition

,

then the output control voltage of the comparator 16 transfers the key 18 to a state in which the output of the control voltage source 19 is switched to the input of the generator 12. The voltage value at the output of the control voltage source Ucp 19 is selected such that the frequency from the output of the generator 12 is kept in the middle of the operating range. This mode will continue until, by lowering the frequency at the input of the device, condition (2) is satisfied. Then the output of the low-pass filter 11 is switched by a key

18 to the input of the generator 12 and it will return to the operating mode of tracking the reference frequency.

Similarly, the frequency setting unit operates in the event of a decrease in the reference frequency at the input of the device. In this case, Uo drops to:

which in turn will cause the comparator 16 to operate, which will switch the key 18 to a state in which the output of the control voltage source 19 is switched to the input of the generator 12. Since the voltage value at the output of the control voltage source 19 Ucp is chosen such that the frequency from the output of the generator 12

is kept in the middle of the operating range, this will continue until condition (2) is satisfied by increasing the frequency at the input of the device. Then the output of the low-pass filter 11 is switched by a key 18 to the input of the generator 12 and it

returns to the operating mode of tracking the reference frequency,

When tuning the PLL loop, it’s enough not to supply the reference frequency to the device input. In this case, condition (4) is guaranteed to be satisfied, which will cause the operation of the frequency setting unit, as described above. All adjustments and tuning of the PLL loop are convenient when you know for sure that the frequency from the generator output is in the middle of the operating range. In addition, for each particular device, it is possible to rigidly set the permissible range of reference frequency variation, varying Ui and Ua. Obviously, the frequency setting unit improves synchronization reliability by reducing the capture time of the reference frequency, since before the frequency arrives, the generator is already in the middle of its operating range.

Claims (1)

SUMMARY OF THE INVENTION Automatic synchronization device for information reproduced from a magnetic medium NS 1704163, characterized in that, in order to increase the reliability of synchronization by reducing the time of entering synchronism, a frequency setting unit is introduced into it, through which a low-pass filter is connected to a voltage-controlled generator, while the frequency setting unit is made in the form source follower, source of control voltage, switch, source voltage and a comparator, the output of which is connected to the control input of the switch, one input of which is connected to the input of the source repeater and is the input of the frequency setting unit, the output of which is the key output, the other input of which is connected to the output of the control voltage source, and the output of the source follower is connected to the control input of the comparator, the first and second inputs which are connected respectively to the first and second outputs of the voltage source.