SU396695A1 - ANALYZER OF ELECTRICAL DEFLECTIONS - Google Patents

Description

one

The invention relates to the field of computer technology and can be used to study the disturbances that occur in electric electric furnaces, such as current, power fluctuations, etc.

It is known that the causes of electrical parameter disturbances in electric furnaces are random. There is a need to study the behavior of an electric furnace as an object of regulation, as well as to study the issues of control of this object.

The main task of studying random variables in an electric furnace is to determine the optimal parameters of the object and control system. One of the ways to solve the task is a statistical method of research, in which ocHOiBe is the determination of the law of distribution of the quantity being studied.

The following options for determining the distribution law are possible:

the measured value X records the H-320 type recorder. It is manually quantized and the frequency at each level P is calculated;

The value being investigated is recorded, quantized and memorized automatically.

The calculation of the distribution law in the first embodiment is time consuming, while the accuracy of the determination is low. Instruments for the automatic determination of the distribution law exist, but generally they have a low use for solving special problems (for nuclear studies, spectrum analyzers, noise analyzers, etc.).

However, the task requires the creation of instruments for the investigation of random .npoueccoB in electric furnaces. A device comprising a converter connected to the input of the device, a recorder, a quantizer of a random variable, the outputs of which are connected through a block of amplifiers to the corresponding inputs of the memory block, is known.

The purpose of the invention is to automatically obtain the distribution law, to increase the accuracy of measuring the distribution law of a random electrical quantity and the sensitivity of the device.

This is achieved by the fact that the recorder is made in the form of a galvanometer of a light-beam oscilloscope and is optically connected with a quantizer, consisting of n light-sensitive elements, the recorder input is connected to the output of the converter.

The drawing shows a functional diagram. The proposed analyzer.

The analyzer contains a linear transducer /, which coordinates the test quantity with the instrument input; a random variable change recorder 2, which is a galvanometer of the M-004 type of the H-115 light beam oscilloscope; a quantizer of 3 random variables consisting of n photosensitive elements (photodiodes, phototriodes, or photoresistors); amplifying and converting element 4; a memory unit 5, which stores the time the signal under study is at a given level and is made on indicator lights.

The analyzer works as follows.

The quantity under study is applied to a linear transducer, but it is generated to the required value. The converted signal is applied to a galvanometer of a light beam oscilloscope. By changing its magnitude, the signal under study causes a change in the fragile rotation of the beam of light reflected by the galvanometer. A beam of light is placed on a block of photosensitive elements. When the quantity being studied changes from zero to the maximal value, the light beam alternately passes all n photosensitive elements.

Caled of photosensitive elements when illuminated with a beam of light. Sends a command to trigger "its memory element." Thus, the random variable is automatically quantized into n levels. Over a certain period of time in the memory elements

information (in the form of numbers), characterizing the behavior of a random variable over a given period of time, accumulates. According to this data, an experimental distribution law is constructed in the form of histograms or tables. The tabular data is stored in a computer for processing and solving the problem.

Due to the use of highly sensitive elements, almost inertialess, in the proposed analyzer, sensitivity and measurement accuracy are improved, frequency properties are significantly improved, and instrument maintenance is simplified.

Subject invention

An electrical parameter deviation analyzer containing a linear transducer connected to the analyzer input, a recorder, a random variable quantizer whose outputs through the amplifier unit are connected to the corresponding inputs of a memory unit, characterized in that, in order to improve the analyzer’s accuracy, made in the form of a galvanometer of a light-beam oscilloscope and optically connected with a quantizer consisting of n photosensitive elements; the recorder's input is connected to the output of a linear converter ovatel.

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