SU1084629A1 - Device for converting value of mechanical stresses in ferromagnetic materials to frequency of square electric pulse train - Google Patents

Abstract

DEVICE FOR TRANSFORMING THE VALUE OF MECHANICAL VOLTAGES IN FERROMAGNETIC MATERIALS V; FREQUENCY OF FOLLOWING RECTANGULAR ELECTRIC PULSES, containing a magnetically anisotropic sensor with two inductors, a transistor generator of rectangular pulses, consisting of two main bipolar transistors, to the bases of which are connected resistors, and to collectors - inductors. the other terminals of which are connected to one of the terminals of the power source, the other terminal of which is connected to the emitters of the main bipolar transistors, characterized in that, in order to increase the reliability in operation, two additional bipolar and two field-effect transistors are introduced into it, pitch transistors are connected to the second terminals of the resistorsJ of their base — with collectors of opposite main bipolar transistors, and emitters with drains of field-effect transistors, whose sources are combined and dklyucheny dopolniteln1y through a resistor to the junction of opposite vyvo (L rows inductance coils of the power supply, and the gate kazhdos th of field effect transistors connected to the drain of the opposite field effect transistor. about X) 4 ND X

Description

The invention relates to power and weight measurement technology and can be used as primary converters in information measuring systems for the automation of production processes in the metallurgy, transport, and mining industries. One of the effective methods for improving the accuracy of information-measuring systems in the case of remote information transmission is the conversion of the measured analog value to the oscillation frequency of the output signal. A known circuit of a magnetoelastic force-to-frequency converter contains a magnetic core with openings in which the measuring winding and the excitation winding are located, made up of separate sections connected to an electronic circuit ij. However, the circuit does not provide the required accuracy of converting the force to frequency and a wide range of force measurements. The closest in technical essence to the proposed device is a device for converting the magnitude of mechanical stresses in ferromagnetic materials to the frequency of converting rectangular-electric pulses, which contains a magnetic anisotropy sensor, including a magnetic conductor and two inductances, a transistor generator of rectangular pulses. of the two main bipolar transistors, to the bases of which are connected the first terminals of the basic resistors and to the collectors - the opposite leads of the inductive coils spine, the other terminals of which are coupled and connected to one of the terminals of the power supply, the other terminal of which is connected to the emitters of bipolar basic rnyhtranzistorov 2. However, the known device is not distinguished by high accuracy of conversion and reliability of operation. The purpose of the invention is to increase the reliability of operation. This goal is achieved by the fact that a device for converting the magnitude of mechanical stresses in ferromagnetic materials into the frequency of following rectangular electric pulses, containing a magnetic anito-isotropic sensor with two inductance attributes, a transistor generator of rectangular pulses transistors, to the bases of which resistors are connected, and to collectors - inductors, whose other terminals are connected to one of the terminals of the power source, another terminal The first is connected to the emitters of the main bipolar transistors, VBedeny has two additional bipolar and two field-effect transistors, the collectors of additional bipolar transistors are connected to the second terminals of the resistors, their bases - to the collectors of opposite main bipolar transistors, and the emitters - to the drains of field-effect transistors, the sources of which are connected and connected through an additional resistor to the junction point of the opposite; the leads of the inductors with the leads of the power source, and the gate of each of the field-effect transistors. connected to the drain of the opposite field-effect transistor. The drawing is a schematic diagram of the device. The device contains main bipolar transistors 1 and 2, basic resistors 3 and 4, additional bipolar transistors 5 and b, field-effect transistors 7 and 8, coils 9 and 10 of inductance, magnetic circuit 11 and adjustment resistor 12. The device works in the following way. A magnetic anisotropy sensor is installed on the controlled product. A core with a sound-hysteresis loop is used as the sensor magnetic core. There are holes in the magnetic core in which two identical inductors are mutually perpendicular. The proposed device is powered from a stable voltage source. Due to the differences in the characteristics of transistors 1 and 2, the collector current of one of them (for example, transistor 1) at the time of switching on the supply voltage should be greater than that of the second. Then the collector potential of transistor 2 becomes more positive. transistor 1, which leads to further full opening of transistor 1 and closing the resistor 2. When the induction in the magnetic circuit created by the inductor 9 reaches its maximum value, collector current I begins to decrease, which leads to an increase in collector potential 1 and, respectively, to increasing current iz. As a result, transistor 2 opens and transistor 1 closes. After the induction in the magnetic core reaches its minimum value, a core reversal occurs. As a result, transistor 1 opens again, and transistor 2 closes. Further operation of the device is similar.

Claims (1)

A DEVICE FOR TRANSFORMING A SIZE OF MECHANICAL STRESSES IN FERROMAGNETIC MATERIALS FREQUENCY OF FOLLOWING RECTANGULAR ELECTRIC PULSES, containing magnetoanisotropic sensors with two inductance coils of inductance and transistors of inductance b the terminals of which are connected to one of the terminals of the power source, the other terminal of which is connected to the emitters of the main bipolar transistors, characterized in that, in order to increase reliability in operation, two additional bipolar and two field-effect transistors are introduced into it, and the collectors of additional bipolar transistors are connected to the second terminals of the resistors) of their base - to the collectors of opposite main bipolar transistors, and emitters with drains of field-effect transistors, the sources of which are combined and connected through an additional resistor to the point of connection of the opposite terminals of the inductors with the output of the power source, and the shutter each of the field-effect transistors connected to the drain of the opposite FET. SU „, .1084629 ί >