This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2019-207240, filed on 15 Nov. 2019, the entire contents of which are incorporated herein by reference.
The present disclosure relates to a coil component.
A coil component according to the related art is disclosed in, for example, Japanese Unexamined Patent Publication No. 2017-17139, in which the winding portion of a coil is plated and grown between resin walls provided on the main surface of a substrate. Disclosed in Japanese Unexamined Patent Publication No. 2017-17139 is the resin wall having a wide pedestal portion positioned on the substrate side and narrow wall portions extending from the pedestal portion in a direction away from the substrate. A step portion is formed between the pedestal portion and the wall portion.
In the coil component according to the related art described above, the resin wall has the wall portion narrower than the pedestal portion, and thus the amount of coil conductors between the wall portions can be increased and coil characteristics can be improved as a result. On the other hand, the plating growth is difficult in the step portion between the pedestal portion and the wall portion when the winding portion of the coil is plated and grown between the resin walls and the step portion may not be filled with the coil conductor and the characteristics may deteriorate in a case where no sufficient plating growth is performed in the step portion.
An object of the present disclosure is to provide a coil component having improved characteristics.
A coil component according to one aspect of the present disclosure includes a substrate, a coil having a seed portion provided on a main surface of the substrate and a plating portion covering the seed portion, and a resin body provided on the main surface of the substrate and having a plurality of resin walls, a winding portion of the coil extends between the plurality of resin walls. The resin wall has a pedestal portion in contact with the main surface of the substrate and a wall portion extending from the pedestal portion in a direction away from the substrate and narrower than the pedestal portion. 0.3≤h1/h2≤10 is satisfied when a height of the pedestal portion of the resin wall is h1 and a height of the seed portion of the coil is h2.
In the coil component described above, the height h1 of the pedestal portion corresponds to the height position of the step portion between the pedestal portion and the wall portion and the height h2 of the seed portion corresponds to the plating start position at a time when the winding portion of the coil is plated and grown. The plating start position and the step portion are close to each other in a case where the height h1 of the pedestal portion and the height h2 of the seed portion satisfy 0.3≤h1/h2≤10. Accordingly, the step portion is filled with a coil conductor and deterioration of characteristics is suppressed.
In the coil component according to another aspect, main components of a resin material constituting the pedestal portion and a resin material constituting the wall portion are the same.
According to the present disclosure, a coil component having improved characteristics is provided.
Hereinafter, an embodiment of the present disclosure will be described in detail with reference to the accompanying drawings. It should be noted that the same reference numerals are used for the same elements or elements having the same function and redundant description is omitted in the description.
The structure of the coil component according to the embodiment of the present disclosure will be described first with reference to
A coil component 1 includes a main body portion 10 having a substantially rectangular parallelepiped shape and a pair of external terminal electrodes 30A and 30B provided so as to cover a pair of end surfaces of the main body portion 10 facing each other. As an example, the coil component 1 is designed to have a long-side dimension of 2.0 mm, a short-side dimension of 1.6 mm, and a height dimension of 0.9 mm.
The structure of the coil component 1 will be described below with a procedure for manufacturing the main body portion 10 illustrated.
The main body portion 10 includes a substrate 11 illustrated in
As illustrated in
Returning to
The coil 13 is made of copper and has the winding portion 14 formed on the spiral pattern 14A of the seed pattern 13A and the extraction electrode portion 15 formed on the end portion pattern 15A of the seed pattern 13A. When viewed in plan view, the coil 13 has the shape of a planar spiral air-core coil extending in parallel to the main surfaces 11a and 11b of the substrate 11 as in the case of the seed pattern 13A. More specifically, the winding portion 14 of the substrate upper surface 11a is a spiral that is counterclockwise along the direction toward the outside when viewed from the upper surface side and the winding portion 14 of the substrate lower surface 11b is a spiral that is counterclockwise along the direction toward the outside when viewed from the lower surface side. The end portions of the coils 13 of the substrate upper surface 11a and the substrate lower surface 11b are connected to each other via, for example, a through hole separately provided in the vicinity of the opening 12. When a current is passed in one direction through the two coils 13, the directions of rotation in which the currents flow through the coils 13 are the same, and thus the magnetic fluxes that are generated in the coils 13 are superimposed and strengthened.
As illustrated in
The resin wall 18 has a pedestal portion 18a that is in contact with the main surface 11a of the substrate 11 and a wall portion 18b extending from the pedestal portion 18a in a direction away from the substrate 11 (that is, the Z direction). The wall portion 18b has a uniform width d2′, and the width d2′ of the wall portion 18b is designed to be smaller than a width d″ of the pedestal portion 18a. In the present embodiment, the width of the wall portion 18b is 5 μm and the width d″ of the pedestal portion 18a is 10 μm. In a case where the wall portion 18b is narrower than the pedestal portion 18a, the amount of coil conductors between the wall portions 18b significantly increases and coil characteristics are improved as a result. In addition, the cross-sectional area on the substrate 11 side is increased by the wide pedestal portion 18a, and thus the strength of the resin wall 18 increases and distortion and collapse of the resin wall 18 are suppressed.
