SU1278794A1 - Device for calculating current estimation of average value - Google Patents

Abstract

The invention relates to automation and computing and can be used in telemetry systems. The aim of the invention is to expand the field of application of the device. The device determines the estimates of the values of the integrals of the products of the values of the input quantities belonging to the class of monotonic functions of time with a predetermined weight function. The device contains pulse counters, elements of AND, a pulse generator, a digital-to-analog converter, a generator of reference signals and in each information channel, digital-analog converters, a differential amplifier, a comparator, a counter and a register. 1 il.

Description

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12 The invention relates to automation and computing and can be used in telemetry systems. The aim of the invention is to expand the field of application of the device. The drawing shows a block diagram of a device for calculating a current average estimate. The device contains information1, each of which channels are made on the third multiplying digital-to-analog converter 2, the differential amplifier 3, the first multiplying digital-to-analog converter 4, the comparator 5, the counter 6 pulses, the shift register 7 and the second digital-analog converter 8, the first counter 9 pulses, the first the element And 10, the generator 11 pulses, the second counter 12 pulses, digital-to-analog converter 13, the second element And 14 and the generator 15 of the reference signals (functions). The device works as follows. The analog input signals X (t), ..., X (t) are fed to the second inputs of converters 2 of the corresponding information channels 1. The generator 11 pulses, counters 9 and 12 pulses, the elements 10 and 14 and the converter 13 form a generator cyclically The variable sweep voltage Xp (t) applied to the second inputs of the comparators is 5 information channels 1. The second (digital) inputs of multiplying converters 4 information channels 1 and generator 15 function inputs are given a code with the output of the counter 9 pulse cycles. The value of this code determines the transfer coefficient of converter 4 and changes as the cycle number changes, remaining constant during each cycle, as well as the digital equivalent of the weight function value in each cycle. The number of cycles L, during which the estimates of the Inputs from the products, the values of the input values for the previously known basic function are determined, is determined by the appropriate connection of the inputs of the element 10 to the outputs of the counter 9. In the initial state, the counters 6 and the registers 7 of the information channels 1, as well as counter 12 reset. And After zeroing the counter 9, pulses are output at the output of the generator 11, which change the contents of the counters 6 of the information channels 1 and the sweep voltage level Xp (t). .In instances of reaching the developable voltage value and where Z. is the voltage value at the second input of the differential amplifier 3 i-ro channel in the j-th cycle, Z, LT,; cij5 value of the input signal of the i-ro information channel in the j-th cycle; cycle time; the value of the weight function in the J-M cycle; the value of the code generated at the outputs of the generator 15 in the J-M cycle; the value of the output signal of the i-ro information channel 1 in the (-1) -th cycle; transfer coefficients of differential amplifiers 3, 1, 1/2, 1/3, ..., 1 / L at 1, L are the transfer coefficients of converters 4 in the JM cycle, one or several comparators 5 are triggered and the pulse 11 of the generator stops the counter 6 of the corresponding information channel 1. During each cycle of the sweeping voltage change, the comparators 5 are triggered in all N channels 1. At the time the sweep voltage X (t) reaches its maximum value at the output of the element 14, it appears logical The unit, under the influence of which the contents of counter 9 changes by unit, records the contents of counters 6 of information channels 1 into corresponding registers 7 and changes codes at outputs C, ..., C and voltages at analog outputs A ,, Aj,. .., and devices. Since in the first cycle K 1, then - -. - 41 converters 8 of information channels 1 form analog values A ,, Aj, ..., A, the values of which are equal to Y,., X.T / L. In the second cycle, the inputs of the comparators 5 are affected by voltages, the values of which at the moments of operation of the comparators 5 are equal to (Z.-Y;) / 2, X, 2 as in the pre-meter counters 6, the measurement result is saved, then at the end of the second cycle the contents counters 6 and registers 7, as well as the values of the output voltages of the converters 8 are equal to 1: LL and at the end of the L-cycle Y iiiI XiQL-J + Y ioi Lioc-1 tt (X. L iL Vib.A- ,.) : | X (t) ol (t) dt. The occurrence of an L-ro pulse at the output of an element And 14 causes the appearance at the output of an element And 10 a logical unit, under the influence of which the generator 11 stops working. This completes the process of determining the estimates of the integrals of the product of input values by a given base function during L cycles. I Thus, the proposed device allows one to determine the values of integrals of products of values of input variables belonging to the class of monotonic time functions with a predetermined weight function. . Fore. The device for calculating the current estimate of the average value, containing the first pulse counter, the outputs of which are connected to the corresponding inputs of the first And element, whose output is connected through a pulse generator to the input of the second pulse counter, the outputs of the second pulse counter and connected to the corresponding inputs of the digital-analog converter and the second element And, the output of the second element And is connected to the input of the first pulse counter, and in each information channel digital-analog conversion telephones, comparator, pulse counter, register and differential amplifier, the output of which is connected to the first input of the first D / A converter, the output of which is connected to the first input of the comparator, the output of the comparator is connected to the control input of the pulse counter, the output of which is connected to the information input of the register, the output of the register connected through the second digital-to-analog converter with the first input of the differential amplifier, the second inputs of the first digital-to-analog converters of information channels of the volume respectively, and connected to the corresponding outputs of the first pulse counter, the counting inputs of the pulse counters of the information channels are combined and connected to the output of the pulse generator, the output of the digital-to-analog converter is connected to the second inputs of the comparators of information channels, the control inputs of the registers of the information channels are combined and connected to the output of the second element I , the outputs of the registers and second digital-to-analog converters of information channels are respectively digital and Analog outputs of the device, characterized in that, in order to expand the field of application of the device, a reference signal generator is introduced into it and in each information channel a third digital-to-analog converter, the output of which is connected to the second input of the differential amplifier, is connected to the corresponding outputs of the first counter pulses, the output of the reference signal generator is connected to the first inputs of the third digital-to-analog converters of information channels, the second inputs of the These are the inputs to the device.

Claims (1)

Fort. invention mule A device for calculating the current estimate of the average value, containing the first pulse counter, the outputs of which are connected to the corresponding inputs of the first element And, the output of which is connected through the pulse generator to the input of the second pulse counter, the outputs of the second pulse counter are connected to the corresponding reference signal generator and in each information channel the third digital-to-analog converter, the output of which is connected to the second input of the differential amplifier, the inputs of the reference signal generator are connected to the corresponding outputs of the first pulse counter, the output of the reference signal generator is connected to the first inputs of the third digital-to-analog converters of information channels, the second inputs of which are the inputs of the device.