SU1277407A2 - Device for measuring interference immunity regeneration of digital transmission system - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to reduce the measurement time in relation to auth.St. No. 794737. The device contains a pseudorandom sequence sensor I, a linear code driver 2, a working attenuation simulator 3 of the regeneration section, an additive mixer 4, a regenerator under study 5, an error analyzer 6, a counter 7, an indicator 8, a coincidence element 9, a phase shifter 10, a simulator 12 transition the decay of the regeneration section, the comparison unit 13, the comparison signal sensor 14, the master oscillator 15, the additional counter 16 j the control unit 19. The phase shifter 11, the precision signal sensor 1 7 and the $ 9 signal maximum detection unit 18 were again introduced (L la error. 1 Il.

Description

The invention relates to telecommunications and can be used in measuring the parameters of linear signal regenerators of digital transmission systems. The purpose of the invention is to reduce the measurement time. The drawing shows the structural electrical circuit of the proposed device for measuring the noise immunity of the regenerator of the digital transmission system. The device for measuring the noise immunity of the regenerator of the digital transmission system contains a 1 pseudo-random sequence sensor, a linear code shaper 2, a simulator 3 of the regeneration operating attenuation, an additive mixer 4, being investigated regenerator 5, analyzer 6 errors, counter 7, indicator 8, element 9 coincidence, phase shifter 10, additional phase shifter 11 12 s simulator crosstalk regeneration portion PP block comparison, a comparison signal sensor 14, for giving the generator 15, a further counter 16, the sensor 17, the accuracy of the signal, the control unit 18 determining the maximum error signal and the block device 19 operates as follows. The simulated crosstalk, like the signal, is a periodically stationary random process with a period T, where T is the clock interval. Since the stationary period of the interference Tj, the imitation of phase shifts between the signal and interference can be divided into the imitation of phase shifts within one T and multiples of T - in within the duration of a pseudo-random sequence. If for the average position of the regulator of the level of the transition damping simulator of the regeneration section to be found within one T, the phase shift tp, giving the maximum error ratio (when simulating phase shifts multiples of T within the duration of a pseudo-random sequence), it is sufficient in other positions of the regulator Simulate the phase shifts only with the simulated transient damping simulator of the re-generation section.

multiples of T at previously found tf, 3To gives c-real-time saving of time measurement of noise immunity regen

until it is removed from its third signal input. Locking the position of the additional rator regulator found, without reducing accuracy. To implement this algorithm, each position of the phase shifter 10 provides a phase shift between its input and output signals by an integer number of clock intervals. Additional phase shifter 11 provides a phase shift within one clock interval t, e. from zero to T, the error signal maximum determination unit 18 includes elements of memory, comparison and blocking. The accuracy signal sensor 17 is a reference voltage sensor. On command Start, the control unit 19 sets the controllable simulator 3 of the operating attenuation of the regeneration section to the first position; simulator level controller. 12 transitional attenuation of the regeneration section - to the middle position; counter 7 - to zero position and start (unlock) block 18 for determining the maximum of the error signal; From the second output of block 18 to the sixth input of control block 19 a blocking signal is received, due to which control block 19 ensures that position error remains unchanged for block 18 for determining the maximum of the error signal level controller simulators 12 and 3, Block 1 8, in accordance with the algorithm of its operation, at intervals of the arrival of pulses at its fourth input; the output of the additional counter 16 changes the position of the controller The torus of the additional phase shifter 11 determines, with an accuracy specified by the sensor 17 of the signal of the signal of accuracy, such a position of the controller of the additional phase shifter 11, at which the maximum of the error signal of the error coefficient coming from the output of the error counter 7 to its second input is reached. After this, the block 18 removes the signal Blocking - from the second output, arriving at the sixth input of the control block 19. As a consequence, the control unit 19 from the sixth output to the third input of the error signal maximum determination unit 18 sends a signal, the error signal maximum detection unit 18 is blocked and the phase shifter 11 is kept at which the error signal is maximum.

Signal The blocking from the sixth output of control block 19 is removed after the position of the level regulator of the simulator 12 of transient attenuation of the regeneration section is found, where the output signals of the comparison signal sensor 14 and the error counter 7 are equal with a given accuracy. A fixation or reading of the obtained values of the position of the level regulator of the simulator 12 of the transitional attenuation of the regeneration section and the error signal is performed. A command is formed at the fifth output of the I9 control unit by switching the simulator 3 of the working attenuation of the regeneration section to the next position, and at the fourth output — the command to set the level regulator of the simulator I2 of the transitional attenuation of the regeneration section to the middle position. This process is repeated n times. Disconnection of the device takes place after the simulator 3 of the operating attenuation is set to the last ((i.e.) position and the measurement process of the error signal for this position is completed.

Claims (1)

Formula of Invention A device for measuring the noise immunity of the regenerator of the diffraction transmission system according to the author. No. 794737, characterized in that, in order to reduce the measurement time, an additional phase shifter and a series-connected precision signal sensor and an error signal maximum detection unit are introduced, the output of the phase shifter is connected to the input of the transient-fading simulator of the Egeneration circuit, the additional phase shifter, and the second, third and and the quarter and second and second outputs of the maximum signal detection block are connected respectively to the additional output of the counter, to the sixth output of the control unit, to the output of the additional counter, to the control input of the additional phase shifter and to the sixth input of the control unit.