SU1083377A1 - Device for measuring crosstaik attenuation in communication cables - Google Patents

Abstract

DEVICE FOR MEASURING crosstalk in the communication cable, comprising on the transmission side sequentially connected generator frequency-modulated signal, the output yc ytel and vysokochas totSh11y transformer that is connected to the influence guide line, and at the receiving end - a serially coupled first soglasuyu1TsY block, control voltage, high-frequency conversion unit, the second input of which is connected to the first output of the first amplifier, the second amplifier and the detector, the output of which is connected the first input of the electron-beam indicator, the second input of which is connected to the output of the horizontal scanning unit, and the third input to the output of the label unit, the first input of which is connected to the first input of the horizontal scanning unit and the first output of the first matching block, the second output of which is connected to the first input unit of electronic switches, the second and third inputs and. whose output is connected respectively to the output of the second unit, the second input of the horizontal scanning unit and the input of the first amp The model, as well as the affected line, is due to the fact that, in order to increase the reliability of the measurement by expanding the frequency diadzone, a low-frequency generator and a low-frequency transformer were introduced into the transmitter side, and c. the output of the low-frequency generator is connected to the second input of the output amplifier, the second output of which is connected to the input of the low-frequency transformer, which is connected to the influence line and the output of the high-frequency transformer, and on the receiving side - a linear transformer for T1Sh T and a low-frequency conversion unit, and The first, second and third block outs. Each linear sweep is connected to the second input of the labels, the second and third inputs of the horizontal scanning unit, the output of the low frequency preg forging unit is connected to the second input of the second amplifier, and the input of the low frequency conversion unit is connected to the second output of the first receiver, with this output and input The low-frequency transformer is connected respectively to the input of the second matching unit and to the affected line.

