SU822083A1 - Device for determining differential distribution law of noise voltage - Google Patents

Description

(54) DEVICE TO DETERMINE THE DIFFERENTIAL LAW OF DISTRIBUTION OF NOISE VOLTAGE

The invention relates to electrical measuring equipment and is intended for use with. implementation of the control parameters of stationary random processes in electronic equipment.

The known interference analyzer is made on the basis of a threshold block with a set of gradations and a pulse counter fi}

However, the practical use of the known device is associated with a number of lengthy manipulations, which causes a significant inconvenience in its operation.

The closest technical solution to the invention is an analyzer, which provides, in principle, the determination of the differential law of noise voltage distribution and contains, in particular, an amplifier-limiter, two detectors, the inputs of which are connected to each other measuring unit, a threshold unit and an indicator 2.

The disadvantage of this device lies in its considerable complexity, since the constructive construction of this analyzer involves the use of an envelope detector and a peak detector, as well as the introduction to the device of a number of additional nodes, namely a divider, a differentiation unit, a ring counter, sawtooth voltage generators. In addition, the known device cannot

0 be applied for the analysis of continuous random process.

The purpose of the invention is to simplify the device and expand its functionality by the type of noise analyzed.

The goal is achieved by the fact that in the device for determining the differential law of noise voltage distribution, containing

Claims (2)

0 amplifier-limiter, two detectors, the inputs of which are connected to each other, a measuring unit, a threshold unit and an indicator, the first of 5 detectors is made with a quadratic, and the second with a linearly broken current-voltage characteristic, and the inputs of both detectors are connected to the output A yiliter jg limiter, the output of the first detector is connected to the input of the measuring unit, the output of which is connected to the control input of the amplifier-limiter, and the output of the second detector via a threshold unit connected to the input of the indicator. The drawing shows the functional diagram of the proposed device. va. The device contains an amplifier-limiter 1, a detector 2, having a quadratic volt-ampere characteristic, a measuring unit 3, a detector having a linearly broken volt-ampere characteristic, a threshold unit 5 with a number of gradations, an indicator 6. It is known that the readings devices with quadratic and linearly broken detection are proportional to the angle of rotation of the arrow of the device, which, in turn, for linearly broken detection is proportional to the average current value. The current value of the stationary random signal is the expectation of this random signal, i.e. is a function of the differential distribution law of noise voltage. Thus, in a certain range of rms voltage values, the output voltage of the detector 4 with linearly broken detection will vary with the type of differential noise distribution law. This circumstance is the basis for the functioning of the proposed device. The device works as follows. The source signal is fed to the limiting amplifier 1, where it is amplified, normalized and directed further to the inputs of the detectors 2 and 4. Using the measuring unit 3 and the amplifier-limiting 1, the required RMS value of the measured signal, the value of which depends from the resolution of the threshold unit 5 and is controlled by the feedback circuit between the measuring unit 3 and the amplifier-limiter 1. From the output of the detector 4, the signal goes to the threshold unit 5, in which it switches to According to the differential law of distribution, a circuit is needed for indicator 6. Indicator b gives information about the form of the differential law of voltage distribution of the signal under study. An apparatus for determining a differential noise voltage distribution law comprising an amplifier-limiter, two detectors, the inputs of which are connected to each other, a measuring unit, a threshold unit and an indicator, characterized in that, in order to simplify and extend the functionality by the form of the analyzed noise, in it the first of the detectors is made with a quadratic, and the second with a linearly broken volt-ampere characteristic, and the inputs of both detectors are connected to the output of the amplifier - limit , The output of the first detector is coupled to the input of the measuring unit, the output of which is coupled to the control input of the limiter amplifier and the output of the second threshold detector through .blok connected to an input indicator. Sources of information taken into account in the examination 1. Data channels. Ed. IN. Schwartzman. M., SV, 1970, p. 263. 2. USSR author's certificate number 120547, cl. G 01 R 29/02, 1957.