The present invention relates to a coil component and method for producing the coil component.
One type of coil component well known in the art has a core including a winding portion and a pair of flanges, and a winding wound over the winding portion. Japanese Patent Application Publication No. H07-302719 discloses a technique for protecting the wound portion of the winding with an insulating resin. More specifically, a resin coating is formed over the wound area of the winding by injecting a liquid resin thereon.
In addition, the coil component is conventionally provided with terminal electrodes electrically connected to each end of the winding. The terminal electrodes are provided on the surface-mounting side of the coil component to be electrically connected to electrodes formed on a circuit board when the coil component is mounted on the circuit board. In order to ensure reliable contact between the terminal electrodes and the electrodes on the circuit board, the coil component must be mounted in a precise orientation onto a precise position of the circuit board.
As technological advances are made to increase the performance and reduce the size of electronic devices employing coil components, such as mobile telephones, there has been increasing demand to reduce the size and increase the mounting density of the coil components themselves. To meet this demand, coil components are now being manufactured with a core size of a few millimeters. However, reducing the core size also reduces the size of the winding in the wound area, making it more difficult to fill this wound area with resin.
Further, the reduced size of the coil component has made it more difficult to visually determine the position and orientation of the coil component being mounted on the circuit board, often leading to mounting errors. Changing the shape of the core or adding a marker or the like to the core has helped confirm the correct orientation of the coil component, but increases the difficulty of the manufacturing process with additional steps to change the core shape and apply a marker.
Therefore, it is an object of the present invention to provide a coil component having an easily discernible orientation, and to provide a method of manufacturing such a coil component that facilitates the injection of resin.
This and other object of the present invention will be attained by a coil component including a core, terminal electrodes, a winding, an insulating resin, and a marker. The core includes a winding portion having a first end and a second end, a first flange disposed at the first end and having an outer peripheral surface, and a second flange disposed at the second end and having an outer peripheral surface. A winding accommodating region is defined by the winding portion and the first and second flanges. The terminal electrodes are disposed on at least one of the first flange and the second flange. The winding is wound about the winding portion to provide a wound portion and is connected to the terminal electrodes. The insulating resin layer covers the wound portion of the winding within the winding accommodating region. The marker is formed of a material the same as that of the insulating resin layer and is deposited on a part of the outer peripheral surface on the first flange and the second flange.
In another aspect of the invention, there is provided a method of producing a coil component including a core having a winding portion, a pair of flanges having an outer peripheral surface and providing a winding accommodating region defined by the winding portion and the pair of flanges; terminal electrodes disposed on at least one of the pair of flanges; and a winding wound about the winding portion and connected to the terminal electrodes. The method includes (a) wrapping the winding about the winding portion in layers within the winding accommodating region to provide a wound portion, (b) connecting ends of the winding to the terminal electrodes, and (c) immersing a portion of the outer peripheral surface of the pair of flanges in a liquid resin bath to form a resin coating over the wound portion of the winding within the winding accommodating region, and simultaneously forming a marker made from the liquid resin on the immersed portion of the outer peripheral surface.
The particular features and advantages of the invention as well as other objects will become apparent from the following description taken in connection with the accompanying drawings, in which:
a) shows the core prior to immersion in a liquid resin bath;
b) shows the core immersed in the liquid resin bath;
c) shows the liquid resin rising due to the capillary effect; and
d) shows the winding covered with liquid resin; and
e) shows the core after being lifted out of the liquid resin bath.
Next, a coil component and a method for producing the coil component according to one embodiment of the present invention will be described with reference to
As shown in
The second flange 5 is a plate member having a prescribed thickness. The second flange 5 has a bottom surface 5A (
The first and second peripheral surfaces 51 and 52 are parallel surfaces, the first and second omitted peripheral surfaces 53 and 54 are disposed on one side of the first and second peripheral surfaces 51 and 52, and the third and fourth omitted peripheral surfaces 57 and 58 are disposed on the other side of the first and second peripheral surfaces 51 and 52. The third peripheral surface 55 is provided between the first and second omitted peripheral surfaces 53 and 54, and the fourth peripheral surface 56 is provided between the third and fourth omitted peripheral surfaces 57 and 58. The third and fourth peripheral surfaces 55 and 56 are substantially parallel. These peripheral surfaces 51-58 constitute the outer peripheral surface of the second flange 5.
When the coil component 1 is mounted on a circuit board, the first, second, third, and fourth peripheral surfaces 51, 52, 55, and 56 are substantially in contact with or in close proximity to the electronic parts of other neighboring coil components. When viewing the bottom surface 5A along the direction of a line connecting the first and second flanges 4 and 5, the first, second, third, and fourth omitted peripheral surfaces 53, 54, 57, and 58 constitute the chamfered four corners of an imaginary square constructed by extending each of the first, second, third, and fourth peripheral surfaces 51, 52, 55, and 56. This configuration inhibits the first, second, third, and fourth omitted peripheral surfaces 53, 54, 57, and 58 from substantially coming into contact with other electronic parts.
As shown in
The winding 6 is a copper wire having an insulating coating and is wound about the winding portion 3 (
The terminal electrodes 7 include a first terminal electrode 7A and a second terminal electrode 7B. As shown in
As shown in
When manufacturing the coil component 1, the winding 6 is wound about the winding portion 3 within the winding accommodating region 2A to provide a multilayer windings (winding step), and subsequently the first and second ends 6A and 6B of the wound winding 6 are connected to the terminal electrodes 7 (wire connecting step).
For forming the resin coating 8 over the winding 6, as shown in
As a modification, while the marker 8A is provided in a location where the terminal electrodes 7 are not formed in the above description, the marker 8A may be provided on the outer peripheral surface at the location of the terminal electrodes 7. With this configuration, the terminal electrodes 7 are protected by resin, reducing the chances of short-circuiting. Accordingly, this configuration suppresses the occurrence of short-circuiting between neighboring coil components 1, even when coil components 1 are mounted very densely. Further, the resin coating 8 and marker 8A may be formed of a resin with insulating properties, or a resin containing ferrite powder, for example. The properties of the coil component 1 can be varied by controlling the ratio of the ferrite powder in the resin. Further, the resin need not be applied using the liquid resin bath W, but may be supplied with a resin supplying apparatus having an aperture whose diameter corresponds to the distance between the first and second flanges 4 and 5.
While the invention has been described in detail with reference to the specific embodiment thereof, it would be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the spirit of the invention.
Number | Name | Date | Kind |
---|---|---|---|
3359520 | Foerster | Dec 1967 | A |
5149483 | Okey et al. | Sep 1992 | A |
Number | Date | Country |
---|---|---|
61150313 | Jul 1986 | JP |
A-61-160920 | Jul 1986 | JP |
A-3-163808 | Jul 1991 | JP |
A-7-302719 | Nov 1995 | JP |
A-10-321438 | Dec 1998 | JP |
A-2001-85245 | Mar 2001 | JP |
A-2001-223118 | Aug 2001 | JP |
A-2002-110428 | Apr 2002 | JP |
A-2004-311755 | Nov 2004 | JP |
A-2005-210055 | Aug 2005 | JP |
A-2005-217280 | Aug 2005 | JP |
A-2007-173573 | Jul 2007 | JP |
A-2007-173576 | Jul 2007 | JP |
Number | Date | Country | |
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20090315659 A1 | Dec 2009 | US |