SU894604A1 - Device for measuring non-linearity of four-terminal network amplitude characteristics - Google Patents

Description

one

The invention relates to a technique for measuring the parameters of four-pole networks and can be used to measure the non-linearity of amplitude characteristics, dynamic range and sensitivity of four-port networks.

A device for measuring the linearity of the amplitude characteristics of quadrupoles is known, comprising two attenuators, a switch, a pulse shaping circuit, a delay circuit, a switching circuit, a key pulse distributor, and a pulse selector.

A disadvantage of the known device is low measurement performance.

Closest to the proposed non-linearity meter is the amplitude characteristics of quadrupoles, containing a signal source, two discriminators, two attenuators, a key, a comparison circuit and a DC compensation, a sweep generator, and horizontal amplifiers

And vertical deviations, electron-beam tube and phase inverter 2}.

The disadvantage of this device is the considerable time of measuring the non-linearity of the amplitude characteristic; whistles. dynamic range and sensitivity of quadripoles,

The purpose of the invention is to reduce the measurement time.

The delivered chain is achieved by

Claims (2)

10 that in the device containing the signal generator, the first comparator, a shaper leveling device, one of the codes connected to the first input of the second comparator, the output of which is connected to one of the outputs of the reference element, the output connected through the vertical deviation amplifier with the first entrance of the CRT tube , the second input of which through the horizontal deflection amplifier is connected to the first output of the generator of linearly varying voltage, the modulator is introduced; key, the time interval meter, the key and the third controller, the input of the latter is connected to the first entrance of the cathode ray tube, and the output of the third comparator is connected via a key to the control input with the time intervals connected to the input of the time interval meter, and the input with the second input of the comparison element and with the output of the first comparator, the first input of which is connected to the second output of the comparing level generator, and the second input is connected to one of the input terminals of the device, W swarm input terminal coupled to an output of the modulator control input of which is connected to the second output generator linearly varying voltage, a first output connected to a second input of the second comparator and the input mode to.ra L connected to the output of the signal generator. . FIG. 1 shows the structural scheme of the proposed device; in fig. 2 - timing charts of the device. The device contains a signal generator 1, a test quadrupole. 2, modulator 3, linearly varying voltage generator 4, first comparator 5, shaper level generator 6, time interval shaper 7, time interval meter 8, key 9, comparator 10 reference element 11, third comparator 12 ,. electron-beam tube 13, amplifier, 14 horizontal deflection, amplifier 15, vertical disconnection, input terminals 16 and 17 of the device. The device works as follows. The signal of the generator 1 is modulated with the help of the modulator 3 according to the linearly varying law of the voltage of the generator 4 of the sawtooth or triangular form and is fed to the input of the quadripole 2 Sfig. 2c). in the quadrupole 2, the signals are detected, and the detected pulses from the output of the quadrupole (Fig. 25) are given, and the amplitude comparator 5, which outputs pulses (Fig. 21), coinciding in time with the transition of the linearly varying part of the pulse from the level of comparing, set to the noise level or a predetermined excess with the help of the comparing level 6 shaper. The pulses from the output of the comparator 5 are fed to the shaper 7 time intervals, which produce pulses of normalized amplitude in duration (Fig. 2c), corresponding to the duration of the pulses transmitted through the comparator. The measurement of the duration of the generated pulses (Fig. 2 &) is performed using an 8-interval time meter, which can be scaled in decibels with a known slope of the amplitude variation of the linear voltage across its maximum value. In the 8 time interval meter, a sensitivity count of the tested quadrupole with respect to the maximum value of the signal at its input is obtained. When the key is in position Dynamic range, the driver 7 generates a pulse, the duration of which is equal to or less than the duration of the pulse passed through the amplitude comparator 5. The pulse duration of this pulse is proportional to the dynamic range of the quadrupole, which is measured on the appropriate scale of the meter 8. This is achieved as follows. The linearly varying voltage from the generator 4 is supplied to the second amplitude comparator 10, the level of which is set by the shaper 6 so that from its output the voltage to the reference element 11 is applied one. simultaneously with the voltage from the output of the comparator 5. The differential voltage from the output of the comparison element 11 (Fig. 2E) through the vertical deflection amplifier 15 is supplied to the amplitude comparator 12. The level of comparing 1G to the comparator 12 is equal to the corresponding value of the admissible value of non-linearity of the amplitude characteristic of the quadrupole 2 When the difference voltage is exceeded from the output of the element 11 comparing the setpoint, the comparator 12 sends a signal through the switch 9 to the driver 7, limiting the duration The value of the generated pulse at the moment of the amplitude response deviation is higher than the allowable value. The readout of the dynamic range on meter 8 is informative in the case of a single deflection, amplitude response, and a quadrupole in its final segment. When determining the character of the amplitude response when adjusting the quadrupole, its image is observed on the screen of the electron beam tube 13. The deflection plates of the latter receive a sweep voltage through the horizontal deflection amplifier 14 and the differential voltage from element 11 through the amplifier 15. Invention Formula for measuring the non-linearity of the amplitude characteristics of the four-port networks, comprising a signal generator, a first comparator, a comparison level generator, one of The outputs are connected to the first input of the second comparator, the output of which is connected to one of the inputs of the reference element, the output connected via a vertical deflection amplifier to the first entrance of the cathode ray tube, the second input of which through a horizontal deflection amplifier is connected to the first output of the generator of a linearly varying voltage, different 4 by the fact that, in order to reduce the measurement time, a modulator, a time interval generator, a time interval meter, a key and a third compass are entered into it the torus, while the latter's input is connected to the first input of the CRT, and the output of the third comparator is connected via a switch to the control input of the time interval generator, the output connected to the input of the time interval meter, and the input to the second input of the reference element and to the output of the first comparator, the first input of which is connected to the second output of the comparing level generator, and the second input is connected to one of the input terminals of the device, the second input terminal of which is connected to the output of the modulator, The control input of which is connected to the second generator output of a linearly varying voltage, the first output of which is connected to the second input of the second comparator, and the input of the modulator is connected to a signal generator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 311207, cl. G 01 R 27/28, 1969. 2. USSR author's certificate No. 462142, cl. G 01 R 23/20, 1973 (prototype. . f L8 6 ft /. 2