SU842650A2 - Device for measuring magnetic induction - Google Patents

Description

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The device relates to magnetic measurements and can be used to accurately measure the induction of magnetic fields in a wide range of induction values.

According to the main auth. No. 756325: A device for measuring magnetic induction is known, comprising a double-clamping magnetoresistor, a reference voltage source, two switches, an integrator, a comparison unit, a selector, a pulse generator, a reversible counter, a binary frequency multiplier and a control unit whose outputs are connected to the selector input and the switch inputs, the first input of the first of which is connected to the first output of the voltage source and to one of the terminals of the magnetoresistor, the other terminal of which is grounded, while the output of the first p A switch through an integrator and a comparison device connected to the output of the selector, the second input of which is connected to the output of the pulse generator, | the output by the output i of the binary frequency multiplier result counter, as well as the auxiliary coil, resistor and DC source, the control input of which is connected to the control unit, two signal outputs connected to the inputs of the second switch, the OUTPUTS of which are connected to the coil terminals creating an exemplary the magnetic field penetrating the magnetoresistor, the grounded terminal of which is connected to one terminal of the resistor; the other terminal is connected to the second output of the voltage source and to the second input of the first transistor the key switch, and the selector's output is connected to the input of one of the matching circuits and to the summing input of the reversible control counter of the binary frequency multiplier, which subtracts the input-which is connected to the output of the selector, and the information outputs are connected to the inputs of the coincidence circuit group, the second inputs of which are connected to the information outputs a result counter, and the outputs are connected to the inputs of the collection circuit, one of the inputs of which is connected to the output of the selector, and the output is connected to the summing input of the reversible counter, subtracting the input cat cerned is connected to the selector output, which control input is coupled to the output of down counter Ts

However, the measurement accuracy with the known device is not sufficient.

The purpose of the invention is to increase the TBI to carry measurements while expanding the operation range of the magnetic induction measurement.

To achieve this goal, a device containing a magnetor source, a voltage source, a resistor, a switch, a coil,: a DC source, an integrator, a comparison device, a selector, a pulse generator, a equal pulse counter, a control unit, the outputs of which are connected to the inputs a selector, a switch, a DC source, the first output of which is connected to the first terminal of a coil creating an exemplary magnetic field that penetrates the magnetoresistor, one of the terminals of which through the first The wire of the power supply line is connected to the grounded terminal of the resistor, the other terminal is connected to the first input of the switch and to one of the outputs of the reference voltage source, the other output of which is connected to the other terminal of the resistor and the second input of the switch, the output of which the integrator and comparing device is connected to the selector input, the second input of which is connected to the output of the pulse geyrator, and the output is connected to the input of the reversible counter, as well as a binary frequency multiplier consisting of Eversive control counter, result counter, group of AND matches, OR elements, serially connected frequency divider and second OR collection element, whose output is connected to the summing, reversible counter input, the second input to the selector output, the first input of the frequency divider connected with the output of the first element of the collection OR, and the second input with the output of the control unit.

In addition, the coil is equipped with a multi-stage coil, and the switch, the input of which is connected to the output of the DC source, and the outputs are connected to the second terminal of the first coil and to the terminals of the multi-clamping coil, is multi-channel, with two coils connected in series and placed in a magnetic field together with the magnetoresistor.

The drawing shows the functional scheme of the device.

The device contains a source of stable current 1, a switch 2, a first coil 3., a second multi-clamp coil 4, a two-clamping magnetoresistor 5, a source of reference voltage b, a resistor 7, a switch 8, an integrator 9, a comparing unit 10, a selector 11, a pulse generator 12, reversing counter 13, a binary frequency multiplier 14 consisting of

control counter 15, collection element OR 16, group of match elements AND 17 and result counter 18, control unit 19, frequency divider .20, second collection element OR 21. Outputs of control unit 19 are connected to inputs of selector 11, switch 8, source 1 current, the first input of which is connected to the first terminal of the coil 3, creating an exemplary magnetic field that penetrates the magnetoresistors 5, one of the terminals of which is connected to the grounded resistor through the first wire of the communication line, the second terminal through the second wire The communication line is connected to the first input of the switch 8 and to one of the inputs of the source 6 of the reference voltage, the other output of which is connected to another terminal of the resistor 7 and to the second input of the switch 8, the output of which is connected to the selector input through the integrator 9 11, whose second input is connected to the output of the pulse generator 12, and the output is connected to the input of the reversible counter 13, the multichannel switch input of the body 2 is connected to the second output of the current source 1, and the outputs are connected to the second terminal of the first coil 3 and the clamps of the multi-clamping coil 4, the coils 3 and 4 are connected in series and placed in the magnetic field 15 together with the magnetoresistor 5, and the outputs of the selector 11 are connected to one of the inputs of the second collecting element OR 21, with the counting input of the result counter, with the summing and subtracting inputs of the counter 15 control and the output of the first collection element OR 16 through a frequency divider 20 with another input of the second collection element OR 21, the output of which is connected to the summing input of the reversible counter 13, the output of which is connected to the input of the control and the selector 11, the output of the control counter 15, which is connected to the auxiliary input, is subtractive. the input of its second trigger, wherein the control unit 19 is connected to the frequency divider 20 and to the input of the result counter 18.

