SU1467778A2 - Device for measuring marginal distortions of binary signals of the domination type - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to expand the functionality. The device contains a threshold unit 1, a 2 parcel counter, a counting trigger 3, r-4 quantization pulses, And 10, 11, and 20, differentiating el-12, analyzer 13, accumulator 14, indicator 15, inverter 16, switch 17, the block of the ban 18, the EL OR 19 and the block selection 21 mode of operation. The goal is achieved by measuring the transmission rate of the binary signals. 1 il.

Description

The invention relates to telecommunications, can be used to control and configure telegraph channels and channels for transmitting binary information and is an improvement of the device according to ed. St. No. 1215186.

The purpose of the invention is the expansion of functionality by measuring the transmission speed of binary signals.

The drawing shows a structural electrical diagram of the proposed device.

A device for measuring edge distortions of binary signals of the predominance type comprises a threshold block 1, a counter 2 parcels, a counting trigger 3, a quantization pulse generator 4, consisting of a driving pulse generator 5, the first 6 and second 7 counters, a comparison unit 8 and a second differentiating element 9, the first 10 and second 11 elements AND, the first differentiating element 12, the analyzer 13, the drive 14, the indicator 15, the inverter 16, the switch 17, the prohibition unit 18, the OR element 19, the third AND element 20 and the operation mode selection unit 21.

The device operates as follows.

In the initial state, the counters 2, 6 and 7 and the counting trigger 3 are in the zero state (the scheme for setting to the zero state is not shown).

When measuring edge distortions from the output of the operation mode selection block 21, the logic level is “0”. At that, the switch 17 connects the input of the counting trigger 3 to the output of the counter 2 parcels, the third element And 20 is closed, and the block 18 prohibits the passage of the signal from the direct output of the counting trigger 3 to the third input of block 8 comparison. During the first P periods of the signal, the frequency of the generator of 4 quantization pulses is automatically tuned to the frequency of the input signal so that for the P periods of the signal, the generator of 4 quantization pulses generates 10 ^a pulses, where a is an integer. Over the next P periods of the signal, edge distortion is measured. The process is then repeated.

A binary signal of the type “1: 1” (meander) is supplied to threshold block 1, from the output of which, in the form of positive rectangular pulses of the same duration and given amplitude, is supplied to the counter 2 of the packets with the conversion factor P.

The first counter 6 receives the pulses of the master oscillator 5, and the second counter 7 receives the pulses from the transfer output (P) of the first counter 6.

After the arrival of P periods of the signal, the pulse from the output of the counter 2 parcels transfers the counting trigger 3 to a single state, while the logic level “1” from the direct output of the counting trigger 3 'through the inhibit block 18 allows the operation of the comparison unit 8. Also, the logic level “1” from the direct output of the counting trigger 3 is supplied to the first differentiating element 12, the pulse from the output of which sets the analyzer 13 to zero before starting the measurement. Since the information inputs of the first 6 and second 7 counters are connected to the inputs of the comparison unit 8, and the output of the last one is connected to the setting input “0” of the first counter 6, when the states of the counters 6 and 7 coincide, an impulse appears at the output of the comparison unit 8, which resets the first counter 6. Then the first counter 6 again continues to count the pulses of the master oscillator 5 until it matches the state of the counter 7, and so on. In order to be able to compare the states of the counters 6 and 7 by the comparison unit 8, their bit capacity and, therefore, the capacitance should be the same.

The conversion factor of the first counter 6 in this case is determined by the state of the second counter 7 and is equal to the number of pulses arriving at the counter 7 during the first P periods of the signal.

During the next P periods of the signal, 10 ^{a of} quantization pulses are generated at the output of the comparator 8.

Thus, the automatic adjustment of the frequency of the generator 4 quantization pulses to the frequency of the input signal.

The quantization pulses from the output of the comparison unit 8 are supplied to the inputs of the first 10 and second 11 elements I. During the duration of the positive signal bursts, the quantization pulses through the first element And 10 and the element OR 19 enter the inputs of the direct count (+ 1), and during the duration of the negative sending the signal through the second element of the IN to the input of the countdown (-1) of the analyzer 13. Thus, the relative magnitude of the edge distortions of the type of prevalence is measured. Information about the measured value of edge distortions and the sign of predominance from the output of the analyzer 13 is fed to the inputs of the drive 14.

