SU1053300A1 - Device for automatic determination of error factor - Google Patents

Abstract

1. DEVICE FOR AUTOMATIC DEFINITION OF ERROR COEFFICIENT, containing serially connected error analyzer / control unit - and time signal sensor, first, second and third decade counters connected in series, as well as an order indicator and first, second and third number indicators, corresponding inputs which are connected to the outputs of the bits, respectively, of the first, second and third decade counters, berth the output of the first and third decade counters and the first,: the second and third outputs of the sensor signal time is connected respectively to the second, third, fourth, fifth and sixth inputs of the control unit, the second and third outputs of which are connected respectively to the input of the first ten-day counter and to the enable input of the order indicator, characterized in that error rate, a trigger and a coincidence block are entered in it, the signal inputs of the order indicator are connected to the corresponding signal outputs of the time signal sensor, The second outputs of which are connected to the corresponding inputs of the coincidence unit, the outputs of which are connected to the corresponding additional inputs of the control unit, the start input of which is connected to the trigger input c6ipoca, the input of which is connected to the input of the third decade counter. ,: /,, 2. The device according to claim 1, which is a sensor. The time signals are made in the form of serially connected additional dex counters, the outputs of which are connected to the signal inputs of the multiplexer, the output of which is connected to the signal input of the module and the counting input of the counter, the outputs of which are connected to the combined corresponding control inputs of the multiplexer A and the multiplexer.

Description

The invention relates to telecommunications and can be used to determine the error rate in digital communication systems. A device for automatically determining the error rate is known, which contains a serially connected error analyzer, a smart number error holder and a display unit whose second input is connected to the output of the control unit 12 via a display unit. However, this device requires a long measurement time, since it does not accept measures to protect overflows. As a result, if such an overflow occurs, it is necessary to reduce the duration of the measurement session and to take measurements again to obtain a numerical value of cient error. A device for automatically determining the error rate is known, which contains a time counter, the corresponding inputs of which are combined with the inputs of the error counter, and each output of the time counter is connected to the input of the corresponding indicator C2 through the serially connected corresponding elements AND. . “However, in this device, if the error counter overflows, the measurement result is displayed in the fraction where it is inconvenient to use. The closest technical solution to the invention is a device for automatically determining the error rate, comprising a serially connected error analyzer, a control unit and a time signal sensor, the first, second and third decade counters in series, as well as an order indicator and the first, second and third indicators the numbers, the corresponding inputs of which are connected to the outputs of the bits, respectively, of the first, second and third decade counters, with the output of the first and third decadal counters The sensors and the first, second and third outputs of the time signal sensor are connected respectively to j; the second, third, fourth, fifth and sixth inputs of the control unit, the second and third outputs of which are connected respectively to the input of the first ten-day counter and to the enabling input of the indicator of the SOC order J. A disadvantage of the known device is a considerable measurement time for large values error rate, since in the case of the overflow of all decade counters, the magnitude of the error rate remains unknown, and to determine it, it is necessary to repeat measurements over a shorter time interval. The purpose of the invention is to reduce the time and determination of the error rate. The goal is achieved in that the device for the automatic determination of the error rate, containing serially connected error analyzer, control unit and time signal sensor, connected in series first, second and third decade counters, as well as the order and the first, second and third indicators of the number, (The corresponding inputs of which are connected to the outputs of the bits of the first, second and third decade, respectively, The first and third decade counters and the first, second and third time signal outputs are connected to the second, third, fourth, fifth and sixth inputs of the control unit, the second and third outputs of which are connected to the input of the first decade counter and c. permissive indicator input of the order, entered in series the trigger and block of coincidence., while the signal inputs of the indicator of the order are connected to the corresponding signal outputs of the time signal sensor, up to Additional outputs of which are connected to the corresponding inputs of the coincidence unit, the outputs of which are connected to the corresponding additional inputs of the control unit, the start input of which is connected to the trigger reset input, the installation input of which is connected to the input of the third decade counter. In addition, the time signal sensor is made in the form of serially connected additional decade counters, the outputs of which are connected to the signal inputs of the multiplexer, the output of which is connected to the signal input of the demultiplexer and the counter input of the counter, the outputs of which are connected to the combined corresponding control inputs of the multiplexer and demultiplexer. Figure 1 shows a block diagram of a device for automatically determining an error rate; figure 2 - the same time signal sensor. The device for automatically determining the error rate contains an error analyzer 1, a control unit 2, a time signal sensor 3, first, second and third decade counters 4-6, first, second and third indicators 7-9, 10 order indicator, trigger 11 and block

12 matches. The 3 time signal sensor consists of additional, decade counters 13 - multiplexer 14, counter 15 and demultiplexer 16,

The device works in the following 5 ways.