The device works as follows.

In the field of weak fields, the dependence of the resistance of the magnetoresistor on induction is quadratic, then it gradually becomes linear and remains so up to ID T. For induction values greater than 10 T, the dependence curve may be nonlinear. The curve of the dependence of the resistance of the magnetoresistor on induction is symmetric.

The device operates in four sub-ranges of magnetic induction. in the first region (quadratic characteristic of the magnetoresistor), the device operates as follows. In the initial state, the counters 13, .15 and 18 are reset to the state. The switch 8 is in the neutral position and the switch 2 is in the O position. In the first switching cycle, the signal from the control unit 19 connects the switch 8 to the upper position on time period of mains voltage. Only a measurable magnetic field with induction acts on the magnetoresistor. At time t - T, the control unit 19 moves the switch 8 to the lower position and opens the selector 11 along the additional input of the reversible counter 15 of the control. In this case, the integrator 9 integrates the voltage until its output voltage is zero, which is fixed by the matching unit. In the reversible counter 15, an additional code of the number Nx | Since the pulses arrive at the subtractive input of the second trigger of the reversible counter 15. In the second switching cycle of the signal, our control unit 19 turns on switch 2 in position I, as a result of which current from source I begins to flow through coil 2, leading to exemplary induction BO, coinciding in direction with the measured induction VA. As a result of the conversion, based on the principle of push-pull integration, the number of pulses N / 2 is fed to the subtracting input of the reversing counter 13 to the summing input of the control counter 15 and to the subtracting input of the reversible counter 13. Since at the end of the first switching cycle an additional code of number N is fixed in the reversible counter 15, by the end of the second switching cycle a number will be fixed in it) N / 2 - NI .. At the third switching cycle, switch 2 is in the same position I), the control unit 19 reverses the direction of the current in the coil 3. As a result, two constant oppositely directed magnetic fields with induction B and Bff affect the main impedance device 5. By the end of the third cycle, koi (1mutation as a result of integrating time-pulse conversion, the number of pulses goes to the summing input of counter 13 and to the input of the second collection element OR 21. Since the end of the second switching cycle, the Nii number code is fixed in the reverse control counter 15, sN - N, then the number N will be fixed in it by the end of the third cycle. Since the reversal counter 13 has a fixed code of the number M, by the end of one third of its cycle the number NN will be fixed in it, - N. After the third cycle the control unit 19 opens the selector eleven the input of the result counter 18 results in pulses with the following frequency f being input until the reversing counter 13 goes to the zero state, while the result counter records the number of pulses N proportional to the measured induction B). After the conversion, the division factor of the frequency divider CD - 1 we get B, - | f- N :,; (1) where NO is the information capacity of counters 15 and 18, ffc. - 0 2 - This measurement mode is applied only in the magnetic induction range, which is determined from the ratio of BO - BX Vd vnin, where the voltage is between the initial nonlinear and linear sections and the characteristics of magitoreeistor. If the measured magnetic induction is found in the second region of the linear characteristic, the measurement process is carried out as follows. In the initial state, the counters 13, 15, and 18 are reset to the zero state, the switch 8 is in the neutral position, and the multichannel switch 2 is in the O position. During the switching cycle, the control unit 19 moves the switch 8 to the upper position for the duration of the period T of the mains voltage. Only a measurable magnetic field with induction acts on the magnetoresistor. At the end of the first switching cycle, after conversion, the subtracting input of counter 15 receives the number of pulses N. In the second switching cycle, switch 2 is in position II, current is flowing through the coil 3 and the first and second windings of the coil 4. As a result of the conversion, the number of pulses N / is fed to the summing input of the counter 15 and to the subtracting input of the counter 13. Since by the end of the first cycle in the counter 15 an additional code of the number N4 was fixed, by the end of the second cycle the number N3 would be fixed in it. In the third switching cycle, switch 2 is in the same position as in the second cycle, in the direction of the current changes to. the opposite. The number of pulses at the end of the third cycle, arriving at the input of the second element OR 21, is equal to. Since the number of Nj is fixed to the coic of the second cycle in the counter 13, by the end of the third cycle the number of pulses N5 NO will be fixed in it. - N4. At the same time, the control unit 19 opens the village 11 to the input of the counter 18, to the input of which pulses start to flow at a frequency f (j until the reversing counter 13 goes to the zero state. In the result counter, the number of pulses N is fixed. After conversion get

 .-ifc b .- 2)

The second measurement region can cover the entire linear portion of the characteristic of the magnetoresistor, which is limited to within the third region of the linear characteristic of the magnetoresistor, the device operates as follows.

