SU974377A2 - Device for collecting analog data from network electric model - Google Patents

Description

(54) DEVICE FOR ANALOG COLLECTION

INFORMATION WITH ELECTRIC NETWORK

Claims (3)

The invention relates to analog-to-digital computing and can be used in a hybrid computing system for collecting and pre-processing information. According to the main author. St. No. 911547, a device for collecting analog information from a grid electric model, comprising a selection unit, the first input of which is the first input of the device, a decoder, the output of which is connected to the second input of the selection unit, the outputs of which are connected to the first inputs of analog-digital converters, and the second the inputs of which are connected to the outputs of the control unit, the input of which is connected to the first output of the program control unit, the second output of which is connected to one input of the correction unit, the other inputs of which are To the first outputs of the analog-digital converters, the decoder inputs are connected respectively to the first output of the correction unit and to the third output of the program control unit, whose input is connected to the second output of the correction unit, the second outputs of the analog-to-digital converters are connected to the input group of the first switch, the adder, the second a switch, a comparison unit, a key, a controlled voltage source and a register, the first input of which is connected to the first output of the key, the second output of which is connected to The fourth output of the program control unit is connected to the primary input of the second switch through the control source of the reference voltage connected to the third inputs of analog-digital converters, and through the adder to the second input of the second switch whose output is the output of the device; the fifth output of the control: software control is connected with a platoon of the first switch, with a second register input and a third input of the second switch, the fourth input of which is connected to the first output of the register, the second output of which is connected to ne the output input of the comparison unit, the output of which is connected to the first key input, the output of the first switch is connected to the second inputs of the comparison unit and the key, and the program control block contains a memory element, registers to the switch, the output of which is the first output of the register connected to the first input of the memory element t, the first output of which is the second output of the block, the output of the memory eeming is connected to the hop of the second register, the first output of which is connected to the first input of the switch, the second input of which is combined with the second the memory unit stroke is the input of the block, the first, fourth, fifth and third outputs of which are the second, third, fourth and fifth outputs of the second SI register, respectively. The known device is characterized by the impossibility of determining the address of the point node having an extreme value potential and on-time detection of the maximum and minimum value of the nodal potential. The aim of the invention is to expand the functionality by simultaneously fixing and setting the location of the minimum and maximum values of the nodal potentials. The goal is achieved by the fact that the first, second, third and fourth additional registers, an additional switch and a memory block are additionally entered into the a1: 1 device for collecting information from the grid electric model, and the third output of the program control unit is connected to the information inputs of the first, the second and third additional registers, the control inputs of which are connected to the respective: outputs of the control unit, the outputs of the first, second, and tert of its additional registers through an additional the switch is connected to the first input of the memory unit, the second input of which is connected to the fifth output of the program control unit and to the control input of the additional switch, the output of the memory unit is connected to the first additional input of the second switch, the second additional input is connected to the first output the fourth additional register, the second output of which is connected to the third input of the comparison unit, the output of which is connected to the third input of the memory block; the course of the fourth additional register is connected with the first key output. The drawing shows the proposed structure. The device contains a selection unit 1, tax-digital transmitters 2-4, lok 5 correction aeshifter 6 samples, a program control unit, a switch 8, an extreme value accumulator 9, a switch, a control unit 11, a controlled voltage source 12, an adder 13 , the registers for storing the current addresses of the nodal points 14-16, the switch 17, the memory block of addresses of extreme values 18. The drive of extreme values 9 consists of a key 19, a comparison block 2O, a register of maximum and minimum values 21 and 22, respectively. The device works as follows. The selection unit 1 is connected to a grid electric model (not shown), the input of the program control unit 7 is connected to a digital computer (DVM) (not shown), and the output of the device is connected to the memory block DVR. In the program control unit 7 of the DVR, the program of the device operation is recorded. According to this program, the software control unit 7 launches the sampling decoder 6 and the control unit 11 sends the mantissa code of the scale factor of the sample to the code-controlled source of reference voltages 12, the order of the scale factor code - to the adder 13, and to the correction unit 5 - the reference code depending on the number of analog-to-digital converters installed in the analog information collection device, to the accumulator of extreme values 9 —the control signal, the minimum and maximum codes for determining the maximum and minimum codes from the array, learned after the decision on the mesh. Noah electric models. To determine the minimum) to the maximum codes, the maximum possible code is written to the register 21 of the accumulator of extreme values 9, and the minimum possible code is written to the register 22 of the drive 9. Sample decoder 6 includes the selected switching elements of the selection unit 11 and the grid points of the electric grid models are connected to the inputs of analog-to-digital converters 2-4. The control unit 11c with a delay determined by the duration of transients at the inputs of analog-specific converters 2–4, starts up the first control input of the analog hho-digital converter 2, the second control input of which receives the potential from the output of the code-controlled source of reference voltages 12 proportional to the code of the mantissa of the scale factor at the input of the code-controlled source of reference voltages 12 In addition, the same control is applied to the same. A signal from the control unit 11 to the control input of the register 14 records the address code of the polled node point with a transducer 2. With some delay, the control unit .11 starts the analog-digital converter 3 and the register 15, and then with some delay the register 16 and Analog-to-digital converter 4, to the second control inputs of which are also supplied potentials proportional to the mantissa code of the scale factor from the output of the code-controlled source of reference voltages