SU490052A1 - Device for measuring the coercivity of ferromagnetic cores - Google Patents

Description

one

The invention relates to the field of magneto-measuring te.chniki and is meant for automatically measuring the coercive force of ferromagnetic cores in a static test mode.

A device for measuring the coercive force of ferromagnetic cores is known, containing its current source connected to the magnetizing winding of the test sample, a magnetic flux meter connected to the reading winding of the sample, a divider by two, a comparison circuit, a control circuit and a voltage recorder.

The main disadvantage of the known device is the considerable time measurement of the coercive force, which is associated with the need to register a large number of points of the magnetization curve.

The purpose of the present invention is to reduce the measurement time.

The goal is achieved due to the fact that the device is equipped with a generator of current reading pulses, the output of which is connected to the magnetizing winding of the test sample, as well as a storage device and a switch connecting the output of the magnetic current meter to the input of the device and one of the inputs of the comparison circuit, to the other input of which the splitter has been paired with a two-way connected memory, its devices, and a block of commands whose output is connected to the common input of the switch and the control circuit occurrence.

Diagram of the device shown in the drawing.

The device consists of a source 1 of magnetized current N of generator 2 of readout current of the nanosun connected connected nosledggelio, and the second output of the source 1 11 the output of the generator 2 is connected to the magnetic winding 3 of the test sample

4, the magnetic flux meter 5, the input of which is connected to the switchboard 1 of the slider 6) a:; tsa 4, and the output to the switch 7, one output K () is connected to the serially connected memory device

8, divider 9 "pa two and circuit 10 compared, the second output of the switch 7 is connected to the second input of the comparison circuit 10, the output of which is connected to the control circuit 11, the BTopoii input of which is connected with the output

unit 12 commands, and the output - with the control source 1, the third output of which is connected to the recording device 13, the second output of the command unit 12 is connected to the control UN1HM input of the switch 7.

The structure works as follows.

The generator 2 of the current reading pulses produces a sequence of current pulses, non-magnetizing the test sample 4 from the state defined by the magnetizing current, to the state of technical saturation - Ft. The sample is magnetized by the source 1 current. The duration and repetition rate of the current reading pulses are selected from the condition of the static test mode, determined by the pulse readout method, and the amplitude of the read pulses automatically tracks the change in magnetization current. The magnetic flux drops of the test specimen are measured with a 5 1 flux meter. The command unit 12 issues two commands per measurement cycle. In the first of these, the control circuit 11 sets the magnetization current of the source 1, which enters the test sample into the saturation state -jC ,, i, and at the same time the switch 7 connects the output of the flux meter 5 to the input of the memory device 8, which remembers the signal proportional to twice to the magnetic flux passivity 2 FT- According to the second command of the command block 12, the switch 7 connects the output of the magnetic flux meter 5 to the second input of the comparison circuit 10, the control circuit 11 of the control now. With the establishment of such a current / ,. source 1 of the magnetizing current corresponds to the coercive force, which is calculated by the value of „J, -, i® 1 L

NOI formula / 7c -, where w - number of vit /

The BER magnetizing winding of the test specimen, a / is the length of its midline. Thus, taking into account a certain coefficient, which depends only on the geometrical dimensions of the test sample, is registered; 1; its device 13, connected to the magnetization source, shows the value of the co-epithetizing force of the samples.

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A device for measuring the coercive force of ferromagnetic cores, contains its current source, 1 connected to the magnetizing winding of the test sample, a magnetic flux meter connected to the reading winding of the sample, deligel into two, a comparison circuit, a control circuit and a voltage recorder , characterized in that. In order to shorten the measurement time, it is equipped with a generator; a chip ;, a current that is connected to the magnetizing winding is not used. My own (; sample, and also remember; AyUHUIM device and switch, connection 1 () H1, them) 5th (d) : 1 of the magnetic flux with zhodol::; ano; .and :: ayun; its devices or with one of their ides (with jaBi: e: im, to the other in () KOTOpoii in 10 dte: g. "Dia connected; 51khod for 11: A) :, 1i: 1; device; II block;.,; 3bixoA xc) a key switch: to the input of the switch 1P} avsni,