SU543880A1 - The method of converting alternating voltage to constant - Google Patents

Description

the shape factor, after which they form a differential stress; they are fed to the combined inputs of the exponential units and then to the independent inputs of the weighing unit with further summation

ii by multiplying the obtained voltage of the signal, with the additional summation of the latter carried out together with the originally converted voltage

The drawing shows a block diagram of a device that implements the proposed method

The signal from the variable voltage converter 1 to the constant and from the multiplication unit 2 is fed to the adder 3, while the input signal simultaneously arrives at the inputs of the converter 1 and the driver

4, which generates, for example, proportional to the square of the input waveform coefficient. In block 5, a differential signal is generated using the voltage supplied from source 6. The resulting voltage of the resulting signal is simultaneously applied to

all the inputs of blocks 7–10 to the power and, from the output of each of them, the signals arrive at the independent inputs of the prequest blocks 11–14. In the same way, i.e., apart from each block of the signal, signals are sent to the adder 15 and from there are inputted into the re: unit 2.

Thus, the signal coming from the input terminal 16, the converter 1 is converted into a signal, the voltage of which is constant and at the same time proportional to the average value, and shaper 4 into a signal whose voltage is proportional to the square of the curve shape factor. The voltage created by ISPTIC 6 can be considered a reference, and then when comparing two voltages in a block

5, which is essentially a subtraction unit, a signal is generated at the output of this unit, the voltage of which will be the difference of the voltages received from the driver 4 and from the voltage source 6. This difference voltage is incremented or increased in the erection units to the extent when

it is greater than one, and decrease when it is less than one. The number of transformations performed in the exponentiation blocks depends on the accuracy required.

obtaining effective values of voltages. After weighting and summing in the accumulator 15, the received signal is increased in the multiplication unit by as many times as the proportionality factor allows. And the final summation is performed using the adder 3. Thus, on the adder 15, the main summation occurs and on the adder 3 an additional summation occurs.

The conversion error in the implementation of the described method is reduced by 10-12%. This makes it possible to increase the reliability of the results obtained.

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A method of converting an alternating voltage into a constant, for example, in the measuring channel of a magnetic recording apparatus, proportional to the actual voltage, based on the summation of the functionally transformed average value of the voltage with the voltage of the additional signal, in order to reduce the convergence of the conversion , the average value of the voltage is converted linearly, and the voltage of the additional signal is transformed from the alternating voltage by the formation of the voltage cHrtiana is proportional to the square of the shape factor, after which they form a differential voltage and feed it to the combined inputs of the raising units and then to the independent inputs of the weighing units with further summation and multiplication of the resulting voltage of the signal, together with originally converted voltage.

Sources of information taken into account in the examination:

1. USSR author's certificate number 349339, M. class. G O1 B 19/00, 04.24.70.

2. Japanese Patent N ° 48-37369, cl. 102E09 C 11 B 5/00, 10.11.73.

3. Journal of Instruments and Control Systems, No. 2, 1975, A. A ,. Kuznetsov et al. On one of the methods for measuring the effective voltage value (prototype).

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