SU596971A2 - Multichannel electronic analyzer - Google Patents

Description

54) MULTICHANNEL ELECTRONIC ANALYSIS.A.TOR

The invention relates to computing means of a WITHOUT technology designed to study random processes.

The present invention is an enhancement to the .m lime multichannel electronic copyright analyzer 433505.

However, the known analyzer does not allow the 01 to determine the optimal speed of the measuring device, taking into account the degree of correspondence between the speed and the sectral 1 {s of the characteristics of the analyzed random process.

The aim of the invention is to expand the functional capabilities of a multi-channel analyzer. For this, a second group of series-connected adders, a group of elements AND, an element OR, a division unit, a comparison unit and a control unit are entered into a known analyzer, the output of the first adder of the first group connected to one input of the first adder of the second group the groups are connected to the corresponding outputs of the sum of the matrices of the first group and to the first output of the analyzer, the outputs of the sum of the matrices of the second group are connected to the information inputs of the elements AND of the group, the inputs of which are connected yen to the first v; course b / s. and the outputs of the elements of the 11th group are: iio.iк .1ючены respectively to BI O; UIM ellchnt, YoSh, the output of which is about psr. mzp: what is the size of the block 1. isiopoii BXO.I which is connected to the output of the Universe (.1a in the group of adders, and vb: ho i tune: f ..; iiK cfviBni connected h) input; B. u.;:,;, jo: ;;; -. the second output of which is mpiMM; and, where the analyzer is.

In the drawing, ipiiiKMCiia sgsch; vi; iji, i, -: - .trichesky analyzer circuit ;;.

Claims (1)

Ana.shzator sosr / kcht e.sK1pro1 (H:,. ;; - :: T; channel corre.ch. 1. t :;;; vley 2, oscillating block;; 1 kyh KtiirixpiiB -., Group su. Mmatorov 4. second | - | i -; ijv: 4 tori 5, each of which coe.uiiien iii.piii.i:.; input with output previous accumulator 1 adder, and the second - with a corresponding adder of the first group of adders, a group of elements And b, the information inputs of the cohorts are connected to the corresponding outputs of the second circle of adders, and the outputs of group 6 of the elements AND are connected to the inputs of the element OR 7. The element OR 7 has its own output of the connection to the first input of the division block 8, the second input The one of which is connected to the last (p.m.m) Biiixo j. UM of the second group of adders 5. The output of the divider box 8 is connected to the input of the comparison unit 9, which by its output is connected to the input of the control unit 10. The first output of the control unit is connected the control inputs of the group of elements are And 6, and the second output is the output of the analyzer. Multichannel. The electronic analyzer operates as follows: An electrical signal is output to the input of the correlator 1, which characterizes the random process being analyzed. As a result of signal processing, the output of the electronic multichannel correlator 1 produces voltages proportional to the values of the correlation function of the input random process, which through the switch block 2 is applied to the capacitance of the block of circuits 3. With the simultaneous fast switching of the switches of the block 2 in the oscillating circuit block 3 an oscillatory process occurs. The voltage from the capacitances of the oscillating circuit unit 3 is fed to the outputs of the summing devices of the first group of adders 4. The output of the i-th summing device of the first group of adders 4 will be a voltage proportional to the value of the spectral density estimate Si (t), which is fixed at the analyzer output . The same discrete values of the spectral density Si (t) are fed to the inputs of the second group of adders 5, where a successive summing up of these values takes place, after which signals are fed to the inputs of the group of elements AND 6. The control inputs of each element AND of this group can be given a signal from the first output of the control unit 10 to the opening of the element AND, depending on the signal of the comparison unit 9. From the output of the group of elements AND 6, the signal goes through the block OR 7 to the first input of the division block 8, the second input of which receives the signal, (last) output of the second group of adders 5. In division block 8, the degree of correspondence between the speed of the measuring device and the spectral characteristics of the random process being analyzed is calculated, which enters the comparison block 9, where it is compared with the admissible .IM value of the degree of correspondence. In the case, if the degree of conformity is less than permissible, then the comparison unit 9 outputs the corresponding signal to the control unit 10, which opens the next element AND of the group of elements AND 6, increasing the required speed of the measuring device (the set-up time of the indication decreases). Consequently, from the division unit 8 to the comparison unit will be supplied a larger value of the degree of conformity, and if it turns out to be greater than or equal to the allowable one, then the control unit 10, using the signal from the comparison unit 9, outputs the analyzer output to the optimum value of the measuring device between the speed and spectral characteristics of the random process being analyzed and equal to the time for establishing indications. Thus, the proposed multi-channel electronic analyzer allows to dilute the functionality by issuing, in addition to the spectral density estimates, the optimal value of the speed of the measuring device intended for measuring the random process being analyzed. The economic effect of this innovation can be assessed in the following ways. From the literature it is known that the cost of a measuring device is inversely proportional to the value of t (d is some constant). Statistics show that for a wide range of electrical measuring devices, d can be taken as 0.5. Then the reduction is often unjustified due to the lack of appropriate information of the speed of the measuring device by 2 times (a 2-fold increase in the time for setting the readings tn) will reduce the cost of the measuring device by 30% with unchanged requirements for measurement accuracy and power consumption. Consequently, the information about optimal speeds, issued by the proposed analyzer, will significantly reduce economic costs. Claims of the Invention Multichannel electronic analyzer according to the author's certificate No. 433505, characterized in that, in order to expand the functional possibilities, the second group of consecutively connected adders, the group of elements AND, the element OR, are entered into it. the division unit, the comparison unit and the control unit, while the output of the first adder of the first group is connected to one input of the first adder of the second group, the other inputs of the adders of the second group are connected to the corresponding outputs of the adders of the first group and to the first output of the analyzer, the outputs of the adders of the second group are connected to information the inputs of elements AND groups, the control inputs of which are connected to the first output of the control unit, and the outputs of the elements AND groups are connected respectively to the outputs of the element OR whose output It is connected to the first input of a dividing unit, the second input of which is connected to the output of the last sum of the second group of adders, and the output through the comparison unit is connected to the input of the control unit, the second output of which is the second output of the analyzer. Sources of information taken into account in the examination: 1. Copyright certificate № 433505, G O G 7/52, 1972. I - ,: - ;; - i t -four .