SU284015A1 - DEVICE OF PHASING OF DIGITAL REGENERATORS - Google Patents

Description

The invention relates to the field of telecommunications and can be applied in various systems for transmitting and receiving discrete information.

Phasing devices of digital communication system regenerators are known, which contain a local reference oscillator, the output of which is connected to the input of a controlled divider consisting of an " add or " pulse reading and divider device. The control signal for the divider is taken from the opposite-pole outputs of the phase discriminator, comparing the input signals passing through the device for sampling and the signals from the divider output.

As a result of phase comparison, a pulse appears at one of the outputs of the phase discriminator (depending on the sign of phase mismatch), which is added or subtracted through the "add or" subtractor device in the pulse train of the reference generator, while the sequence of pulses at the output of the divider and the device as a whole is shifted, compensating for phase mismatch. The larger the sampling interval of the fronts, the slower the phasing device and, therefore, is more resistant to random fluctuations of the phase of the input signal.

high stability of the phasing device to random fluctuations of the phase of the input signal by increasing the sampling interval of the fronts of the input signal due to the narrowing of the capture band of the phasing device by the frequency of manipulation of the input signal.

In order to obtain a high stability of the phasing device of the regenerator to random fluctuations of the phase of the input signal due to interference and random nature of the manipulation without sul; the capture band in terms of the frequency of manipulation of the input signal in the proposed device.

This goal is achieved by connecting a synphasm indicator to the outputs of a phase discriminator in parallel to a controlled divider, consisting of two integrators, the outputs of which are connected to the inputs of an adder, a threshold element, two one-vibrators connected in series between the output of the sum of the controller and the control input of the key, connected between the input device and the phase discriminator.

An additional positive effect of the proposed phasing device is to automatically adapt to the transmission conditions in the communication channel by changing the ratio of the operating time of the phasing device in modes with large and small inertia.

The drawing shows a block diagram of the proposed device.

The phasing device contains input signal processing stages /, connected via -key 2 to the input of phase discriminator 3.

The inputs of the phase discriminator are connected simultaneously with the control inputs of the divider 4, the signal input of which is connected to the reference generator 5 and to the inputs of the integrators 6 and 7, the outputs of the latter are connected to the Adder 8, and serially connected threshold element between the output of the adder and the control input of the key

9 and one-shot 10 and 11.

The device works in the following way.

The fronts of the input pulses from the output of the input stages through the key arrive at the input of the phase discriminator, where they are compared with the reference pulses coming through the controlled divider from the output of the reference generator, from the outputs of the exclusion and the addition of the phase discriminator, the correction pulses go to the controlled divider and integrators 6 and 7.

The averaged values of the output signal from each of the integrators are fed to an adder. In the case of phase divergence of the reference pulses With the averaged phase of the input impulses on the adder, the voltage of the corresponding Sign is approached, which is close to the degree that the pulses are in phase.

When a sufficient degree of coincidence of the phases of the reference pulses with the average phase of the input signals is reached (the voltage at the adder is close to zero at THIS), the threshold element is triggered by the output signal of which the one-shot 10 is triggered. The leading edge of the output one-shot impulse

10 the one-shot 11 is started, the output pulse of the last specified duration acts on the key, stopping for the duration of this duration the arrival of the fronts of the Signal to the phase discriminator (i.e. during this time the phase correction of the reference pulses is not performed). After this time has elapsed, the one-shot 10 returns to its original state, and the key passes the edges of the input signal to the phase discriminator. The one-vibrator // is at this time still insensitive to the signals of the threshold element, since the duration of its output impulse is chosen longer (1.1-1.3 times) than the duration of the output impulse of the one-vibrator 10, and it returns to its original state.

The state is by the time when a attachment appears on the adder that is proportional to the magnitude of the phase difference between the input and reference impulses. As the phase of the reference

pulses, this voltage decreases and when the value is sufficiently close to IK zero, the threshold element acts again, acting on the one-shot 10, which starts the One-shot 11, which switches the key to the open state, i.e. the cycle of the phasing device repeats inertial mode.

Thus, alternating alternation occurs in the operation of the phasing device.

intervals of operation in the inertial mode (the fronts of the input pulses are not received, on the phase discriminator) and in the mode with low inertia (all the fronts of the input pulses go to the phase discriminator and

the correction of the phase of the reference signal is made), and the operating time of the phasing device in the inertial mode is specified, and the operating time in the low-inertia mode is automatically determined depending on the amount of asynchronous occurring between the input and reference pulses.

Subject invention

35

Phase regenerating device of digital communication systems, containing input cad-frames of signal processing, reference generator

voltage divider output controlled by signals from the outputs of the phase discriminator, comparing the input signal and the output signal of the controlled divider, characterized in that, in order to increase the stability of the device to fluctuations of the input signal, without narrowing the frequency band, input signal is fed to the phase discriminator | Through the key, and the opposite polarities of the phase discriminator are connected to

an in-phase indicator consisting of two integrators, the outputs of which through the adder and the series-connected threshold element and two single-slot devices are connected to the control input of the key.

entrance

Output