SU543997A1 - Electrical modulating converter - Google Patents

Description

The invention relates to information measuring technology and can be used to modulate all kinds of electrical signals.

A known construction of a transducer modulating electrical signals consisting of a contact plate, rod contacts, a stop plate, a core or a vibrating plate, a permanent magnet, an excitation winding and an output transformer. A resilient steel plate, fixedly fixed at one end in the lower part, vibrates under the action of a variable magnetic field created by the excitation winding. The winding is powered by a variable -15 clod with a frequency of 50 Hz. The alternating magnetic field changes the polarity of the magnetization of the free end of the elastic plate, and the measles are alternately attracted to the poles of the permanent magnet. The moving contacts on the plastic-20 tube are alternately closed with fixed contacts. The modulated voltage is applied to the moving contact and the midpoint of the transformer primary. As a result of the alternate closure of the moving contact with the fixed contacts, the voltage is applied respectively to one or the other half of the primary winding of the transformer and causes currents of different directions in this winding. These currents create a variable magnetic flux in the core, which is induced by the emf in the secondary winding of the transformer, the value of which is proportional to the modulated voltage.

However, the presence of moving contacts of the converter leads to rapid wear of moving parts, in addition, the presence of moving parts causes inertia, reduces sensitivity and reduces efficiency. converter

Also known is a transducer containing a magnetic system consisting of two closed magnetic circuits having two windings connected in a bridge, and a control winding that covers both magnetic circuits. Such a structure is closest to the proposed technical essence.

Claims (1)

However, in such a transducer, the magnetic flux from the measured current passes through two different magnetic circuits, which leads to the inequality of the two parts of this flux. The result is a comparatively low accuracy; in addition, the open view of the magnetic depiie leads to errors from external magnetic fields and undesirable scattering flows, which reduces the efficiency. and transducer sensitivity. The aim of the invention is to improve the accuracy and sensitivity of the converter. The magnetic system of the proposed modulating converter of electrical quantities consists of a cylindrical shell inside which is placed a core equipped with end washers and a central partition on which windings are located, and parts of the input winding are placed on both sides of the partition and are connected in series-counter, with output windings placed along one side of the partition, included according to and form the opposite shoulders of the bridge. The drawing shows a modulating transducer. It consists of a cylindrical shell 1 inside which is placed the core 2, provided with end washers 3 and a central partition 4 on which the windings are located. Parts of the input winding 5 are placed on both sides of the partition and are connected in series and counter, and Output windings 6, located on the same side of the partition, are included according to and form the opposite shoulders of the bridge. An alternating voltage is applied to the windings connected by a bridge circuit. When there is no signal at the converter input, no modulation occurs, and no signal is output at the bridge output. In the presence of the signal under study (direct current), the magnetic flux generated by this current will be directed oppositely to the flow from the windings located on the right side of the core and in accordance with the flow from the windings located on the opposite side. As a result of saturation of the sections of the magnetowire, wrapped around the windings located on opposite sides of the core, will be different. This leads to different values of the m-magnetic permeability of these areas, with the result that the inductive resistance of the windings located on opposite sides of the core will be different. This leads to unbalance of the bridge. The signal at the output of the bridge is proportional to the signal under study. Claims An electrical modulation converter comprising a magnetic system, an input winding consisting of two parts and four output windings connected in a bridge circuit, characterized in that, in order to increase accuracy and sensitivity, the magnetic system consists of a cylindrical shell inside which a core is provided with end washers and a central partition on which the windings are located, and parts of the input winding are placed on both sides of the partition and a follower is included but-counter, the output windings arranged on one side of the partition, and incorporated according form opposite arms of the bridge. y /// A /) / W /////// //// //// //// 7. Y /// W // y /// // // I 6