On the Start command, zeroing the first, second, and third decade counters of 4-6 devices (conventionally not shown in the circuit), the sensor of 3 time signals is started; and the normal pulses are passed from the error analyzer 1 through the control unit 2 to the counting input of the first ten-day counter 4.15

Pulses at the outputs of the sensor 3 time signals appear after the first, after the beginning of the measurement, the intervals T (at the first additional output), t2 10 t (at the second additional output), t 3. 104g, (at the last additional output ), the first output), tg slOtg (at the second output) and S + -i 3 the third output), with de T - the clock interval of the input digital signal. Let the sigly at the output of the second counting decade, corresponding to the filling of the first and second decade counters 4 and 5, with respect to 13, the time t, and k-1, and K45-1. This signal sets the trigger 11 to position 1, thereby opening the block 12 matches. The impulse, having come to the k-th additional output of the sensor 3 time signals, therefore passes through the block 12 coincidences in the control block 2. Upon receipt of this pulse, the control unit 2 prohibits the passage of error pulses to the input of the first 40-cade counter 4, stops the sensor of 3 time signals and issues a resolution to the indicator 10 times.

The measurement session is stopped, and dc the measurement result is shown as a number j-lO, where A - A are the numbers corresponding to the indications of the corresponding number indicators, and K is the indication of the 10th order, ei

If by the end of the measurement interval tg the number of recorded errors is more than ten, the measurement session ends and the measurement result is displayed.55

If the number of errors is less than ten, the sensor of 3 time signals withstands the measurement interval tg slOtg. If at the end of the second interval the number of errors is more than ten, the measurement session ends and is displayed.

measurement result. If the number of errors is less than ten, the sensor of 3 time signals maintains the measurement interval tj 100 tj.

The capacity of the third decade counter 6 is selected based on the permissible probability of losing the measurement session and the actual distribution of errors.

Even with a capacitance of these bits of 20 binary units, the overflow probability is less, T, iB, the probability of losing the measurement session is almost zero, that is, such a capacity is sufficient for any error distributions.

The sensor 3 time signals works as follows

On the Start signal, the control unit 2 zeroed additional spacer counters 13 - a counter 15, after which additional decade counters start counting clock (clock) pulses. After the first additional decade counter 13 is filled, a pulse from its output, corresponding to the end of the interval 10 T, passes to the second additional decade counter 13 and through the multiplexer 14 and demultiplexer 16 to the first additional output of the sensor 3 time signals. The falling edge of this pulse (from the output of multiplexer 14) records 15 units in the counter. The unit code from the output of the counter 15 switches the multiplexer 14 and the demultiplexer 16 so that the output of the second additional decade counter 132®UDD® is connected to the second additional output of the sensor 3 time signals. At the end of the interval of 100 T, a pulse from the output of the second additional decade counter 13 passes through multiplexer 14 and demultiplexer 16 to the second additional output of the sensor 3 time signals, and also sets the code of Deuce, etc. in the meter 15.

Since the contents of counter 15 is a code for the order K of the measurement result, this code is displayed on the indicator 10 for order. The control unit 2 contains, for example, a set of And elements, or memory storing triggers.

The technical and economic efficiency of the proposed device consists in reducing the time for occupying a communication channel by spawning due to the reduction in the time for determining the error rate, i.e. in increasing the efficiency of its use for the transmission of useful information.

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Claims (2)

1. DEVICE FOR AUTOMATIC DETERMINATION OF THE 'ERRORS' COEFFICIENT, containing a series-connected error analyzer; a control unit and a time signal sensor connected in series to the first, second and third ten-day counters, as well as an order indicator and first, second and third indicators. numbers, the corresponding inputs of which are connected to the outputs of the discharges of the first, second and third decade counter, respectively, and the output of the first and third decade counter and the first, second and third outputs of the time signal sensor are connected respectively to the second, third, ... fourth, fifth and sixth the inputs of the control unit, the second and third outputs of which are connected respectively with the input of the first decade counter and with the enable input of the order indicator, characterized in that, in order to reduce the time for determining the coefficient error factor, a trigger and a coincidence block are connected in series, while the signal inputs of the order indicator are connected to the corresponding signal outputs of the time signal sensor, the additional outputs of which are connected to the corresponding inputs of the coincidence block, the outputs of which are connected to the corresponding additional inputs of the control unit, the start input of which is connected to the trigger reset input, the installation input of which is connected to the input of the third decade counter. 2. The device according to claim 1, characterized in that the time signal sensor is made in the form of series-connected additional decade counters, the outputs of which are connected to the signal inputs of the multiplexer, the output of which is connected to the signal input of the demultiplexer and to the counter input of the counter, the outputs which are connected to the combined respective control inputs of the multiplexer ^ and demultiplexer.