SU643894A1 - Device for collecting and primary processing of information of sensors - Google Patents

Claims (2)

The aim of the invention is to improve the accuracy of information processing. This goal is achieved by introducing into the device an accumulation unit j for reading the parameter value and a unit for forming a three-parameter quadratic dependence, consisting of a node for recording the number of linear sections and a unit for forming the Yashiny values, the outputs of the memory unit and the synchronization unit being connected to the first and the second inputs of the parameter accumulation and readout unit, the third input of which is poyuchen to the third output of the switchboard device and connected to the second inputs of the control unit and the block si x 6 down; the back, the same outputs of the groups of elements AND the switching unit are connected to the corresponding inputs from the input group of the accumulation and reading unit of the parameter value, the first and second inputs of the linear value generating node are connected respectively to the outputs of the synthronation unit and the SchtEgt block, and its output is connected to the second input of the result counter, Vizchas of the synchronization unit and the Meiil unit connect the connection to the first and second inputs of the registration unit for the number of linear sections, the OUTPUT group of which corresponds Twain podkyyu CH61M to rpyrtne The formation diivyn1H Input node values. In addition, the accumulation and reading of the parameter value contains the element OR, de and te, reversible counters by the number of measured parameters in the group of sensors and the group of elements AND, whose inputs are connected to the corresponding Inputs from the group of inputs of the block, sums The subtractive inputs of the reversible counters are connected to the corresponding outputs of the groups of elements I, the control inputs of which are connected respectively to the third input of the block. The output of the divider connected to the second input of the block by a output, the outputs of the reversible counter Cove The corresponding connected to the inputs of OR gate whose output is connected to the output unit. In addition, the IC.I3C line number registration node teaches STC, controls the controlled divider, and the Second inputs of which are connected to the same inputs of the node and a counter connected by the input with the output of the controlled divider, outputs c4e. Chika are connected 1s to the corresponding outputs from the group of outputs of the node. In addition, the linear value generation node contains two elements OR, a counter, a trigger, a group of elements AND, a delay element and a controlled divider, the first and second group of inputs of the group of elements AND are connected respectively to the group of inputs of the node and the group of outputs of the counter, the output of which connected to the trigger input, the inputs of the counter and the delay element are connected to the first input of the node, the second input and output of which are connected respectively to the first input and output of the controlled divider, the outputs of the group of elements And are connected to co The corresponding inputs of the first OR element, the output of which is connected to the first input of the second OR element, the second input of the controlled divider are connected to the output of the second OR element, the second and third inputs of which are connected respectively to the trigger and delay elements. The block diagram of the device shown in the drawing. The device contains sensors 1, Groups of 2 elements And switch 3, control unit 4, block 5 of memory, block 6 of accumulation and reading of parameter, including group of 7 elements C, reversible counters 8, divider 9 with fixed) 4 division and element. 10 OR, b so 11 sphronizashsh, node 12 registering the number of linear sections formed by a controlled divider 13 and counter 14, node 15 forming linear values, “formed by a group of 16 elements AND, counter 17, element 18 OR, t Dagger 19, a delay 20, an OR element 21 and a controlled divider 22, a result counter 23, a printing block 2.4, an indication block 25 and a clock pulse generator 26. The switch 3 and the groups of elements AND 2 form a switching unit 27, and the blocks 12 and 15 form a block 28 forming a three-parameter quadratic dependence. The drawing also denotes the output 29 of the stop and the Input 30 of the start of the block C. The device works as follows. In the first cycle, the measurement of the frequency of the sensors, the switch 3 gives a resolving signal for one pick up of groups of 2 elements I. From block 5 of the memory, reversible counters 8 record codes of numbers Qg-fo-i D i the capacity of reversible counters 8, foi initial frequency of i -th sensor , t is the selected measurement time. Then, the arguments of group 7 of elements I are opened, which are connected with the outputs of the sat. Of the corresponding group of elements AND 2. During the measurement time t, the sensor inputs are sent to the summing inputs of the reversible counts. At the time of the end of time tj, the measurement elements AND of group 2 are closed on the inputs, the reversible counters 8 are transferred to the subtraction mode and the second cycle of operation of the device begins. The numbers fixed in the reversible counters 8 are equal (- In the second cycle of operation of the device, switch 3 alternately connects the output of divider 9 to the subtractive inputs of reversible counters 8, and the switching is performed at the moment of resetting the connected reversible counter 8, which zero through the element 10 OR supplied to the blsh 4 controls; with the arrival of the start command from the bleeding 4 controls to the input 30, the block C ensures the passage of pulses from the generator output 26 clock pulses that arrive at the input of the divider 9, divide 13, the counter 17 and the delay element 2O. The first reversible counter 8 is reset when the number Nj impulcoJz from the output of the divider 9: N, t (f, -f,) arrives at its input, and the input of the divider 9 is received by N pulses from the output oscillator oscillator 26 (. where K. is the divider division ratio g, determined from the value of the permissible linearization error. When the reversing counter 8 is zero, the signal from its output passes