RU2174236C1 - Method of admittance test of magnetoelectric current meter and device for its realization - Google Patents

Abstract

FIELD: manufacture of switchboard instruments of magnetoelectric system. SUBSTANCE: in accordance with invention calibrated current corresponding to rated value of first test point of scale is fed into tested magnetoelectric current meter. Maximum fall of voltage across scale resistor with flow of calibrated current is found and stored. Then supply of calibrated current is stopped, maximum fall of voltage induced in tested magnetoelectric meter after stoppage of supply of calibrated current is determined and stored. Difference between maximum fall of voltage and voltage across scale resistor is found and is compared with its tolerance zone. Process of test is repeated in second test point of scale. In this case time of one clock period is greater than damping time of magnetoelectric current meter. EFFECT: simplification of admittance test. 2 cl, 1 dwg

Description

 The group of inventions for tolerance control of a magnetoelectric current meter relates to the field of electrical engineering and can be used in the manufacture of panel devices of a magnetoelectric system.

 A known method for the automatic calibration of measuring instruments is that the verification is carried out in two cycles, and in one cycle, an input signal that varies according to the linear law is applied to the device to be verified, the moments of alignment of the pointer with the verified marks of the scale are determined, the values of the input signal are measured, and in the auxiliary, the parameters of the input signal are changed and the main cycle is repeated (see AS USSR N 1599818, class G 01 R 35/00, BI N 38, 1990).

 The disadvantage of this method is the difficulty of reading from the scale of the instrument being verified.

 A device is known for automatically calibrating pointer measuring instruments, comprising a transmitting television camera, a calibrated device, a processing and control unit (B), calibrated signal generation unit, B software-controlled scanning, an optical system, (see AS USSR N 1383242, class G 01 R 35/00, BI N 11, 1988).

 The reasons that impede the achievement of the specified technical result when using the known device include the fact that it uses a television camera to read the readings of the devices, resulting in great complexity and cumbersome.

 The closest method of the same purpose to the claimed method in the group of inventions according to the totality of features is the method of verification of measuring instruments, which is based on the use of the main and additional measures connected to the input of the device, calibrated levels of physical quantities corresponding to verified marks are established at the output of the main measure, then using an additional measure, these calibrated levels are changed by an amount equal to the value of the permissible absolute error of the corresponding class of of the device being tested, in the direction of increasing (decreasing), if the readings of the device being verified are less than (greater than) the required level of the measured physical quantity, and if, when the calibrated levels of the physical quantity change, the readings of the device pass through the corresponding calibrated marks, then the device is considered to correspond to the established accuracy class USSR AS N 911396, class G 01 R 35/00, BI N 9, 1982), adopted as a prototype.

 The disadvantage of this method, adopted as a prototype, is the great difficulty of reading readings from the scale of the instrument being verified.

 The closest device of the same purpose to the claimed device in the group of inventions is a device for tolerance control of pointer devices, comprising a clock pulse generator, a reversible counter, a frequency divider, an indication trigger, an arrow position registration sensor, a scale mark registration sensor, a device to be checked, control unit, logical elements And (see. A. S. USSR N 1597811, CL G 01 R 35/00, BI N 37, 1990), adopted for the prototype.

 The reasons that impede the achievement of the specified technical result when using the device adopted for the prototype include the fact that it uses sensors for registering the position of the arrow, which makes this device quite difficult to implement.

 The essence of the invention lies in the presence of two independent electrical circuits: a current calibrator - a controlled magnetoelectric current meter and a controlled magnetoelectric current meter - a large-scale amplifier, switched on alternately. In known devices for tolerance control of magnetoelectric current meters, a current calibrator and a scale amplifier are connected to a controlled magnetoelectric current meter during the entire monitoring process. It is essential to form the maximum value of the voltage drop with the help of a large-scale resistor included in the circuit of a current calibrator - a controlled magnetoelectric current meter. In known devices, the maximum value of the voltage drop is created by a special source.

 EFFECT: simplified method of tolerance control of a magnetoelectric current meter and device for its implementation.

 The specified technical result in the implementation of the group of inventions on the object-method is achieved by the fact that in the known method, a calibrated current corresponding to the nominal value of the first control point of the scale is supplied to a magnetoelectric current meter, the maximum voltage drop across the scale resistor is detected and stored, and the calibrated current is then stopped the supply of calibrated current and determine and remember the maximum value of the voltage drop induced in the controlled magnetoelectric the electric current meter after stopping the supply of calibrated current, determine the difference between the maximum voltage drop on the controlled magnetoelectric current meter and the voltage on the scale resistor and compare it with the tolerance field, after which the control process is repeated at the second point on the scale, and the time of one cycle exceeds the calming time of the controlled magnetoelectric current meter and determine the suitability of the controlled magnetoelectric current meter.

