SU611160A1 - Meter of group time delay of four-pole networks - Google Patents

Description

(54) GROUP TIMER FOR LATERING FOUR-POLES

Claims (2)

, The invention relates to the field of measuring technology and can be used to measure the group delay time of four pole circuits. A group time meter is known, no quadrupole delay, containing a high frequency generator, modulator, amplitude detector, phase encoder, adder, in which the group delay time is determined by one phase of the amplitude-modulated signal envelope after passing through the quadrupole l under study. However, such a meter has low resolution and insufficient sensitivity. The closest in technical essence to the proposed is a measure, the group lag time,; containing a low frequency generator, a high frequency generator, the output connected to the input of the modulator, the output of which is connected to the input of the test person; three-pole, and the output of the last four; The amplitude detector and phase shifter are connected in series to one of the inputs of the adder, the second input of the adder is connected to the modulator output through the second amplitude detector, and indicator 2. The purpose of the invention is to increase the sensitivity and resolution of the device. The goal is achieved by additionally adding a delay line, a second adder, two amplifiers, and two amplitude detectors to the proposed group lag time of the quadrupoles, the delay line being connected between the second modulator input and the output of the low-frequency generator, the output of which is ., is uniform with one of the inputs of the second adder, another input of the phase shifter connected to the output, and the outputs of each of the adders through the corresponding sequentially connected amplifier and amplitude detector connected to the indicator inputs. , I FIG. 1 shows a structural electrical circuit of the device; in fig. 2 - vector of output voltage diagram | adders. The group lag time meter contains a high-frequency generator 1, a low-frequency generator 2, a modulator 3, a delay line 4, and the output of the modulator 3 is connected to the first 6 and second 7 amplitude detectors, the first adder 8, the second adder 9, phase shifter 1O, amplifiers 11 and 12, amplitude detectors 13 and 14, and indicator 15. The meter operates as follows. The voltage from the output of the high-frequency generator 1 is fed to the input of the modulator 3, where it is modulated by a delayed for time, T low-frequency voltage coming from the output of the low-frequency generator 2 through a delay line 4. The output voltage of the modulator 3 is applied to the 6th inlet of the quadrupole 5 under study and to the input of the amplitude detector 7. The output voltage of the four-terminal 5 under study is detected by an amplitude detector 6, where the envelope MO | lining signal. The voltage U (see, Fig. 2) is shifted by the phase shifter 1O by an angle and fed to one of the inputs of the adder 8, the second input of which receives the voltage of the output of the amplitude detector 7. At the same time, the voltage tL goes to one of the inputs of the adder 9t to the second the input of which is supplied with the low-frequency voltage from the output of the low-frequency generator 2. Consider the vector diagram shown in FIG. 2. The vectors UQ and U represent the voltage at the inputs sum and и represent the torus 8, and the vectors U voltage at the inputs of the adder 9. These phase relations between the vectors are due to the introduction of delay line 4 into the low-frequency generator circuit 2 and phase shifter 1O with phase shift 5t- into the circuit of the signal under study after the detection operation in the amplitude detector 6. Useful information about the group delay time of the studied quadrupole is contained in the value of the turn angle of the vector i- relative to the value of L-: - angle or in different ti zhe voltage vector; Research institutes UU, which are detected By detectors 13 and 14, their difference is measured by indicator 15. When the voltage amplitude of one of the vectors changes, for example, U, the voltage amplitudes UQ and U change the same, which causes compensation of the voltage amplitude variation in the output signal the meter. Thus, in this meter, the resolution of the meter is almost not dependent. Changes in the amplitudes of the signals at the inputs of the adders 8 and 9. Moreover, to increase the sensitivity, it is possible to use amplifiers 11 and 12 in the U and Ug voltage circuits, which increase the sensitivity up to the required value in the absence of a change in the voltage amplitude on the resolution of the meter. The formula of the invention of the quadrupole delay group meter, comprising a low-frequency generator, a high-frequency generator, an output connected to the modulator input, the output of which is connected to one of the adders via serially connected amplitude detector and phase shifter, the second input of the adder through the second amplitude detector connected to the modulator output, and an indicator characterized in that, in order to increase the sensitivity and resolution, a delay line is inserted into it a dual adder, two amplifiers and two amplitude detectors, the delay line being connected between the second modulator input and the low-frequency generator output, the output of which is connected to one of the second JMaTopa sum inputs, the other input of the phase-shifter connected to the output, and the outputs of each (OF adders through the corresponding series-connected amplifier and amplitude detector connected to the indicator indicator Bxof.Sources of information taken into account in the examination 1. Soloviev N. N. Measuring equipment in a wired connection, part 11, M., 197 1, s. 92 2. BovO N. G. et al. Measurement methods (Group speed and group delay time. Lime USSR Universities, Seri Radiotekhnika, vol. 81 No. 4, 1965. p. 309. / g