SU291357A1 - ALL-UNIVERSAL GT: irriiG-ii:] (Kn ^ ECHAeB- ^ - Google Patents

Description

Devices are known in which a special sync pulse is transmitted to synchronize the reception distributor with the transmission distributor, and the phase adjustment of the distributor is made either by delaying a certain constant number of pulses of the frequency divider or by adding a certain number of pulses during each correction.

In this case, a lot of time is required for the valves to enter the common-mode position and a certain time for clock synchronization is necessary.

The purpose of the invention is to provide simultaneous phasing, in cycles and cycles without overshoot.

This is achieved by the fact that the outputs of the clock and cyclic phase discriminators of the device are combined into common control circuits.

In this case, the outputs of the control circuits are connected to the additional inputs of phase discriminators via intermittent feedback.

The invention is illustrated in the drawing, which shows a block diagram of the device. The device includes a pulse generator 1, a controlled frequency divider 2, a unit for determining the magnitude and error sign 3, a frequency divider control unit 4 and a feedback circuit 5.

The unit 3 for determining the magnitude and mismatch sign consists of the distributor and pulses 6, two circuits “And 7 and 8, two circuits“ OR. 9 and 10, two meters // and 12, and a digital circuit. We are 13 comparing.

The frequency divider control unit 4 consists of two circuits And 14 and 15.

The feedback circuit 5 consists of two circuits "And 16 and 17.

0 To ensure synchronization, all transmitted combinations must have, at the beginning of n, at the end of a pause of the same length, longer than the maximum pauses within the combination.

5 Pa of the output of the pulse distributor 6, three gating coordinates of a, b and c are formed.

The received signal is applied to the And 7 and 8 circuits, where the a and B gating combinations are received from the receiving distributor.

In the synchronous position of the transmitter and receiver, the gating combinations must be oriented in time relative to the receiving combination. In this case, there are no signals at the outputs of the circuits “And 7 and 5.

shifted relative to each other in time.

As long as the received biometric coincides with the gating combination, counting pulses pass to the output of the circuit "AND 8, then through the circuit" OR 10 arrive at the input of the counter 12. To another counter 11, the counting pulses pass during the time of coincidence of the received combination with the gating combination a.

Digital circuit 13 compares for all times, I will give the numbers recorded in counters 11 and 12.

Depending on which of the counters will contain the larger number, the comparison circuit outputs a signal 1 or φ at the output.

When the receiving distributor advances the transmission distributor to the counting input of the counter 12, the counting impulses pass. Therefore, the digital comparison circuit 13 generates a control signal fz at the output.

The signal f2 enters the AND 15 flea control circuit of frequency divider 4, and a third gating combination c is fed here from the pulse distributor 6. During the time of coincidence of the signal f2 and the gating combination with the output of the And 15 circuit, there is a command Slowing, which at this time increases the division ratio of the controlled frequency divider 2. As a result, the phase of the pulse distributor 6 will shift in the direction of decreasing error angle.

If the pulse distributor 6 lags behind, the number recorded in the counter 11 will be larger than the number recorded in the counter 12. The digital comparison circuit 13 outputs the control signal F1. The latter, via the “And 14” scheme, creates the command “Acceleration for time, defined by the gating combination with. Due to this, the division ratio of the controlled frequency divider 2 will be reduced. The phase of the reception distributor shifts to the extent of the lag that has occurred.

Thus, the proposed synchronization device allows to reduce the time for establishing the common-mode position of the valves, since the regulation is carried out in both directions depending on the error sign, and the stages of synchronization of the valves along the cycle and clock synchronization are combined into a common regulation process.

Correction factor When adjusting depends on the magnitude of the error angle; the larger the mismatch value, the greater the correction factor.

An overshoot of the phase of the receiver in the proposed device is eliminated by the introduction of negative feedback. Command sipnals "Slowdown or" Acceleration from the outputs of the control unit of frequency divider 4 through the feedback circuit affect the counters with which the error value was detected. For this, the signals controlling the frequency divider are simultaneously applied to both the frequency divider and one

from the circuits "And 16 or 17. With the outputs of these circuits

counting pulses flow through the circuits

“OR 9 or 10 at counters 11 and 12.

If before the arrival of the strobe c a larger number was recorded in counter 12, the signal Φ2, when coinciding with the gate, opens the AND 15 circuit, and simultaneously with the change in the division factor of the controlled divider 2 frequencies, counting

impulses. This continues until the numbers recorded in counters 11 and 12 match and the control signal f2 disappears. If the mismatch value of the transmit and receive controllers is less than the selected maximum correction angle, the control action on the frequency divider is automatically terminated. This occurs at the moment when the numbers in the counters 11 and 12 are compared, since in this case there will be no signals at the output of the digital comparison circuit 13.

At the end of each cycle of the receiver, the counters 11 and 12 are set to zero.

position with a special reset pulse.

If the mismatch prior to synchronization is greater than the maximum selected correction angle, the synchronization process takes several cycles.

Subject invention

A synchronization device for code combinations limited by standard pauses, containing an unmanaged oscillator, a pulse frequency divider, a distributor, and a phase discriminator with control circuits, characterized in that, in order to simultaneously phase and cycle without overshoot, the clock and cyclic phase discriminator outputs are combined into common control circuits, and the outputs of the control circuits are connected to the additional inputs of phase discriminators via intermittent feedback.

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