SU790251A1 - Pulse selector - Google Patents

Description

(54) PULSE SELECTOR

one

Isorethination refers to pulsed and measurement techniques and is designed to analyze random pulse sequences.

A pulse selector with a wide selection of pulse durations is known, comprising an inverter, a pulse counter, a pulse generator, a gate, a differentiating element and a coincidence element.

A disadvantage of the known selector is that it does not provide channel-based. separating the results of selection of different durations, which complicates the process of analyzing random pulse sequences.

The closest pulse selector contains a block for shortening the input pulses of a series-connected differentiating element and an impulse generator connected to the output of the block for shortening the input pulses, an inverter connected at the output of the block for shortening the input pulses, and matching elements at the output of the device, one of which is connected to the output the inverter and the direct output of the pulse generator, and the other to

the unit for shortening the input pulses and the inverse output of the C2X pulse generator

However, in the analysis of random pulse sequences, due to the small selection limits, the known selector does not provide a quantitative estimate of the distribution of pulses in duration in one 10 implementations, which leads to significant errors in the analysis of pulse processes.

The purpose of the invention is to expand the selection limits with one f temporal increase in the accuracy of work. This delta is achieved by the fact that the pulse selector, containing a pulse generator, is connected in series to a shortening unit 20 of input pulses and an inverter, a differentiating element, the output of which is connected to the first inputs of the matching elements, the outputs of which are connected to the output buses of the device, a signal distributor, whose outputs are connected respectively to the second inputs of the coincidence elements, a valve, whose output is connected to the first input of the signal distributor, and the inputs

BO1 -TRPiKio - to p |,; stroke of the pulse generator and inverter, the synchronizer input of which is connected to the input of the inverter, and the output to the synchronization inputs of the sipna distributor and pulse generator, the control and monitoring unit, the outputs of which are connected to the control inputs of the input pulse shortening unit and the pulse generator, and the output signal analysis unit, the output of which is connected to the input of the control and monitoring unit, the additional output of which is connected to the auxiliary input of the signal distributor.

The drawing shows a functional electrical circuit of the proposed pulse selector.

The pulse selector contains a series of input pulse shortening unit 1, an inverter 2 and a differentiating element 3, a series-connected pulse generator 4, a valve 5, the input of which is connected to the output of inverter 2, a signal distributor b, a matching unit block 7, one of the inputs of which is connected with the output of the element 3, and the output analysis unit 8, as well as the synchronizer 9, connected between the output of the block 1 for shortening the input pulses and the clock inputs of the 4 pulse generator and the distributor b, the unit 10 controls the shortening and control of input pulses, the output of which is connected, respectively, to the second inputs of the unit 1 shortening the input pulses, the pulse generator 4 and to the input of the distributor b, and the input to the output analysis unit 8, and an input for program control from an external source of control signals, such as a computer.

The device works as follows.

When a sequence of pulses is received at its input). unit 1 shortens to a predetermined minimum for body C i i 1 each input pulse. Pulses of less than a specified minimum duration are not controlled and do not participate in further work. For any pulses that exceed the minimum setpoint in duration, the signal of the difference between the input and shortened pulses at the output of block 1 is inverted by inverter 2 and opens gate 5. Simultaneously with the onset of this signal, synchronizer 9 sets the distributor b to the initial state and a predetermined phase of the pulse generator 4 Pulses from the output of the generator 4 entersAcpp through the open valve 5 to the input of the distributor b, resulting in each of its AND outputs

After the pulse, pulses appear that perform the functions of a moving control interval equal to the period T of the generator 4.

The shortened input pulse is differentiated by element 3 and is fed to the input of block 7 of coincidence elements. As a result, an input pulse is recorded at the nth output of the block 7 coincidence elements, the duration t of which is determined

expression t t

Fri

Thus, the introduction into the selector of pulses of the distributor and the valve allows one to expand the selection limits to the value of pT, and with an increase in n, the value of T can be reduced, which is equivalent to an increase in the accuracy of control. In addition, an important advantage of this device is the separation of control results into n outputs, each of which has its own range of durations with an interval of control T.

If it is necessary to change the interval of shortening the input pulses (value Tf) and the control interval (value t), use block 10, which is either set to automatically change the specified intervals (for example, if it is made as a digital potentiometer with an internal switching pulse generator) or controlled in turn from an external source of control signals according to a given program, for example from a computer

The block 10 acts on the timing of the specifying elements of the block 1, for example, the value of the resistor R of the RC circuit (in the case of its integral execution) and the generator 4, for example, switching the circuit or quartz and thus changes the indicated intervals Tjrim

Introduction of the shortening and control of the input pulses to the pulse selector of the interval control unit allows its functionality to be expanded, in particular, when analyzing random pulse sequences with different statistical characteristics.

The output analysis unit 8 is used in the processing of digital discrete information arriving at the device input in the form of well-defined pulse sequences alternating according to a given law. In this case, the analysis block 8, the output signals, evaluates the received pulses and their combination and acts on the block 10, providing a change in the parameters and selection of p and T for the next expected-pulse sequence.

Introduction to the pulse selector of the output analysis unit provides adaptive processing of discrete information.

Thus, the proposed selector can find a very diverse use both as a means for investigating various processes reducible to pulsed sequences, and as a means of processing discrete information in multi-channel communication.

Claims (3)

1. A pulse selector comprising a pulse generator, sequentially connected an input pulse shortening unit and an inverter, a differentiating element whose output is connected to the first inputs of the coincidence elements whose outputs are connected to the output buses of the device, so that while simultaneously improving the accuracy of the selection, a signal distributor has been entered, the outputs of which are connected respectively to the second inputs of the coincidence elements, the valve whose output is connected the first input signal distributor, and inputs respectively - to the outputs of the pulse generator and the inverter, and a synchronizer having an input coupled to the input of the inverter, and output - with sinhronizirukvdimi distributor inputs signals and pulse generator. 2. Pop.1 selector, characterized by the fact that, it is entered 0 a control and monitoring unit, the outputs of which are connected by the guiding inputs of the block shortening the input pulses and the pulse generator. 3. Selector pop.2, distinguished by 5 Sch and with the fact that it introduced an analysis unit for output signals, the output of which is connected to the input of the control and monitoring unit, the additional output of which is connected to the auxiliary input of the signal distribution body. Sources of information taken into account in the examination 1. USSR author's certificate No. 545076, cl. H 03 K 5/18, 1975. 2. USSR author's certificate No. 56332, cl. H 03 K 5/20, 1975.