 The specified single technical result when implementing a group of inventions on an object-device is achieved by the fact that the known device contains a microprogram control device, a current calibrator and a scale amplifier connected to the terminals of a controlled magnetoelectric current meter, a scale resistor, amplitude detectors, a subtraction unit, to the output of which a registration and comparison device with a tolerance field is connected.

 A feature of the device is that a current calibrator and a scale amplifier are connected to the terminals of the controlled magnetoelectric current meter through a polarized three-position relay, forming two different electrical circuits when the polarized three-position relay is closed, the current calibrator is a controlled magnetoelectric current meter and a controlled magnetoelectric current meter is scaled amplifier, which when the neutral position of the armature of a polarized three-position relays are open; at the same time, a scale resistor is sequentially connected to the current calibrator - controlled magnetoelectric current meter, to which the input of the first amplitude detector is closed, the output of which is connected to one of the inputs of the subtraction unit, the second amplitude detector is connected to the other input of the subtraction unit, the input of which is connected to the scale output amplifier, the output of the subtraction unit is connected to the input of the registration and comparison device with the tolerance field, which is used as a conventional magnetoelectric s current to zero in the middle and a scale marked on a field to start, the microprogram control unit generates signals that define current condition of the calibrator polarized three-position switch, the amplitude detectors and the subtraction unit and switches them.

 The drawing shows a structural diagram of an automatic device for tolerance control of a magnetoelectric current meter. The device comprises a current calibrator 1, a scale amplifier 2, a polarized three-position relay 3, a controlled magnetoelectric current meter 4, a scale resistor R, amplitude detectors 5, 7, a subtraction unit 6, a registration and comparison device with tolerance field 8, a microprogram control device 9 generating signals that determine the state of blocks 1, 3, 5, 7 and 6 and the sequence of operation of the entire control device. The control signal circuits are shown by dashed lines in the figure.

 The claimed method of tolerance control of a magnetoelectric current meter is implemented on the device as follows.

At the command of the microprogram control device 9, using a polarized three-position relay 3, a current calibrator 1 is connected to a controlled magnetoelectric current meter 4. In this case, the contacts of the polarized three-position relay 3 from position 1 _p go into position 2 _h . The current calibrator 1 supplies a calibrated current corresponding to the controlled marks of the scale to the controlled magnetoelectric current meter 4, while using the amplitude detector 5, the maximum value of the reference voltage drop across the scale resistor R is determined and stored when the calibrated current flows corresponding to the controlled marks of the scale. After that, at the command of the microprogram control device 9, the polarized three-position relay 3 switches the monitored magnetoelectric current meter 4 to a scale amplifier 2, while the armature of the polarized three-position relay moves from position 2 _s to position 3 _s , and the current calibrator - controlled magnetoelectric - opens the circuit current meter. After turning off the current calibrator 1, the movable part of the controlled magnetoelectric current meter returns to the zero position, while a voltage is induced in the controlled magnetoelectric current meter, the maximum of which depends on the angle of rotation of the movable part and is therefore used in the proposed device to read the readings of the controlled magnetoelectric current meter. The induced voltage is amplified by a scale amplifier 2, its maximum value is determined and stored on the amplitude detector 7. Then, by the command of the microprogram control device 9, a polarized three-position relay 3 puts the armature in neutral position 1 _p , in which the circuit is controlled by a magnetoelectric current meter - current calibrator and controlled magnetoelectric current meter - the scale amplifier is open, and at the same time on the subtraction unit 6, the maximum values of the drops are subtracted voltage from the amplitude detectors 5 and 7, as a result of which the difference between the readings of the monitored magnetoelectric current meter 4 (the maximum value of the voltage drop from the amplitude detector 7) and the maximum value of the voltage drop of the reference voltage at the scale resistor R. The resulting differential maximum value of the voltage drops is fed to a registration and comparison device with tolerance field 8 and determine the suitability of the controlled magnetoelectric current meter 4 on the appropriate control Rui mark of the scale. After that, the microprogram control device 9 likewise repeats the control process at the next controlled scale mark, having previously set amplitude detectors 5 and 7 to zero. The time of one cycle of the microprogram control device 9 must exceed the settling time of the controlled magnetoelectric current meter 4, so that it can be moved part when you turn on the current calibrator had time to establish, and therefore is 3-4 seconds.

