SU1202063A1 - Device for automatic determining of error factor - Google Patents

Abstract

DEVICE FOR AUTOMATIC DEFINITION OF ERROR FACTOR, containing first, second and third indicators of a comma, first, second and third counting decades, first, second and third indicators of counting decades, a control unit, a time signal sensor, an error analyzer whose input is a device input to automatically determine the error rate and the output is connected to the first input of the control unit, the first output of which is connected to the first input of the time signal sensor, the first, second and third outputs of which are under Switched to the second, third, and fourth inputs of the control unit, the second output of which is connected to the enabling inputs of the first, second, and third indicators of the counting decades, and to the enabling inputs of the first, second, and third indicators of the time signal are connected respectively, to the information inputs of the first, second and third indicator of the comma, the output of the first counting decade through the second and third counting decades is connected to the fifth input of the control unit, the second you The first, second, and third counting decades are connected to the information inputs of the first, second, and third indicators of the counting decades, respectively, so that, in order to improve the accuracy of determining the error rate, the shaper of synchronizing pulses , the coincidence element, the first, second and third pulse counters, the comparison unit, the packet number indicator and the packet number sensor, the third output of the control unit through the coincidence element is connected to the input of the first counting decade, the third outputs are The main and second counting decades are connected respectively to the sixth and seventh inputs of the control unit, the input of the clock generator is connected to the input of the error analyzer, and the output is connected through the serially connected first pulse counter and the comparison unit to the second input of the coincidence element and the second input of the time signal sensor, the first input of which is connected to the synchronization input of the third pulse counter, the output of which is connected to the second one ode comparing unit .k entry indicator packet number and packet number through the sensor - to a data input of the third pulse counter, the second output clock pulse shaper connected to the mounting input of the first pulse counter and pulse counter via a second - a third entry mouth novochnomu pulse counter.

Description

The invention relates to communication technology and can be used in digital information transmission systems with temporal compression of data packets using multiple-access channels. The purpose of the invention is to improve the accuracy of determining the error rate. The drawing shows a diagram of the electrical circuit of the device for automatically determining the error rate. The device contains an error analyzer 1, a control unit 2, a sensor of 3 time signals, an element that matches 4, the first, second and third counting decades 5,6 and 7, the first, second third indicators 8.9 and 10 counting decades, the first, second and the third indicator 11,12 and 13 points, the generator of the synchronizing pulses 14, the first, second and third counters of 15,16 and 17 pulses, the comparison unit 18, the packet number indicator 19 and the packet number sensor 20. The device works as follows. The monitored signal enters the input of the error analyzer 1 and the input of the synchronization pulse generator 14, the error analyzer 1 provides for the extraction of error pulses, which are fed to the control unit 2, which commutes the error pulses during the measurement cycle to the input of the coincidence element 4, The control unit 2 performs the cyclic formation of the measurement start signals. Starting and supplying them to the first input of the time signal sensor 3 and to the clock input of the third counter 17 pulses. In the former 14 syncro iziruyuschih pulses are released on the frame synchronization signals and baseband signals are generated packets and time marks the beginning frame and the start of packets that postzshayut the first and second counters 15 and 16 momenta. In this case, the first counter 15 im-: pulses counts packets, frames, and the second counter 16 pulses counts the frames of the group signal. The code number of the packet being processed from the output of the first counter 15 enters the input of the comparison block 18, where it is compared with the code of the packet number to be monitored and for 632 given by the third counter 17 pulses. During the entire passage time in the device specified for the control packet at the output of the comparison block 18 a strobe signal is generated that permits the passage of error pulses from the coincidence element 4 to the first counting decade 5 and permits time counting in the sensor 3 of time signals. The same signal sets the second state, the pulse counter 16, to the initial state, as a result of which it cannot reach the state L, at which its output pulse is formed. At the same time, the third pulse counter 17 remains unchanged. If by the time the first measurement interval expired the number of errors exceeded ten and the overflow signal was formulated at the output of the first counting decade 5, the control unit 2 stops the sensor 3 time signals, prohibits the passage of error pulses through the coincidence element 4 and gives permission to display information to the first, second and third indicators 8.9 and 10 counting decades, as well as the first, second and third indicators of 11.12 and 13 comma. In this case, the signal from the first output of the sensor 3 of the time signal goes to the first comma indicator 11, which highlights the comma of the younger counting decade. The error rate is expressed as a three-digit decimal number, corresponding to the number of errors recorded by the first, second and third counting decades 5,6 and 7 and displayed by the first, second and third indicators 8.9 and 10 counting decades, by the time of the first measurement interval the first counting decade 5 did not overflow, then the time signal sensor 3 generates a second time interval, which is ten times more than the first one, after which the number of detected errors is checked again. If it exceeds ten, then, similarly to the operation algorithm discussed above, the measurement cycle is stopped and a fixed number of errors are displayed. In this case, the second indicator 12 is already highlighted, which corresponds to a change in the order of the result.

Claims (1)

USSR copyright certificate No. 678699, cl. H 04 L 11/08, 1978.. DEVICE FOR AUTOMATIC DETECTION OF ERROR COEFFICIENT, containing the first, second and third indicators of the comma, the first, second and third counting decades, the first, second and third indicators of the counting decades, the control unit, the time signal sensor, error analyzer, the input of which is the input of the device for automatic determine the error rate, and the output is connected to the first input of the control unit, the first output of which is connected to the first input of the time signal sensor, the first, second and third outputs of which are connected respectively, to the second, third and fourth inputs of the control unit, the second output of which is connected to the enable inputs of the first, second and third indicators of the counting decades and to the enable inputs of the first, second and third indicators with a comma, the first, second and third outputs of the time signal sensor are connected respectively to information inputs of the first, second and third indicator point, the output of the first counting decades through the second and third counting decades fifth input connected to a control unit _(second outputs of the first, WTO the second and third counting decades are connected respectively to the information inputs of the first, second and third indicators of the counting decades, and the only thing is that, in order to improve the accuracy of determining the error coefficient, a shaper of synchronizing pulses, an element of coincidence, are introduced into it the first, second and third pulse counters, a comparison unit, a packet number indicator and a packet number sensor, a third output of the control unit through a coincidence element is connected to the input of the first counting decade, the third outputs are the first and second counts x decades are connected respectively to the sixth and seventh inputs of the control unit, the input of the synchronizing pulse generator is connected to the input of the error analyzer, and the output is connected through a series-connected first pulse counter and the comparison unit to the installation input of the second pulse counter, to the second input of the matching element and the second input of the sensor time signals, the first input of which is connected to the synchronizing input of the third pulse counter, the output of which is connected to the second input of the comparison unit, to the input the packet number indicator and through the packet number sensor to the information input of the third pulse counter, the second output of the synchronizing pulse generator is connected to the installation input of the first pulse counter and through the second pulse counter to the installation input of the third pulse counter.