SU1416920A2 - Device for measuring amplitude of pulsed signals protected against interferences - Google Patents

Abstract

The invention can be used in telemechanics systems with combined pulse modulation types. The purpose of the invention is to improve the accuracy of measuring the amplitude of signals other than rectangular ones. The device contains an active probabilistic relay 1, a nonlinear controlled resistance 2 and an integrating capacitor 3. The introduction of a scaling amplifier 4, a differential amplifier 5, a limiting amplifier 6 and the formation of new functional connections eliminate the false positives of relay 1 and the appearance of a signal at the device output, caused by interference in the first moments after switching on the device when Uvih is close to ZERO. 2 Il.

Description

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The invention relates to the measurement of the amplitude and width of pulsed signals with a random interval following under the action of distorting interference, can be used in telemechanics systems with combined pulse modulation, measurement technology and radar and is an improvement of the invention on the main author. St. No. 690399.

The aim of the invention is to improve the accuracy of measuring the amplitude of pulses other than square.

FIG. 1 shows a block diagram of the device; in fig. 2 - time diagrams that show his work.

The device contains an active probabilistic relay 1, the output of which is connected to the control input of a nonlinear controlled resistance 2 with a hyperbolic law of variation, the input of which is connected to the input of the device and the output to one of the plates of the integrating capacitor 3 and the input of the scaling amplifier 4. Another capacitor plate 3 is connected to the zero bus. The non-inverting input of the differential amplifier 5 is connected to the input of the device, the output to the input of the relay 1, and the inverting input to the output of the device through the amplifier-limiter 6.

The device works as follows.

If there are no information pulses at the device input and only noise is present, the output voltage of the relay is 1 U (t) Q and the resistance R (U} of block 2 is infinite, while the voltage on the capacitor is 3 L / C (O and output voltage UBUX () devices remain unchanged. The feedback circuit formed by amplifiers 6 and 5 is open.

Consider the case of triangular-shaped information pulses (Fig. 2a).

The evaluation A of the amplitude A of the measured pulses is made at intervals K of exceeding the threshold level a of the operation of the relay 1, i.e., the C-circuit, formed by blocks 2 and 3, integrates the signal (Fig. 26).

ui ((A-a) (0, where 2 as 0

 t; 2 ((- |) at) x.

The result of the integration is u 2 (t} dt (+ a), where.

j 0

five

0

Conservation of proportionality between the estimate of A and the amplitude A of pulses in the entire dynamic range is achieved due to the action of the feedback circuit formed by the differential amplifier 5 and amplifier 6, which allows to maintain the ratio constant. Amplifier 4 provides equality. The trigger threshold of relay 1 is selected from the condition a a- / 4m, n, where Aat is the minimum amplitude of the measured pulses. Amplifier 6 has a characteristic

S (l)

"(T / BMx-Lsh) if (O wig Lt Under the action of the signal S (t}, the input signal Z (t) is shifted, which is an additive mixture of information pulses and fluctuation noise in the negative region, so that the actual threshold of the relay 1 turns out equal

, fa a-Amin. if 6 / v x: Ltt;

 Ife4a, if (. This principle of selecting the threshold eliminates the false triggering of relay 1 and the appearance at the device output of a signal caused by the action of interference in the first moments after switching on the device when the 6 out is close to zero.

Claims (1)

Claims An interference-free device for measuring the amplitude of pulsed signals according to the author. St. No. 690399, characterized in that, in order to improve the measurement accuracy 5 amplitudes of impulses other than rectangular, a scaling amplifier, a differential amplifier and a limiting amplifier are introduced into it, a differential amplifier is connected between the device input and the active probability relay input, a scaling amplifier is connected between the output of a nonlinear controlled resistance with a hyperbolic law and the output of the device, the input of the amplifier limiter is connected to the output 5 scaling amplifier, and the output - with a different input of the differential amplifier. cfiue.Z