SU911547A1 - Device for collecting information from network electric model - Google Patents

Description

The invention relates to analog-to-digital computing technology and can be used in a hybrid computing system for collecting, preprocessing information, and transmitting it from a grid-based data processor to a digital computer.

A device for collecting and transmitting information is known, including an input switch, isolation units, * analog-to-digital converters and an output switch, * ° that allows you to remove a solution from an electric model and transfer it to a digital computer [11.

However, this device does not provide sufficient accuracy ¹⁵ and speed.

The closest in technical essence to the proposed one is a device containing a selection unit associated with analog-to-digital converters and a sample decoder connected to a correction unit and a program control unit connected to an equalization unit connected to analog-to-digital converters connected to the keys and a correction unit connected to the program control unit [21 The known device does not allow to increase the speed and accuracy of operation. ,

The chain of invention is improving the accuracy of the device.

The circuit is achieved by the fact that in the device containing the selection block, the first input of which is the first input of the device, a decoder whose output is connected to the second input of the selection block, the outputs of which are connected to the first inputs of analog-to-digital converters, the second inputs of which are connected to the outputs control unit, the input of which is connected to the first output of the program control unit, the second output. which is connected to one input of the correction unit, the other inputs of which are connected to the first outputs of the analog-to-digital converters, the inputs from 911547 4 decoders are connected respectively to the first output of the correction unit and to the third output of the program control unit, the input of which is connected to the second output of the correction unit, the second outputs — yes and analog-to-digital converters — are connected to the group of inputs of the first commutator; an adder, a second commutator, a comparison unit, a key, a controlled source of reference voltage, and reg page, the first input of which is connected to the 'first output of the key, the second output of which is connected to the first input of the second switch, the fourth output of the software control unit is connected to the third inputs of the analog-to-digital converters through a controlled source of voltage, and through the adder to the second input the second switch, the output of which is the output of the device _No. , the fifth output of the program control unit is connected to the input of the first switch, with the second input of the register and the third input of the second switch, tverty input of which is connected chen ₂₅ to first output register, a second output connected to the first input of the comparator, whose output is connected to the first input key out of the first commutator is connected to the second rows ₃₀ vho- comparison unit and the key.

The program control unit contains a memory element, registers and a switch, the output of which through the first register is connected to the first input of the memory element 35, the first output of which is the second output of the unit, the output of the memory element is connected to the input of the second register, the first output of which is connected to the first input switch, the second input of which is connected to the second input of the memory element and is the input of the unit, the first, fourth, fifth and third outputs of which are the second, third, fourth and fifth outputs respectively (/ horn register. ⁴⁵

In FIG. 1 is a block diagram of a device for collecting analog information; in FIG. 2 circuit block software control.

The device comprises a selection unit 1, analog-to-digital converters 2-4, ⁵⁰ a correction unit 5, a decoder 6, a program control unit 7, a switch 8, an extreme value drive 9, a switch 10, a control unit 11, controlled, a reference voltage source 12 " ⁵⁵ zheniya and adder 13. Accumulator 9 of extreme values consists of block 14 comparison, key 15 and register 16.

Block 7 software control (Fig. 2) contains a switch 17, a register 18, a memory element 19 and a register ^; 20.

ί The outputs of block 1 of the selection are connected to the inputs of analog-to-digital converters 2-4. The first outputs of the analog-to-digital converters 2-4 are connected to the correction unit 5 connected to the first input of the sample decoder 6 and to the program control unit 7, the first output of which is connected to the switch 8, the drive 9 of extreme values and the switch 10. The outputs of the program control unit 7 connected to the second input of the decoder 6 of the sample, with the control unit 12, with a controlled source 12 of the reference voltage and with the adder 13. The output of the source 12 is connected to the second control inputs of analog-to-digital converters 2-4, a - the output of the adder 13 is connected to the control input of the switch 1O. The output of the switch 8 is connected to the drive 9 of extreme values connected to the switch 10. The drive 9 of extreme values contains a code comparison unit 14, the first input connected to the output 'of the switch 8 and key 15, the first output of which is connected to the switch 10, and the second is connected to the register 17, the first output connected to the second input of the code comparison unit 14, f The second output of the register 17 is connected to the switch 10. The output of the code comparison unit 14 is connected to the control input of the key 15.

The switch 17 is connected to the micro-command address register 18 connected to the first input of the memory element 19, which is connected to the micro-command register 20, the first output connected to the first input of the switch 17, the second input of which is connected to the output of the program control unit 7 and the second input of the memory element 19, the input and output of which is connected with the input and output of block 7 of the program control.

The device operates 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 (digital computer) (not shown), and the output of the device is connected to the memory unit of the digital computer.