Description

The invention relates to a wired telecommunications technique and can be used to measure crosstalk in combined communication cables with high-frequency and low-frequency circuits. A device for measuring transient attenuation between symmetric chains of cable communication lines is known, which contains a special frequency-modulated oscillator on the transmitting side, and not adjustable voltage dividers, an input channel switch, wideband amplifiers, a voltage shaping unit on the receiving side ; sweep, the block of the common channel indicator 11. This device has a low. speed. The closest to the present invention is a device for measuring transient attenuation in communication cables, comprising serially connected frequency signal modulator, output amplifier and VELSO frequency transformer to which the influence line is connected to the transmitting side, and serially connected on the receiving side the first matching unit is a control voltage block, a high-frequency conversion block, the second output of which is connected to the first output of the first amplifier, the second, the amplifier and a detector, the output of which is connected to the first input of the electron-beam indicator, the second input of which is connected to the output of the horizontal scanning unit, and the third input is connected to the output of the marker unit, the first input of which is connected to the first input of the horizontal scanning unit and to the first output the first matching unit, the second output of which is connected to the first input of the electronic switching unit, the second and third inputs and the output of which is connected to the output of the second matching unit, with the second input of the horizontal unit ontal sweep and with the entrance to the first mustache: or to me, as well as to the influence of the line G2 3. However, the known device has a low reliability of measurement. The purpose of the invention is to increase the measurement accuracy by expanding the frequency range. To achieve this goal, a device for measuring transient attenuation in communication cables contains, on the transmitting side, an LFD-connected shaper of a frequency-modulated signal, an output amplifier and a high-frequency transformer to which the influence line is connected, and on the Receiving Party are serially connected first matching unit, control voltage unit, high frequency conversion unit, the second input of which is connected to the first output of the first amplifier, the second amplifier and details A vector whose output is connected to the first input of the electron-beam indicator, a second input K9 THOROUGH is connected to the output of the horizontal scanning unit, and the third input is connected to the output of the label unit, the first input of which is connected to the first input of the horizontal scanning unit and to the first output of the first matching unit, The second output of which is connected to the first input of the electronic switchgear unit, the second and third inputs and the output of which are connected respectively to the high voltage / house of the second matching unit, to the second input of the unit horizontal spread On the transmitting side, a low-frequency generator and a low-frequency transformer are inputted to the input side of the first amplifier as well as to the affected line. The output of the low-frequency generator is connected to the second input of the output amplifier, the second output of which is connected to the input of the low-frequency transformer that is connected to the influence line and the output of the high-frequency transformer, and on the receiving side - a linear scanning unit, a low-frequency transformer and a low-frequency conversion unit, the first, second and the third outputs of the linear scanning unit are connected respectively to the second input of the tag unit, the second and third inputs of the horizontal scanning unit, the output of the low-frequency conversion unit is connected to the second input of the second amplifier, and the input of the low-frequency converting unit is connected to the second output of the first amplifier; the output and input of the low-frequency transformer are connected respectively to the input of the second matching unit and to the affected line. The drawing shows the structures on the electrical circuit of the proposed device. The device for measuring the attenuation in communication cables contains on the transmitter side 1 a driver 2 of a frequency-modulated signal, an output amplifier 3, a high-frequency transformer 4, a low-frequency transformer 5 and a frequency generator 6, on the receiving side 7 - a control unit 8 device, electron-beam indicator 9, first matching unit 10, low-frequency transformer 11 second matching unit 12, electronic switch unit 13, first amplifier 14, high-frequency conversion unit 15, tag unit 16, volts Amplifier 17, detector 18, low-frequency converter unit 19, consisting of additional frequency generator 20, mixer 21 and preamplifier 22 with filter, horizontal scanning unit 23, consisting of frequency-modulated signal converter 24, resonant amplifier 25 and detector 26, a linear sweep unit 27 consisting of a sawtooth generator 28, an auxiliary frequency generator 29, a modulator 30 and a multivibrator 31, the transmitting and receiving sides being connected through an influencing l 32J in the drawing also shows the affected line 33. The device operates as follows .. On the transmitting side 1 shaper 2 frequency-modulated signal, low frequency generator 6 output amplifier 3, high frequency transformer 4 and low frequency transformer 5 provide output during operation in the high-frequency range. amplitude-frequency-modulated measurement signal, and when operating in the low-frequency range - continuous sinusoidal low-frequency signal, astnoeti signal at a frequency of 800 Hz. The frequency modulated signal, produced by shaper 2, varies in frequency from the minimum to maximum value. Frequency modulated signal, amplified by the output amplifier 3,; supplied through the high-frequency traioformat 4, which is the matching, to the influencing line 32. When the device operates in the low-frequency range, the transmission path of the measuring signal is switched to the low-frequency transformer 3. At the receiving side 7, an electron beam 9 is observed on the screen. the frequency characteristics of the crosstalk between the influencing 32 and the impacted 33 lines are measured. On the receiving side 7, the electronic switch unit 13 provides a two-stroke transmission to the cathode ray indicator 9 sip: alov from the measuring and control channels, while in the case of measurements in the high-frequency range, the switching of channels is effected by pulses generated from the signal voltage during pauses after each cycle variations in the oscillating frequency at the transmitter side 1 of the device. The horizontal scanner unit 23 forms the ramp voltage of the horizontal scan, of the electron-beam indicator 9, proportional to the frequency of the measured frequently modulated signal. The frequency-modulated signal, taken from the output of the first matching unit 10 of the control channel, is converted by the converter 24 into a sequence of almost rectangular pulses, the amplitude of which is proportional to the frequency of the measuring signal. The resulting pulses are amplified by a resonant amplifier 25 tuned to the pulse frequency, which also makes the first voltage harmonic among them. This harmonic, detected by detector 26, provides the output of a linearly varying voltage used to horizontally turn off the beam on the screen of the electron-beam indicator 9. The time of pauses between cycles of the frequency-modulated signal by the block of 16 tags is provided

modular supply; or op-beam barrier indicator 9 for extinguishing the beam during its return.

The linear scanning unit 27 is designed to provide horizontal deflection of the beam on the screen of the electron-beam indicator 9 when the device operates in the low-frequency range,. and also control of the operation of the electronic switch unit 13 and the tag unit 16 for quenching the ray of the electron beam indicator 9.