The wall portion 18b extends in the Z direction from the center of the pedestal portion 18a in the width direction (X direction in
A height h1 of the pedestal portion 18a is designed to be approximately equal to a height h2 of a seed portion 14a. The height h1 of the pedestal portion 18a is, for example, 5 μm to 50 μm and is 15 μm as an example. The height h2 of the seed portion 14a is, for example, 5 μm to 15 μm and is 10 μm as an example. The height h1 of the pedestal portion 18a may be equal to the height h2 of the seed portion 14a, may exceed the height h2 of the seed portion 14a, or may be exceeded by the height h2 of the seed portion 14a. In the present embodiment, the height h1 of the pedestal portion 18a and the height h2 of the seed portion 14a are designed to satisfy 0.3≤h1/h2≤10. The height h1 of the pedestal portion 18a and the height h2 of the seed portion 14a may satisfy 0.6≤h1/h2≤1.8 or may satisfy 0.75≤h1/h2≤1.6 in the relationship thereof.
The pedestal portion 18a and the wall portion 18b are integrally formed, and the main components of the resin material constituting the pedestal portion 18a and the resin material constituting the wall portion 18b are the same. The pedestal portion 18a and the wall portion 18b of the resin wall 18 can be molded by single exposure. For example, the type and amount of addition of secondary components (such as a crosslinking agent) can be changed between the resin material of the pedestal portion 18a and the resin material of the wall portion 18b.
The winding portion 14 of the coil 13 includes the seed portion 14a as a part of the spiral pattern 14A and a plating portion 14b plated and grown on the seed portion 14a and is formed by the plating portion 14b gradually growing around the seed portion 14a. At this time, the winding portion 14 of the coil 13 grows so as to fill the space defined between the two adjacent resin walls 18 and is formed in the same shape as the space defined between the resin walls 18. As a result, the winding portion 14 of the coil 13 is shaped so as to extend long along the normal direction of the substrate 11 (Z direction). In other words, the shape of the winding portion 14 of the coil 13 is adjusted by the shape of the space defined between the resin walls 18 being adjusted and the winding portion 14 of the coil 13 can be formed in the shape as designed.
As illustrated in
It should be noted that the plating growth of the coil 13 described above is performed on both main surfaces 11a and 11b of the substrate 11. The end portions of the coils 13 of the main surfaces 11a and 11b are interconnected and conductive at the opening of the substrate 11.
After the coil 13 is plated and grown on the substrate 11, the substrate 11 is entirely covered with a coating resin 21 as illustrated in
The metal magnetic powder-containing resin constituting the coating resin 21 is configured by a resin in which metal magnetic powder is dispersed. The metal magnetic powder may be configured by, for example, an iron-nickel alloy (permalloy alloy), carbonyl iron, an amorphous, a non-crystalline or crystalline FeSiCr-based alloy, or sendust. The resin used for the metal magnetic powder-containing resin is, for example, a thermosetting epoxy resin. The content of the metal magnetic powder in the metal magnetic powder-containing resin is, for example, 90 to 99 wt %.
Further, the main body portion 10 illustrated in
Finally, the coil component 1 is completed by the external terminal electrodes 30A and 30B being provided on the end surfaces of the main body portion 10 where the end portion pattern 15A is exposed (end surfaces facing each other in the Y direction) so as to be electrically connected to the end portion pattern 15A. The external terminal electrodes 30A and 30B are electrodes for connection to a circuit of a substrate on which the coil component is mounted and may have a multi-layer structure. For example, the external terminal electrodes 30A and 30B can be formed by metal plating being applied to a resin electrode material after the resin electrode material is applied to the end surface. Cr, Cu, Ni, Sn, Au, solder, and so on can be used for the metal plating of the external terminal electrodes 30A and 30B.
In the coil component 1 described above, the height h1 of the pedestal portion 18a of the resin wall 18 corresponds to the height position of the step portion 18c. In addition, the height h2 of the seed portion 14a corresponds to the plating start position at a time when the winding portion 14 of the coil 13 is plated and grown. The plating start position and the step portion 18c are designed to be close to each other by the height h1 of the pedestal portion 18a and the height h2 of the seed portion 14a satisfying 0.3≤h1/h2≤10. In this case, the coil conductor that is plated and grown from the seed portion 14a easily wraps around the step portion 18c and the inside of the step portion 18c is easily filled with the coil conductor. In other words, a coil conductor-less depletion portion is unlikely to be generated between the resin walls 18 (in the step portion in particular) and the space between the resin walls 18 is filled with sufficient coil conductors. Accordingly, although the coil component 1 has a configuration in which the resin wall 18 has the step portion 18c, the inside of the step portion 18c is sufficiently filled with the coil conductor, and thus high characteristics can be realized. For example, the direct current resistance of the coil conductor is reduced because the cross-sectional area of the coil conductor is larger in a case where the inside of the step portion 18c of the resin wall 18 is filled with the coil conductor than in a case where the inside of the step portion 18c of the resin wall 18 is not filled with the coil conductor.
It should be noted that the coil component 1 is not limited to the above-described form and various forms can be adopted. For example, the coil may be provided on both substrate surfaces or may be provided on one substrate surface.
Number | Date | Country | Kind |
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2019-207240 | Nov 2019 | JP | national |