In the initial position, all counters are reset to zero, switch 8 is in the neutral position, and switch 2 is in the O position.

In the first switching cycle, coils 3 and 4 receive a current, due to which only the measured magnetic induction BX acts on the magnetoresistor. As a result of the conversion, the number of pulses NI is fed to the subtracting input of the reversible control counter 15.

In the second switching cycle, switch 2 is in position I. At the same time, the magnetic resistor acts on the sample and measured magnetic field, with inductions BQ B, b resulting from the conversion to the summing input of the reversing counter 15 and to the subtracting input of the counter 13 receives the number of pulses N,. Since the number N is fixed in the counter 15 by the end of the first cycle, by the end of the second cycle it will be fixed to

N numbers - N; J -.

In the third switching cycle, switch 2 is turned to position Y, and the signal of control unit 19 changes the current direction. In this case, the magnetoresistor is affected by two oppositely directed magnetic fields with induction B and% BD. By the end of the third cycle, the input of the collection element OR 21 is the number of pulses δd. Taking into account the number of pulses Njj, which arrived at the counting input of the counter ,. 13 by the end of the third cycle, the number of pulses t Nj N - - N will be fixed in it

After the third cycle, the signal of the control unit in the counter 18 records the code of the number N and after some time the selector 11 opens at the input of the counter 18. By the end of the fourth cycle, the number of pulses Ы arrives at the input of the result counter 18, and in the counter 18 the number code at Cd 1 . N "+ N. With N": g. (Kv - I) NOf after conversion

. AND

we have BX "7

The extension of the induction operating range in the non-linear region of the quadratic characteristic of the magnetoresistor is based on the principle of moving induction, which penetrates the magnetoresistor in the linear portion of the characteristic. .

In the initial state, all counters are reset to the zero state. In the first switching cycle, switch 2 is in position III. The current flowing through the coils creates the opposite in direction to the measured induction. As a result of the conversion, the summing input of the counter 15 and the input of the counter 13 enters a number. pulses. In the second cycle, the Z switch is in the 1U position. The magnetoresistor is affected by two oppositely directed magnetic fields with inductions B and.

By the end of the second cycle, the number of pulses N is fed to the subtracting input of the reversible counter 15. With the count of the number of pulses N received, the code of the number 15 is recorded in counter 15.

In the third switching cycle, switch 2 is in position V1.

On the magnetoresistor effect. two oppositely directed magnetic fields with induction B and KgB (j,

In the second cycle, the number of pulses goes through the collection element OR 21 to the summing input of the counter 13

1M

the end of the cycle in it fixes 4 f a K N runs the number of pulses S.

in the fourth switching cycle, the code of the number N is set in the counter 18 by the signal of the control unit, and after some time the selector 11 is opened at the input of the result counter 18. Pulses with a frequency f arrive at the input of counter 18 until the reversible counter 13 goes to the zero state. The number of pulses that arrived at the input of the result counter will be equal to

111Kti. DH. TL I

. : - „NO-KA

III

a by the end of the cycle: wTl

.-N;

In the result of the processing of the measurement result, in the result counter 18, the Chode of the number N, + N will be fixed.

If the division factor Kd of the frequency divider 20 is K - K and k - NO (K + Ke) /, then after conversion the measured induction is determined by the formula

BC-1-, and)

Claims (2)

Thus, the device ensures the independence of the measurement result from the time and temperature instability of the parameters of the magnetoresistor of the communication line, the transmission coefficient of the circuit, since the measured magnetic induction Ie depends on the initial resistance RO and ROI, the specific sensitivity of the magnetoresistor 5, their temperature and time instability, the values of the frequency f of the generator 12 pulses, the instability of the reference voltage Od, the resistance of the Connecting wires g and g, and the resistor Rj, their value, the time constant k integrator 9 that the "Odita to improve the accuracy of measurement. In addition, the device allows extending the working range of the measured induction not only in the linear section, but also in the field of inductions exceeding 10 T. Claims of the invention A device for measuring magnetic induction according to Auth. 756325, which is based on the fact that, in order to improve measurement accuracy, serially connected parts and a second collection element OR, the output of which is connected to the summing input of the reversible counter, are inputted to it, the second input - to the output of the selector, the first input of the divider frequency is connected to the output of the first element of the OR collection, and the second input is connected to the output of the ynpaiipeni block. 2. The device according to claim 1, characterized in that 4Yo coil is equipped with a multi-pinch coil, and a switch, the input of which is connected to the source output: direct current, and the outputs are connected to the second clip of the first coil and to the clamps of the multi-clamp coil made of multi-channel, and two coils connected in series and placed in a magnetic field together with a magnetoresistor. Sources of information taken into account during the examination 1. USSR author's certificate 756325 of 04.24.78. .J.