SU503249A1 - Multichannel analyzer - Google Patents

Description

one

This invention relates to statistical measurement technology and can be used to analyze random electrical signals.

Known devices include inverting, integrating and summing amplifiers. However, the accuracy of estimating the distribution function at various points in the signal range, as well as the accuracy of estimating the interval corresponding to the specified increments of the distribution function, depend on unknown functions and density of signal distributions for a given analysis time, i.e., cannot be guaranteed , which in turn reduces the value of the measurements.

The aim of the invention is to ensure the constant accuracy of the distribution function over the entire range of the signal. In the analyzer described, this is achieved in that it contains in each channel a comparison element and a key element, the control input of which is connected to the output of the comparison element, the first input of which is connected to the device input, and the second input is connected to the corresponding output of the device connected summing, first inverting, integrating and second inverting amplifiers and with the first input

a similar chain of the next channel, except the last one, the second input of the amplifiers chain of each channel, except the last one, is connected to the output of the integrating amplifier of the subsequent channel, the second input of the first channel comparison element is connected to the first input of the amplifier chain of the first channel, and the output of the integrating amplifier of the last channel is additionally connected the second

the input of a chain of amplifiers of the same channel.

The drawing shows the block diagram of the analyzer.

The analyzer contains elements li-1 „, key elements 2i-2„, inverting 3i-3 „. integrating 4) -4 „, inverting and summing 6i-6„ amplifiers. The analyzer consists of several (l) interconnected channels, each of which consists of the element of comparison 1, the corresponding key element 2 and the chain of amplifiers 3, 4, 5 and b. All channels differ from each other only by the magnitude of the transfer coefficients of the first inverting 5 and summing 6 amplifiers.

The first inputs of elements of comparison 1 are connected to the input of the analyzer.

The voltage applied to the output of any, for example, k-ro channel is compared with the voltage of the signal Xf in the comparison element 1d, which controls the key element 2d so that if the voltage of the signal Xt is greater than the voltage at the output of this channel, xt, then the switched terminals of the key element 2, connect the output voltage of summing amplifier 6 4. to the second input of the integrating amplifier 4 k The output voltage of summing amplifier 6; in addition, it goes to the input of the first inverting amplifier 5, from the output of which the voltage is applied to the first input of the integrating amplifier 4. From the output of the integrating amplifier 4; of each channel, except the first, the voltage is fed to the input of another inverting amplifier 3 of the same channel and to the second input of summing amplifier 6 of the previous channel. In each (e.g., g / m) channel, the output voltage of the inverting amplifier 3, which is the last in the chain of series-connected amplifiers 6-5 -4-3, is fed to the second input of the comparison element 1 to the first input of which the signal under test X (. The output voltage of each channel, except the last one, is connected to the first input of the chain of amplifiers of the subsequent channel.

The first channel is additionally supplied to the first input of the amplifier chain of the first channel, the output voltage of the integrating amplifier 4 ' of the last channel is additionally supplied to the second input of the amplifier chain of the same channel.

Thus, if the voltage of the signal Xf is greater than the input voltage of any channel, for example, the Lth channel, the latter increases with a speed proportional to 1-a, otherwise it decreases with speed a, proportional to a, equal to the coefficient Transmit the first inverting amplifier 5 ft of the same channel.

When setting the transmission coefficients of inverting amplifiers 5 devices in accordance with the inequalities

About ai. . . Ofe aft + i. . . and „1 the initial values of the output voltages of the devices must be set within the expected range of signal changes so that. In this case, the transfer coefficient of summing amplifier 6d of each, for example, kth channel should be set inversely proportional to the value of aft-fi-ctfe-i for both a2-ai or a p-a p-for the first or last channel, respectively, due to which the distribution functions, determined by the variance of the voltage fluctuations at all the outputs of the device, after a predetermined time will be constant over the range and equal to the predetermined value.

Claims (1)

Invention Formula A multichannel analyzer containing inverting, integrating and summing amplifiers, characterized in that, in order to ensure constant accuracy on throughout the signal change interval, it contains in each channel a comparison element and a key element, the control input of which is connected to the output of the comparison element, the first input of which is connected to the input of the device, and the second input is connected to the corresponding output of the device, to the output of the corresponding chain of series-connected summing, first inverting, integrating and second inverting amplifiers and the first input of a similar chain of the next channel, except the last, the second input of the amplifier chain of each channel, except the last, is connected to the Output of the integrating amplifier of the subsequent channel, the second input of the comparison element of the first channel is connected to the first input of the chain of amplifiers of the first channel, and the output of the integrating amplifier the last channel is additionally connected to the second input of the chain amplifiers of the same channel