 The microprogram control device 9 contains a microcontroller DD1 (1816be51), a flash memory of the FLASH class with a volume of 64 kilobytes with electrical reprogrammability (up to 100,000 times) DD3 (28F512), registers DD2, DD7-DD11 (555IR22), multiplexer DD5 (561KP2), and analog- digital converter DD6 (MAX 176), logic gates OR DD4 (555LE5), DD12 (К155ЛН1), DD13 (555LLI), resistors, capacitors, transistors. The firmware control device 9 operates as follows. Ports P0 and P2 of the microcontroller DD1 are used as address / data buses, while the low byte of the address followed by the ALE signal is first output through the P0 port in the time multiplexing mode, then data byte is received or received. Port P2 displays the high byte of the address. The low byte of the address is written to the external register DD2 by the signal slice ALE. To fix the address, the DD2 register-latch is used with a slice recording, but a preliminary inversion of the ALE signal is required. In the data memory and program memory there is a logical separation. The selection of commands from the ROM is performed by the PSEN signal, and data reading is performed by the RD signal. The amount of ROM is determined by the amount of software to initialize the hardware and manage the exchange with IBM. In the DD1 microprocessor, data is processed according to the algorithms embedded in the form of a program in the integrated microcircuit of the DD3 read-only memory. The control signal from port P1.7 of the microcontroller DD1 is fed to block 3. Using the data set at the outputs of the port P1.4-P1.6 of the microcontroller DD1, the channel of the multiplexer is selected. From the output of the multiplexer, a signal from one of the amplitude detectors 5, 7 or the subtraction unit 6 is fed to the input of the ADC DD6. The signal converted from the ADC output into a serial digital code is fed to the input RXD of the microcontroller DD1. To protect DD6 from overload, a resistor with a resistance of 2 kOhm is introduced into the circuit. To organize the work of the P320 current calibrator, the DD7-DD11 registers are introduced. The choice of the state of the current calibrator 1 is controlled by the microcontroller DD1 using the data set at the outputs of the port P1.0-P1.3 of the microcontroller. To communicate with the PC, a serial interface is used, that is, information is transmitted through two conductors sequentially bit by bit. The signal from the interface device with a personal computer is transmitted to the input TXD DD1. The interface device is a galvanic isolation for which optocouplers are used.

 A feature of the tolerance control device of the magnetoelectric current meter is the formation of the maximum value of voltage drops, used to find the difference in the subtraction unit 6, with the help of a scale resistor R included in the circuit of the controlled magnetoelectric current meter - current calibrator. To select the magnitude of the scale resistor R, the following method of setting it is proposed. Instead of a controlled magnetoelectric current meter 4, a model magnetoelectric current meter of the same type with a controlled magnetoelectric current meter, but having a much smaller error, is installed in the device and tolerance control is performed, while the scale resistor R is adjusted so that the differential voltage value at the output of the subtraction unit 6 is equal to to zero.

When using the claimed group of inventions, the following combination of conditions:
means embodying the claimed invention in its implementation, is intended for use in industry, namely in the manufacture of measuring instruments;
for the claimed group of inventions, as described in the independent claims, the possibility of its implementation using the means and methods described above in the application is confirmed.

 Therefore, the claimed group of inventions meets the condition of "Industrial applicability".

 The proposed group of inventions - a method of tolerance control of a magnetoelectric current meter and a device for its implementation, is much simpler in its implementation in comparison with the known groups of inventions containing optoelectronic readers with mechanical movement of the transducer along the scale. Significant is also a significant reduction in size and weight of the device, which is part of the group of inventions. It can be made autonomous and therefore can be used for tolerance control of widespread magnetoelectric current meters directly in the field of their operation.

Claims (2)

 1. The method of tolerance control of a magnetoelectric current meter, according to which a calibrated current corresponding to the nominal value of the first reference point of the scale is supplied to the magnetoelectric current meter, the maximum voltage drop across the scale resistor is detected and the calibrated current flows, then the calibrated current is cut off, determined and stored maximum value of voltage drop induced in a controlled magnetoelectric current meter after interruption Calibrated current supply, determine the difference between the maximum voltage drop at the monitored magnetoelectric current meter and the voltage at the scale resistor and compare it with the tolerance field, after which the control process is repeated at the second point on the scale, and the time of one cycle exceeds the settling time of the monitored magnetoelectric current meter and determine the suitability of the controlled magnetoelectric current meter.  2. A device for tolerance control of a magnetoelectric current meter, comprising a microprogram control device, a current calibrator and a scale amplifier connected to the terminals of a controlled magnetoelectric current meter, a subtraction unit, to the output of which a recording and comparison device with a tolerance field is connected, characterized in that it is connected to the terminals of the controlled magnetoelectric current meter through a polarized three-position relay connected to a current calibrator and a large-scale amplifier, forming a and the closed contacts of a polarized three-position relay, two different electrical circuits: a current calibrator - a controlled magnetoelectric current meter and a controlled magnetoelectric current meter - a scale amplifier, which, when the polarized three-position relay armature is in neutral, are open, while the current calibrator is a controlled magnetoelectric current meter in series a large-scale resistor to which the input of the first amplitude detector is closed, the output of which connected to one of the inputs of the subtraction unit, a second amplitude detector is connected to the other input of the subtraction unit, the input of which is connected to the output of the scale amplifier, and the microprogram control device generates signals that determine the state of the current calibrator, a polarized three-position relay, amplitude detectors and the subtraction unit and switches them .

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