At the end of the measurement (after passing the second P periods of the signal), the pulse from the output of the counter 2 packages sets the counting trigger 3 to zero, while the logic level “1” from the inverse output of the counting trigger 3 enters the second differentiating element 9, the pulse · from the output of which enables the recording of information from the outputs of the analyzer 13 to the drive 14 and resets the second counter 7. The logic level “0” at the direct output of the counting trigger 3 through the prohibition block 18 prohibits the operation of the comparison unit 8, and the automatic process is repeated frequency tuning of the generator of 4 quantization pulses to the frequency of the input signal. At this time, the indicator 15 displays from 1467778 measured in the previous cycle and stored in the drive 14 value and the sign of edge distortion. After adjusting the frequency of the generator 4 quantization pulses, the measurement process is repeated, at the end of its information in the drive 14 is updated (by the pulse from the output of the second differentiating element 9), and so on.

The transmission rate of binary signals (telegraphy speed) is determined by the number of elementary signal packages (positive and negative pulses) per unit time. In a binary signal of the “1: 1” type (meander), the positive and negative pulses follow each other and, therefore, the transmission speed is two times the pulse repetition rate.

When measuring the transmission speed of binary signals (telegraphy speed), the logical level “1” is output from the output of the mode selection unit 21. In this case, the switch 17 connects the input of the counting trigger 3 to the overflow output (P) of the second counter 7, the operation of the third element And 20 is allowed. Block 18 prohibits the passage of the signal from the direct output of the counting trigger 3 to the third input of the comparison unit 8, while this input the logic level “0” is constantly supplied, thereby the operation of the comparison unit 8 is prohibited. In turn, the logical “0” level at the output of the comparison unit 8 closes the first 10 and second 11 AND elements, therefore, pulses do not arrive at the input of the countdown (–1) of the analyzer 13.

The first pulse from the overflow (P) output of the second counter 7 sets the counting trigger 3 to a single state, while the logic level “1” from its direct output opens the third element And 20 and goes to the first differentiating element 12, the pulse from the output of which resets the analyzer 13 before starting the measurement. The pulses of the input signal from the output of the threshold unit 1 through the third element And 20 and the element OR 19 are fed to the input of the direct count (+ 1) of the analyzer 13. The second pulse from the overflow output (P) of the second counter 7 sets the counting trigger 3 to zero, while the level of logic “0” at its direct output prohibits the passage of signal pulses through the third element And 20, and the level of logical “1” at its inverse output 5 goes to the second differentiating element 9, the pulse from the output of which resets the second counter 7 and allows recording For information output from the analyzer (3 to receiver 14.

Thus, the pulses of the input signal ⁰ la are fed to the input of the direct count (+ 1) of the analyzer 13 during one pulse repetition period at the overflow output of the second counter 7.

If we choose the pulse repetition rate15 of the master oscillator 5 equal to 0.5X X10 ^b , where b is an integer, then the binary signal transmission rate is equal to the product of the factor 10 ^b ~ ^2a and the number of pulses received by the analyzer 13 during one pulse repetition period of 20 _N and the output of the overflow of the second counter 7.

The obtained value is displayed on indicator 15.

Claims (1)

Claim A device for measuring edge distortions of binary signals of the type of prevalence according to ed. St. No. 1215186, characterized in that, in order to expand the functionality by measuring the transmission speed of binary signals, a switch, a prohibition unit, an OR element, and an operation mode selection unit and a third AND element are connected in series, while the output of the parcel counter is connected to the input of the counter trigger through a switch, the second input of which is connected to the overflow output of the second counter, the third input of the comparison unit is connected to the first output of the counting trigger through the inhibit block, whose control input is dinen with the control input of the switch and the first input of the third AND element, the second and third inputs of which are connected respectively to the output of the threshold block and the first output of the counting trigger, and the output of the first And element is connected to the first 45 input of the analyzer through the OR element, the second input of which is connected to the output third element I. Compiled by V. Slepakov Editor I. Shmakova Order 1 215/56 Tehred I. Veres Proofreader L. Pilipenko Circulation 627 Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the USSR SCST 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and Publishing Plant "Patent", Uzhhorod, st. Gagarin. 101