SU121488A2 - Method for measuring transients in nonlinear circuits - Google Patents

Description

BASIC Auth. St. No. 119260 describes a method for measuring transient processes, according to which a sequence of pulses modulated in amplitude by low-frequency oscillations is sent to the object to be measured. The sequence of distorted pulses is supplied from the output of the measured object to a gated device controlled by pulses with the same repetition frequency, but with an adjustable delay time. The low-frequency component obtained at the output of the gate device is amplified by a selective amplifier and measured with a phase-sensitive voltmeter.

The present invention extends the capabilities of the method, since when it is used, transients can be measured in both linear and non-linear circuits, and measurement errors in examining devices with linear amplitude characteristics are eliminated. This is achieved by applying to the input of the measuring device pulses that are not modulated in amplitude but in phase.

The block diagram of the device, as shown, and the described method is shown in the drawing.

Lol. generator 1 determines the repetition rate of pulses received at the output of generators 2 and 5. Pulses produced by one of the generators can be delayed by a known and pery.Dipye time relative to the pulses of the other generator using phase guides 4 and 5. In the pulse-phase module The torus 6 is dried out; it modulates in phase the sequence of pulses received at the output of generator 2 by low-frequency sinusoidal signals of generator 7, whose oscillation frequency is less than the oscillation frequency of its oscillator, its generator /. The sequence of phase-modulated pulses is fed to the input of the measured object 8, the output of which

No. 121488-2 -

get a sequence of distorted pulses, modulating phase. If during the time between two pulses the transient process in the measured object 8 begins to fade, then the distorted pulses at the object output will have the same shape. The pulse sequence from the output of the measured object 6 is fed to the gating unit 9. If the maximum temporal displacement of the pulses modulated in phase is small, then the output of the block 9 will receive a sequence of amplified T, but modulated pulses with a sinusoidal envelope having a frequency equal to oscillation frequency of the low-frequency generator 7.

The spectrum of the resulting pulse sequence contains a component that has a frequency equal to the frequency of the generator signal 7, the amplitude of which is proportional to the steepness of the time characteristic of the measured object 8 in the area under study. This component is amplified by a selective amplifier 10, at the input of which a graduated attenuator 11 is inserted to extend the measurement limit. After the attenuator, signals are sent to the phase-sensitive detector 12 controlled by oscillations of the generator 7. For normal operation of the phase-sensitive detector, it is necessary that the output amplifier 10 be oscillated in phase or out of phase with control oscillations. The phase adjustment is made by the phase shifter 13. The magnetoelectric device 14, turned on at the output of the phase-sensitive detector, shows the amplitude and the sign of the oscillations, at the input of the amplifier 10, i.e., actually, the magnitude and sign of the slope or derivative of the time characteristic of the object under study at a given point. By varying the time shift of the pulses of the two sequences, the values of the slope or derivative are measured at a number of points of the time characteristic. Using the known methods of integration, you can find a temporal characteristic. Instead of modulating in phase a sequence of pulses at the input of the object to be measured 8, it is possible to modulate a sequence of pulses controlling the gating device.

Subject invention

The method of measuring transients in nonlinear circuits by author. St. No. 119260, characterized in that, in order to eliminate the inconsistency of transient measurement in nonlinear circuits, phase-modulated pulses are applied to the input of the measuring device.