through element 1O OR to input 29 of block C. 4 controls, in which result is produced before a linear code value of the measured parameter from the counter 23 in the block 24 and the print unit 25 indikashsh} switch 3 makes a connection 9 to the divisor d subtracting input sleduk .schego down counter 8 is supplied to the input start command unit 30 Not Music School, linearization is repeated. After the last reversing counter 8 has been reset with the command from the switch 3 output, the control unit 4 is switched to the measurement mode of the signals of the next sensor group. The block 28 of the formation of a three-parameter quadratic dependence realizes the dependence of the form P-0 | f ttsftC using the piecewise linear approximation method. The number of sections Km of piecewise linear functions approximating the characteristics of the sensors is chosen constant with regard to the permissible error and corresponds to the capacity of the counter 14. Also selected is constant {for groups of sensors with a close value of the highest output frequency) coefficient J J defining the length of the section approximating (the division coefficient divider 13). The numbers NQ e-fjj i, enter x into the i -th reversible counter 8, as well as the multiplication factor K. controlled divider 22, depend on the individual characteristics of the sensors. The division divider coefficients Kd depend on the characteristics of m. Block 28 provides the adjustment of a given dependence directly from the value of ft, and the parabolic dependence is formed of three components: the output of element 20, the output of trigger 19 and the output of group 16 elements I. Managed divider 22 performs the required scale. The calculation and at the moment of the end of linearization the result counter 23 will record the numerical value of the measured parameter in physical units, which is then printed, the indication in the digital computer. Claim 1. Device for collecting and preprocessing information of sensors, containing a switch and groups of elements And by the number of groups of connected sensors, a control unit connected to the control inputs of the groups of elements by the BJUV home and output And, the entrances of which are connected to the exits of a variety of dates. synchronization unit, connected by the first & second and second inputs, respectively, to the second output of the control unit and V1.PODODOM clock generator, memory unit, whose inputs are connected to the third output of the switch and the third output of the control unit, the fourth output of which is connected with the first inputs of the result counter and the print unit, the output of the result counter is connected to the output of the device, the second input of the print unit and the input of the display unit, which in order to improve the accuracy The function introduces the accumulation byte and readout of the parameter value and the three-parameter quadratic dependence formation unit, consisting of the linear number recording unit and the linear value generating unit, the npiPieM outputs of the pvmap and the sync synchronization unit are connected respectively to the first and second inputs of the accumulation and reading blocks The meter, the third input of which is connected to the third output of the switch, and the output is connected to the second inputs of the control unit and synchronization unit, one of the outputs of the groups of elements The units And the switching unit are connected to the corresponding input (from the input group of the accumulation and reading unit of the first meter, the first and second inputs of the forming unit are linearly assigned respectively to the inputs. the synchronization block of the memory block, and its output - is connected to the second input of the result counter, the outputs of the sync-11 block and the memory block are connected to the (from the first and the second input vffl node of the registration of the number of linear sections the group of outputs of coCi1 € 1ygeyeno connect to the group of inputs of the node form w linear values 2. device according to claim 1, characterized in that the block of accumulation and reading of the parameter value contains the element OR, divider, reversible counters by the number of measured parameters in the group of sensors and groups for lemovts I, whose inputs are connected to the corresponding inputs from the group of inputs of the block, summing and feeding the inputs of reversible counters are connected to the corresponding outputs of the group of elements I, whose control is connected to the third input of the block and the output of the divider connected to the second input of the block , the outputs of the reversible meters are connected to the corresponding inputs of the OR element, the output of which is connected to the output of the block. 3. The device according to claim 1, stating that the node for registering the number of linear sections contains a controllable divider, the first and second inputs of which are connected to the same inputs of the node, and a counter connected by the input with the output controlled divider, the meter outputs are connected to the corresponding outputs from the group of outputs of the node. 4. The device according to claim 1, that is, that the node of forming linear values contains two elements OR, a counter, a trigger, a group of elements AND, a delay element and a controlled divider, the first and second group of inputs of the group of elements AND connected respectively, the group of inputs of the node and the group of outputs of the counter, the output of which is connected to the KD input of the trigger, the inputs of the counter and the delay element are connected to the first input of the node, the second loop and which are connected respectively to the first input and output of the ground divider, the outputs of the groups s elements and are connected to respective inputs of a first OR gate whose output is connected to the first input of the second OR gate, a second input of controllable divider coupled to the output of the second OR gate, the second to the third inputs of which are connected respectively to the outputs of the flip-flop and a delay element. Sources of information taken into account in the examination 1. M. Tsapenko. Measuring and information systems. Mm Energie, 1974. 2. USSR author's certificate number 329529, cl. Q.06 F 15/46, 1969.