Pulses with a multivibrator 31 with a period equal to the period of the frequency-modulated signal start the saw-tooth voltage generator 28, as a result, its operation period is equalized with the frequency-sweep period in the high-frequency range mode. In modulator 30, the signal, which was used by the Ith auxiliary frequency generator 29, is modulated by the sawtooth voltage, and a signal is generated at the output of the linear scanning unit 27, the amplitudes of which vary according to the sawtooth voltage. The frequency of generator 29 is chosen to be equal to the frequency of shuls following at the output of converter 24 in the high frequency range, and therefore the signal generated at the output of block 27 is equivalent to a sequence of pulses when the device operates in the high frequency range. The output signal from the linear sweep unit 27 is applied to the auxiliary input of the resonant amplifier 25 of the unit 23 and, by analogy with the frequency-modulated signal, is used to horizontally deflect the beam of the electron-beam indicator 9. Pulses that are multiplied by the multivibrator 31 are also dropped on the controlled input of the 13 switch of electronic switches for switching the measuring signal and the control channels, as well as to the auxiliary input of the block of tags 16 for damping the return stroke of the beam of the electro-beam indicator 9.

The low-frequency conversion unit 19 is designed to convert a low-frequency signal (800 Hz) to a high-frequency (60 kHz)

The dp is further amplified in the second amplifier 17, detected by the detector 18, and affects the vertical plates of the elecron 1 beam indicator 9.

Unit 19 is assembled according to a typical frequency converter circuit and includes an additional frequency generator 20, a mixer 21, and a preamplifier 22 with a filter. When the mixer 21 is exposed to a low-frequency measuring signal produced by the additional frequency generator 20, a high-frequency signal is generated at the output, which is picked up by the preamplifier 22 and fed to the input of the second amplifier 17. When measuring the crosstalk in the high frequency range, the modulated signal and When measured in the low-frequency range, a continuous sinusoidal signal from the output of the transmitting side 1 of the device is fed to the input of the influencing line 32. due to the mutual influence with a voltage .verzhennoy influenced by podaots line 33 to the measuring input of the receiving side device 7.

Simultaneous signal voltage

from the input of the influencing line 32, when measuring the transition attenuation at the near end or from its output, when measuring at the far end, it is fed to the test input on the receiving side 7..

The output voltages from the first and second-round voltage blocks 10 and 12 of the measuring and control channel through the block 13 of electronic switches controlled voltage from block 27 or from block 23 alternately and synchronously with the qi & horizontal scan of the electron-beam indicator 9 is fed to the input the first amplifier 14. In the common channel, the signaling transforms in block 15 of the high-frequency or 19 low-frequency conversion are amplified by the second amplifier 17, and after being detected in the detector 18, the signal envelopes are used for vertical the deflection of the beam on the screen of the electron-beam indicator 9.,

The horizontal deflection of the beam is produced by the voltage, forming

Claims (1)

DEVICE FOR MEASUREMENT / TRANSITION ATTENUATION IN COMMUNICATION CABLES, containing on the transmitting side a serially connected driver of a frequency-modulated signal, an output amplifier and a high-frequency transformer to which an influencing line is connected, and on the receiving side there are connected in series a first matching unit, a control voltage unit, a unit high-frequency conversion, the second input of which is connected to the first output of the first amplifier, the second amplifier and detector, the output of which is connected to the first the input of the electron-beam indicator, the second input of which is connected to the output of the horizontal block, and the third input is the output of the label block, the first input of which is connected to the first input of the horizontal block and the first output of the first matching unit, the second output of which is connected to the first input of the block electronic switches, the second and third inputs and the output of which are connected respectively with the output of the second matching unit, with the second input of the horizontal unit and with the input of the first amplifier, as well as the line influenced by the fact that, in order to increase the reliability of the measurement by expanding the frequency range, a low-frequency generator and a low-frequency transformer are introduced on the transmitting side, and the output of the low-frequency generator is connected to the second input of the output an amplifier, the second output of which is connected to the input of the low-frequency transformer, which is connected to the influencing line and the output of the high-frequency transformer, and on the receiving side there is a linear sweep unit 'low-frequency transf a rmator and a low-frequency conversion unit, wherein the first, second and third outputs of the linear-scan unit are connected respectively to the second input of the label unit, the second and third inputs of the horizontal-scan unit, the output of the low-frequency conversion unit connected to the second input of the second amplifier, and the input of the low-frequency conversion unit connected to the second output of the first amplifier, while the output and input of the low-frequency transformer are connected respectively to the input of the second matching unit and subject to a line. I "SU 083377> * 1083377 2