JPS5844704A - Inductor for power supply line filter - Google Patents

Abstract

PURPOSE:To reduce eddy-current loss, and to obtain excellent frequency characteristics by forming the inductor by a magnetic core using an amorphous alloy sheet with specified plate thickness. CONSTITUTION:The magnetic core 11 is manufactured by winding and stacking the amorphous magnetic alloy sheets, winding 12 is wound around the iron core 11, and a choke coil 10 is formed. A sheet with 9-30mum plate thickness is used as the amorphous magnetic alloy sheets. When the plate thickness of the amorphous magnetic alloy sheet is thinned, permeability increases, and permeability exceeding ferrite is acquired particularly at high frequency. Accordingly, eddy-current loss is small and excellent frequency characteristics are obained in the inductor for the power supply line filter employing the amorphous magnetic alloy sheets with 8-30mum plate thickness.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an inductor for a power line filter, and more particularly to an improvement of an inductor for a power line filter using a closed magnetic circuit core made of an amorphous magnetic material.

It is desirable to use a magnetic material with high magnetic permeability and high saturation magnetic flux density as the magnetic core of an inductor for a power line filter such as a common motor chain coil, and in order to obtain sufficient attenuation in the high frequency region, the frequency characteristics of magnetic permeability should also be adjusted. Must be in good condition. However, it has not been possible to satisfy these conditions with conventional magnetic cores using ferrite, silicon steel plates, dust cores, or other tubes. In other words, the ferrite magnetic core has high magnetic permeability and good frequency characteristics, so even when used as a filter in the high frequency range, it can be expected to have a large amount of attenuation, but the saturation magnetic flux density is small, so When a pulse is input, the magnetic core becomes saturated and the amount of attenuation decreases.In addition, silicon steel sheet magnetic cores have high magnetic permeability and high saturation magnetic flux density in the low wave region, but the frequency characteristics of magnetic permeability are poor. It is possible to ensure attenuation in the high frequency range. In the case of powdered iron cores, the 1-1 saturation magnetic flux density was very high, but the magnetic permeability was low, and the frequency characteristics of the magnetic permeability were also poor.

The present invention has been made to eliminate the drawbacks of the above-mentioned prior art, and it is an object of the present invention to provide an inductor for a power line filter with low eddy current loss and excellent frequency characteristics.

In order to achieve the above object, the present invention has a plate thickness of 8~go, s.
The present invention is characterized in that it is constructed using a closed magnetic circuit core made of amorphous magnetic alloy thin plate of m.

A problem using a closed magnet core made of an amorphous magnetic material is known, for example, from Japanese Patent Application Laid-open No. Shoj HI-46516, but the inventors of Mokoku et al. We have newly discovered that the characteristics of an inductor for a power line filter change depending on the thickness and properties of the inductor, even when the inductor is used, and based on this fact, we have accomplished the present invention.

The present invention will be described below in detail based on examples.0 Figure 1 shows an example of an inductor for a power line filter using an amorphous magnetic alloy thin plate. It is a schematic block diagram of a Chirok coil. In the figure, the magnetic core 11 is formed by winding amorphous magnetic alloy thin plates and superimposing them into a four-dimensional shape, and a spring 1 is arranged around the magnetic core 11.
! The coil 10 is wound with an Ill and the Chirok coil 10 is without an Il.

FIG. 2 is a diagram showing the dependence of the magnetic permeability of IMHm on the thickness of the amorphous magnetic alloy thin plate in the Chirok coil 10 having the structure shown in FIG. In addition, Fig. 3 is a diagram showing the frequency dependence of magnetic permeability. In the figure, MU is a plate thickness of 11 pm, B is a plate thickness of LO11vh, O is a plate thickness of 30 μm, and 1 is a plate thickness of 40 μm.
The case of an amorphous magnetic alloy thin plate of μm is shown, and 1 shows the case of ferrite. From this figure, it can be seen that when the thickness of the non-quality magnetic alloy thin plate is reduced, the magnetic permeability increases, 1MH
It is clear that it exhibits a magnetic permeability that exceeds 7 elai) at high frequencies above g, especially when the plate thickness is j! It can be seen that the magnetic permeability of O, #, m or less is extremely excellent.

FIG. 1 is a diagram showing the frequency dependence of the noise attenuation amount of the IINI Chirok coil shown in FIG. 1. In the figure, when using an amorphous magnetic alloy thin plate with a thickness of 8cm, 1 is 2Ciμrm, O is SOμm, and f is 40cm, as in Figure 3, 1 is the same as in Figure 3. The characteristic curve tube when using ferrite is shown. As is clear from the figure (
, $0. It is clear that the power line inductor of the present invention using an amorphous magnetic alloy thin plate having a thickness of I11 or less exhibits superior high frequency characteristics to that using 7-elite.

As detailed above, the plate thickness is 8μ! The inductor for power line filters of the present invention, which uses amorphous magnetic alloy thin plates of a M/30% m, has low eddy current loss and excellent frequency characteristics, and has a saturation magnetic flux density of 6000 G or more, which is superior to conventional It is industrially useful and has much superior properties compared to other materials.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram showing an example of an inductor for a power line filter according to the present invention, and FIG. ε is an IM! A curve diagram showing the dependence of magnetic permeability on the thickness of an amorphous magnetic alloy thin plate. Figure 3 is a curve diagram showing the frequency dependence of magnetic permeability. Figure 4 is a curve diagram showing the frequency dependence of noise attenuation. It is a diagram. IO: Chirok coil, 11g 1 core, 18:l line 1 diagram/? Figure 2 Thickness, am)

Claims (1)

[Claims] Plate thickness 8-30. An inductor for a power line filter, characterized by having a magnetic core using a thin amorphous alloy of sin.