SU1030812A1 - Multiplier - Google Patents

Description

1 The invention relates to analog computing technology and can be used in functional converters, and the most widely used application can be found in electrical power transmitters and in forward and reverse power relays. A multiplying device containing limiters, a reference voltage generator, an operational amplifier, a variable resistor, a low-pass filter, transformers and large-scale resistors p 3 is known. A disadvantage of this device is the presence of significant instrumental methodological errors. The closest technical solution to the proposed one is a multiplying device containing input source, second input source, first and second adders, first inputs connected to the outputs Sources of first and second input, the signals, respectively, and a multiplier unit output averaged yuschy filter whose output is an output device, a multiplier unit inputs connected | K outputs of the adders and to an input vyhod- Ivyhodnego averaging filter f2j. The main drawbacks of the device are the presence of significant instrumental and methodological errors, as well as the low value of the conversion coefficient. The latter requires switching on either at the input or at the output of the multiplying device of an additional amplifier, which complicates the circuit. The effective and simple ways to reduce instrumental error is not known, since a nonlinear multiplier device with two inputs cannot be covered by normal communication. The inherent time of the pulse multiplying device is the methodological error, which can be reduced by increasing the sampling rate, but the instrumental error also increases. As a result, there is an optimal sampling rate at which the minimum of the total error is reached. At. In modern elemental base, this minimum occurs at a sampling rate of the order of several kilohertz. Another way to reduce the methodological error is to reduce the modulation factor. At the same time, the output signal of the multiplying device drops by the same amount. To restore the output signal level at the output of the multiplying device, an additional amplifier must be switched on, which complicates the circuit. The purpose of the invention is to reduce the error of multiplication and simplify the device. The goal is achieved by introducing a stable signal source orthogonal to the input signals, a shaper orthogonal signal whose input is connected to the output of the multiplying unit, and an output to the second input of the first adder, and the output of the first stable signal source orthogonal to the input signals (connected to the second input of the second adder. The essence of the invention is that two signals at one input of the multiplying block are multiplied by two signals at the second input, one of which is with the converted output of the multiplying block.: Due to the pairwise orthogonality of the signals at the inputs of the multiplying block, the average value of the output signal is proportional to the sum of the products of orthogonal signals.8 The result of the multiplying block is simultaneously an amplifier of the product of input signals covered by a negative or positive feedback. feedback can be obtained reduction or instrumental (negative feedback - OOS), or methodical (put Field feedback (VOC) errors, or achieve a relay effect (PIC coefficient greater than one), do not complicate the scheme of the multiplying device. The drawing shows a block diagram of the proposed device. The multiplying device contains a multiplying unit 1, to the inputs of which through the first and second adders 2 and 3 receive input signals X (t) from source 4 of the first input signal and Y (t) from source 5 of the second input signal. The second input of the second adder 3 is connected orthogonal to X (t) and Y (t) signal oi (t; from the source 6 of a stable signal orthogonal to the input signals. You

Claims (1)

A MULTIPLE DEVICE containing a source of a first input signal, a source of a second input signal, first and second adders, the first inputs of which are connected to the outputs of the sources of the first and second input signals, respectively, a multiplier block and an output averaging filter, the output of which is the output of the device, the inputs of the multiplier block are connected to the outputs of the adders, and the output to the input of the output averaging filter, characterized in that, in order to reduce the error of multiplication and simplify the device, in it the source of a stable signal orthogonal to the input signals, the driver of the orthogonal signal, the input of which is connected to the output of the multiplier unit, and the output to the second input of the first adder, and the output of the first source of the stable signal orthogonal to the input signals, are connected to the second input of the second adder. AW and reverse generator