SU828431A2 - Device for phasing start-stop electronic regenerator - Google Patents

Description

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The invention relates to a telegraph communication technique and can be used in phasing devices.

From the main invention of the author. St. No. 340108, a device for phasing a start-stop electronic regenerator is known, comprising a start-stop distributor, a forming stage, the output of which is connected to the start-stop distributor, serially connected master oscillator and a key, the output of which is connected to the start-stop distributor, and the control input is connected to the input of the differential circuit and the start-stop output trigger, one input of which is connected to the input device, and the other with the start-stop distributor, trigger, coincidence selector, and tr gger inputs connected to the outputs of the start-stop of the distributor, and the output - to the input matches the selector, the output of which is coupled to inputs of the differentiating circuit 1.

However, the known device for phasing a start / stop electronic regenerator has a low phasing accuracy due to the possibility of moving the start / stop distributor out of phase when operating in communication channels with large interference.

The purpose of the invention is to improve the accuracy of phasing.

To do this, in a device for phasing the start-stop electronic regenerator, containing a start-up distributor, forming a cascade, the output of which is connected to the start-stop distributor, serially connected master oscillator and key, the output of which is connected to the start-stop distributor, and the control input - to the input of the differential circuit and the start-stop output a trigger, one input of which is connected to the input device, and the other to the start-stop distributor, a trigger, a match selector, and a trigger the inputs are connected to the outputs of the start-stop distributor, and the output is connected to the input of the match selector, the output of which is connected to the inputs of the differentiating circuit, are additionally connected in series to the counter and threshold unit, the output of which is connected to the second input of the forming cascade, and connected to the first and second inputs of the counter, respectively the outputs of the match selector and distributor.

The drawing shows the structural electrical circuit of the device for phasing a start-stop electronic regenerator.

The device contains a start-stop valve 1, forming a cascade 2, a master oscillator 3, a key 4, differentiating circuits 5, 6, a start-stop trigger 7, a trigger 8, a match selector 9, a counter 10, a threshold block I, an input device 12.

The proposed device works as follows.

The start-stop trigger 7 is started by the start transition, the key 4 is opened and the start-stop distributor 1 receives clocks from the master oscillator 3. The start-stop trigger 7 triggers the start-stop distributor 1 through the forming cascade 2 and starts the stop-stop distributor 1. Start stop-stop 1 generates pulses which the parcels are registered, and also forms two sequences of imulses.

The trigger 8 is transferred to a single state from one pulse train and returns to the zero state from another pulse train. The single state of the trigger 8 corresponds to the reception of the middle part of the parcels during the common-mode operation of the start-stop distributor 1.

The coincidence selector 9 receives the resolving potential from trigger 8 and pulses are received through differentiating circuit 6, which correspond to a change in the polarity of the input signal from one to zero. If any package is distorted so much that its front coincides in time with the resolution potential coming from trigger 8, then from the match selector 9 a pulse is output to counter 10. Since the probability of distortion of several messages in one start-stop combination is small, then for start-stop the cycle counter 10 will not count enough pulses to trigger the threshold unit 11. At the end of the start-stop cycle, the start-up valve 1 sets the start-stop trigger 7 and the counter 10 to zero. Since the stop package has utorakratnuyu duration at startup asinfaznom inching distributor 1 matches the selector 9 will work both on true

starting transition, and from all subsequent transitions. In this case, the counter 10 will count enough pulses to trigger the threshold unit 11. Due to the distortion of the parcels, it is not known which of

the emulsions that hit the moment of the resolving potential from trigger 8 to the match selector 9 are a true starting transition, therefore the threshold unit 11 through the shaping cascade 2 will produce

adjustment of start-stop distributor 1 into two parcels. With such an adjustment, there is no danger of slipping through the true starting transition, since the unit and zero are separated in time by an interval of at least

two parcels.

Claims (1)

1. USSR author's certificate No. 340108, cl. H 04L 7/02, 1970 (prototype).