and to the information inputs of the register 15 and 16 at the time of start of analog-digital converters 3 and 4 receives the address codes interrogated node points and the signals coming from the control unit 11 are written into the registers 15 and 16 sootvetstzenno. By this time, the analog-to-digital converter 2 finishes the conversion and, from its first output, the end-of-conversion signal is fed to the input of correction unit 5 and from its output, to program control block 7, which sends the command to switch 8 and 17, and the code from the output of analog-to-digital converter 2 to the input of the comparison unit 2O and the input of the key 19 of the accumulator of extreme values 9, and the address code of the polled nodal point from the output of the switch 17 is fed to the input of the accumulator of addresses of the extremal values 18. Comparison unit 20 compares the incoming code with the minimum code recorded in register 21 and the maximum code recorded in register 22. The comparison signal from the output of the 2O code comparison block is fed to the control input of key 19 and the third control input of the accumulator of extremal values 18, and the code from the output of the analog-to-digital converter 2 is inserted into the switch 1O and into registers 21 or 22, depending on the comparison result in block 20, and the address of the interrogated node point is recorded in accumulator 18. In the adder 13, the code of the order of the scale factor is added is dissolved shslo constant dependent on the difference in binary present degrees Weights: code masschtabnogo coefficient mantissas and codes the outputs angshogo-digital converters 2-4. From the coder of the adder 13, the summary code of the order enters the switch 1O and is assigned to the code, coming carefully from the analog-digital converter 2. The signal of the end of the conversion of the analog-digital converter 2 correction unit 5 outputs the signal to the first input of the sample decoder 6, which acts on the selection unit 1, disconnects the simplified anchor point from the input of the analog-digital converter 2 and connects the next one. By this time, analog-to-digital converter 3 finishes the conversion and outputs a conversion end signal to the input of the block. Corrections 5. The code from the output of the analog-digital converter 3 is compared in the comparison unit 2O with the codes that are in registers 21 and 22. If the code issued by analog-digital converter 3 is greater than the code in register 21, it is entered into register 21 and switch 1O, if the code is less than the code in register 22. it is entered into register 22 and switch 10. At the same time, the address code of the measured node point corresponds to this memory block 18, which corresponds to this extreme value stored in drive 9. If the measured code is larger than the code in register 22 and less to and the register 21, i.e., is not extreme, it is only entered into switchboard Yu, where it is assigned to it by an order of. The correction unit 5 generates a signal to the decoder sample 6, which influences. By turning on the selection unit 1, it disconnects the interrogation node point from the input of the analog-digital converter 3 and connects the next next node point to its input. The correction unit 5 outputs a signal to the second output of the program control unit 7. Through this signaling unit, the program control unit 7 starts the control unit 11 of the control unit 11, which starts the analog-to-digital converter 2 and the register 14 and with the delay the analog-digital converter 3. Ends the conversion of the analog-to-digital converter 4 and, from its first output, the signal of the conversion end-to. steps through the correction block 5 into the program control block 7. According to this signal, the program control unit 7 sends a command to the switch. 8 and 17, extreme value accumulator 9, memory block 18, and switch 1O. For this command, the code from the output of the analog-to-digital converter 4 is compared in the comparison block 20 with the codes stored in registers 21 and 22. Depending on the result of the comparison, the code from the output of the analog-to-digital converter 4 is written to register 21 or 22 and the switch 10, where it is assigned the order of adder 13, and the address code of the polled anchor point is written to the memory block of extreme values 18. If the code from the output of analog-digital converter 4 is less than the code recorded in register 21 and more than code recorded in register 22, then the output code of analog-digital converter 4 is written only to switch 10, where it is assigned an order Memory 18 does not record the address of the nodal point polled by the analog-digital converter 4. Correction unit 5 generates a signal to the input of the sample decoder 6, which, acting on the selection unit 1, disconnects the interrogated node point from the analog-digital converter 4 .and connects the next node point. With some delay, the control unit 11 again starts the analog-to-digital converter 4 and fills the address of the polled node point into the register 16. By the moment the code from the output of the analog-digital converter 4 is written to the switch 10, the analog-digital converter 2 is converted and the device operates as described After processing the array of information in registers 21 22, the accumulator of extreme values 9 turns out to be the maximum and minimum codes in the given array, and in the memory block of addresses of extreme values 18 addresses of the nodal points corresponding to these extreme values. In the switch 1O, an information word is formed in the form required by a digital computer: the output of the analog-to-digital converter 2-4 is assigned an order from the output of the adder 13, a parity signal is generated, information units and assign addresses to extreme values. From the output of the switch 10, the processed information is entered through the communication channel into the memory of the digital computer. By introducing new blocks and the connections between them, the functionality of the device is expanded. Formula invented and. A device for collecting analog information from the grid electric model by author. St. No. 911547, characterized in that, in order to expand the functionality by simultaneously fixing and finding the location of the minimum -x and maximum values of the node potentials, the first, second, third and fourth additional registers, the additional switch and the memory block are entered, the third output of the program control unit is connected to the information inputs of the first, second and third additional registers, the control inputs of which are connected to the corresponding outputs of the control unit, The outputs of the first, second and third additional registers are connected via an additional switch to the first memory location input, the second input of which is connected to the fifth output of the program control unit and to the control input of the additional switch, the output of the memory unit is connected to the first additional input of the second switch The second auxiliary input of which is connected to the first output of the fourth auxiliary register, the second output of which is connected to the third input of the comparison unit, the output of which is connected to t the memory input of the memory unit; the input of the fourth additional register is connected to the first output of the key. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 911547, cl. G06G 7/06, 1981.