SU1197100A1 - Device for measuring residual attenuation of communication channel - Google Patents

Description

The invention relates to telecommunications and can be used in automated communication control systems for measuring the residual attenuation of the communication channel. The purpose of the invention is to achieve measurement accuracy. FIG. Figure 1 shows the electrical circuit diagram of a device for measuring the residual attenuation of a communication channel; in fig. 2 - timing diagrams for the operation of the device. The device for measuring the residual attenuation of the communication channel contains on the transmitting side the generator 1 of the measuring signal, the first generator 2 sawtooth voltage, the divider 3 frequencies, the driver 4 of the starting pulse, the first comparator 5, the phase manipulator 6, the second driver 7 of the reference voltage, first shaper 8 reference voltage, phase detector 9, the third and fourth comparators 10-12 second, the second generator 13 sawtooth voltage, the calculating unit 14, the generator 15 counting pulses and 16 register cutting on the receiver side - phase manipulator 17, phase detector 18, sawtooth generator 19; driver voltage generator; support voltage comparator 21; frequency divider 22, the output of which is connected to phase manipulator 17, connected between, direct channel output 23 connection and the entrance of the reverse channel 24-connection. A device for measuring the residual attenuation of the communication channel operates as follows. The measuring signal generator 1 continuously delivers the voltage of the measuring frequency to the phase manipulator 6 (Fig. 2a), from which the sinusoidal signal of the measuring frequency is fed to the input of the forward link channel 23 and to the input of the second reference voltage generator 7, the output of which a constant voltage is generated that is proportional to the amplitude of the measurement signal supplied to the input of the communication channel 23. When the starting pulse arrives (Fig. 2b), the sawtooth generator (Fig. 2g) starts up from the starting pulse generator 4 and the phase of the measuring signal changes, for example, 180 in the phase manipulator 6 (Fig. 2c). In the first comparator 5, as a result of comparison of the sawing voltage and reference voltage, a rectangular pulse is formed (Fig. 2e), a frequency divider 3 (for example, two) registers only the leading edge (Fig. 2e), under the control of this voltage The phase manipulator 6 reverses the phase of the measuring signal, for example, 90 (Fig. 2 g). Thus, a harmonic oscillation enters the channel with a change in phase at time t and .t. On the receiving side, the phase detector 18 triggers the sawtooth voltage generator 19 according to the phase mark at time C, and the reference voltage driver 20 generates a constant voltage proportional to the amplitude of the signal received from the channel. In the comparator 21, as a result of comparing the amplitude of the width-changing and reference voltages (Fig. 2h), a square-shaped pulse is formed, the leading edge of which is a frequency divider 22. This leading edge causes a phase reversal, for example, at 180 of the measuring signal at time tj (Fig. 2 and) phase manipulator 17, from the output of which the signal is fed to the input of the reverse channel 24. The measuring signal received from the reverse communication channel 24 detected in the phase detector 9, at the output of which a signal is formed (Fig. 2k), the fronts of which at times t and t carry information about the decay of the forward channel 23. On the leading edge of this signal at time t, the second generator 13 of the sawtooth strained Signal from the output of which a signal output from the driver 8 the reference voltage are compared in a fourth comparator 12. The front edge of the pulse from the output of the fourth comparator 12 at time t. (. 2 l, n) contains information on the residual attenuation in the return channel 24. In the calculating-decisive unit 14, one is determined. decay signs in the forward and reverse channels (according to information from the phase detector 9 directly and through the second and third comparators 10 and 11, the response levels of which are selected, for example, shown in Fig. 2 k, m /. The measurement accuracy of the residual attenuation by the proposed device is determined by the expression 4 (Fig. 2 o), where and is the amplitude of the interference; S is the steepness of the sawtooth pulse. For the same duration of the sawtooth and fflyльca during measurements Applied and known devices, the measurement accuracy is determined by the amplitude of the interference Uj and distortion, the amplitude of the signal For the proposed device and and, + and, where and are the noise in the measured channel; U And - the fluctuation noise of the sawtooth voltage generator elements and and + Y t "f of the pulse frequency due to the non-uniformity of the amplitude-frequency characteristic of the communication channel; U. - distortion due to the non-uniformity of the characteristic of the group transmission time of the communication channel. . . 004 The pulse front offset due to these additional interference components for the leading edge can reach (for the corrected channel) 22% of the pulse duration at 0.5. . The trailing offset front is negligible because of its large steepness. With the recommended CCITT measurement range of 9.9–5.1 dB and a sawtooth pulse duration of 100 ms, the indicated pulse front offset gives the next largest error in the measurements. At 0.5, the duration of the sawtooth pulse is 50 ms. The maximum change in this duration can reach 22%, i.e. II ms (Fig. 2 p). This value triggers the threshold device operation. It gives a readout of the residual attenuation of -4.05 dB, dB. Hence, the maximum absolute error is +1.65 dB, which determines the gain in measurement accuracy by the proposed device.

The transmitting side.

Claims (1)

(57) DEVICE FOR MEASURING RESIDUAL ATTENUATION OF A COMMUNICATION CHANNEL,. comprising a start pulse generator on the transmitting side, the output of which is connected to the input of the first sawtooth voltage generator, the output of which is connected to the first input of the first comparator, a measuring signal generator, a phase manipulator, the output of which is connected to the input of the direct communication channel, a phase detector, the output of which is connected to schetnoreshayuschego first input unit immediately, _f and to the second and third inputs schetnoreshayuschego unit via the second and third comparators are connected in series per the second driver of the reference voltage and the fourth comparator, the output of which is connected to the fourth input of the counting decisive bls "£, the outputs of which are connected to the inputs of the recording unit of the measurement results, and the input is connected to the output of the generator of the counting pulses, and the inputs of the phase detector and the first driver of the reference voltage are connected with the output of the reverse communication channel, and on the receiving side - series-connected reference voltage driver, the input of which is connected to the output of the direct communication channel, the comparator and a phase manipulator connected between the output of the forward communication channel and the input of the reverse communication channel, characterized in that, in order to improve the measurement accuracy, a frequency divider is introduced on the transmitting side, connected between the output of the start pulse former and the first input of the phase manipulator, the second input of which is connected to the output of the Measuring signal Generator, the second voltage driver, connected between the output of the phase manipulator and the second input of the first comparator, the output of which is connected to the corner input of the frequency divider, a second sawtooth voltage generator connected between the output of the phase detector and the other input of the fourth comparator, and on the receiving side, a phase detector and a sawtooth voltage generator connected between the output of the direct communication channel and the other input of the comparator, and the frequency divider are introduced connected between the output of the comparator and the 'OTHER input of the phase manipulator.