In the block "7 program control from the computer record the program of the device. According to this program, the program control unit 7 starts the sample decoder 6 and the control unit 11, sends the matisse of the scale factor code to the code-controlled source 12 of the reference voltage, the code order> _{5 of the} scale factor to the adder 13, to the correction unit 5 - the reference code, depending on the number analog-to-digital converters installed in the device for collecting analog information, however, there are 9 extreme values - a control signal and a minimum code to determine the maximum code in the mass of the solution. In the case of determining the maximum code in the drive extreme values record the maximum possible code.

The decoder 6 of the sample includes the selected switching elements of the selection block 1 and the nodal points of the grid ₂ q electric models are connected to the inputs of analog-to-digital converters 2-4. The control unit 11 with a delay determined by the duration of the transition processes at the inputs of the analog-digital-25 level converters 2-4, starts the analogue-digital converter 2 at the first control input, the second control input of which receives the potential from the output of the source 12 proportional to the code matisis of the scale factor at the input of the source 12. With some delay, the control unit D1 starts an analog-to-digital converter 4, to the second control inputs of which potentials proportional to the code of the mother sy scale factor output from the source 12 kodoupravlyaemogo reference voltages. By this time, the analog-to-digital — _<0 howl converter 2 completes the conversion and from its first output the signal from the end of the conversion goes to the input of the correction unit 5 and to the program control unit 7, which puts the command _<5 into the switch 8 and the code from the output of the analog-digital converter 2 enters the input of block 14 and the input of the key 16. The code comparison unit 14 compares the incoming code with the minimum code recorded in register 16. The comparison signal with; the output of the code comparison unit 14 is supplied to the control input of the key 15, and the code from the output of the analog-to-digital converter 2 is entered into the switch '10 and register 16. In the adder 13, a constant number depending on the difference of binary degrees is added to the code ^{55 of the} order of the scale factor weights: code m &

Tissa scale factor and codes at the outputs of analog-to-digital converters 2-4. From the output of the adder 13, the total order code is supplied to the digital Converter 2.

Based on the signal from the end of the conversion of the analog – digital converter 2, the comparison unit 5 selects a signal to the decoder 6 of the sample, which acts on the selection unit 1 _and disconnects the interrogated nodal point from the output of the analog-to-digital converter 2 and connects the next one. By this time, the analog-to-digital converter 3 completes the conversion and provides a conversion code signal to the input of the correction unit 5. The code from the output of the analog-to-digital converter-j of the device 3 is compared in the block 14 for comparing codes with the code recorded in the register 16. If the code from the output of the analog-to-digital converter 3 is larger than the code recorded: in register 16, then, by the comparison signal, the code from the output of the analog-to-digital converter 3 is written to register-16 and switch 10. If the code from the output of the analog-to-digital converter 3 is less than the code recorded in the register 16, the code from the output of the analog-to-digital Converter 3 is recorded only in the switch 10, where it is assigned the order.

The correction unit 5 provides a signal to the decoder 6 ^ of the sample, which, by acting on the selection unit 1, disconnects the interrogated nodal point from the input of the analog-to-digital converter 3 _z and connects another nodal point to its input. Block 5 correction provides a signal to block 7 program control. According to this signal, the program control unit 7 starts the control unit 11, which starts the analog-to-digital converter 2 and, with a delay, the analog-to-digital converter 3. Finishes the conversion of the analog-to-digital converter 4, and from its first output, the end conversion signal is supplied through the correction block 5 and block 7 program control. Based on this signal, the program control unit 7 issues a command to the switch 8 ', the drive 9 of extreme values and the switch 10. By this command, the code from the output of the analog-to-digital converter 4 is compared in block 14 of comparison with the code stored in register 17. According to the comparison signal, the code analog-to-digital Converter 4 is recorded in the register 16 and the switch 10, where he is assigned the order from the adder 13.

The correction unit 5 provides a signal to the decoder 6 of the sample, which acts on the selection unit 1, disconnects the interrogated nodal point from the analog-nifrovy converter 4 and connects the next nodal point. With some delay, the control unit 11 starts up the analog-to-digital converter 4 again. By the time the code is written from the output of the analog-to-digital converter 4 to the switch 10, it finishes the conversion of the analog-to-digital converter 2 and the device operates as described above. As the array of information is processed in the register 16 of the drive 9 of extreme values, the maximum-largest code in this array appears. An information word is formed in the switch 10 in the form necessary for the digital computer: the output code of the analog-to-digital converters 2-4 is assigned the order from the output of the adder 13, the parity signal is generated and information units are detected. From the output of the switch 10, the processed information is input to; computer memory

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Claims (1)

1. Copyright authority USSR No. 399882, cl. G 06 Q 7/48, 1971. 2 USSR author's certificate in application number 24219О7 / 18-24, cl. G, About G 7/06, 1976.