Inductor devices – Winding with terminals – taps – or coil conductor end...
Reexamination Certificate
2000-09-18
2002-05-21
Mai, Anh (Department: 2832)
Inductor devices
Winding with terminals, taps, or coil conductor end...
C336S200000, C336S223000, C336S083000, C336S096000
Reexamination Certificate
active
06392523
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a novel super-thin surface-mounting-type coil component suitably mounted on a hybrid IC, such as a DC-DC converter.
2. Background of the Invention
To achieve reductions in the thickness and size of an electric device such as a portable information terminal, a popular method of mounting a so-called hybrid IC in which electronic components such as capacitors, transistors, transformers, and an IC consisting of a package of a block circuit such as a DC-DC converter, is used. Such a method involves integration of said components by surface-mounting such components on one sub-substrate, said sub-substrate being mounted on a mother substrate.
Respective electronic components of the hybrid IC are required to be reduced in size and thickness (in height). In particular, the reduction in height of a coil component (transformer, choke coil or the like) is very important and in strong demand.
For example, a surface-mounting-type transformer serving as a typical surface-mounting-type coil component has a structure in which a primary winding and a secondary winding are separately wound on a resin coil bobbin, a frame lead line being built into a side or bottom surface of the coil bobbin, both the ends of which are wounded on the frame read terminal and conductively fixed thereto by soldering, and wherein a magnetic core is fitted in the coil bobbin. However, the minimum achievable height of the coil bobbin is a about 3 mm, which is insufficient.
Therefore, as a structure which is reduced in size and height, as shown in
FIG. 6
, a coil bobbin is omitted, and an insulator-coated conductive line is directly wound on a vertical drum ferrite core
4
, the drum ferrite core being composed of a vertical shaft consisting of a core portion
1
and flange portions
2
and
3
integrally extending from both the ends of the core portion
1
in the longitudinal direction to form a winding
5
. In the surface-mounting-type transformer
10
, the ends of the winding are wound on a narrow-band-shaped lead terminal
6
, obtained by press-shaping a metal plate built in the flange portion
3
, and soldered on the lead terminal
6
.
As shown in
FIG. 7
, a surface-mounting-type transformer
20
has an electrode layer
8
obtained by directly printing a conductive paste or the like on the bottom surface and peripheral surface of the flange portion
3
of a vertical drum ferrite core
4
′ to be fixed thereto, which is arranged in place of the lead terminal
6
described above. The end of the winding
5
is conductively fixed to the electrode layer
8
through a lead groove (not shown).
As shown in
FIG. 8
, another type of surface-mounting-type transformer
30
has electrode layers
21
directly mounted on a core by printing on end faces
16
and
17
and bottom surfaces
18
and
19
of rectangular flange portions
12
and
13
of horizontal ferrite core
15
, in which the rectangular flange portions
12
and
13
are integrally formed on both the right and left ends of a rectangular-parallelopiped core portion
11
(indicated by a broken line). The ends of a winding
22
wound on the core portion
11
are conductively fixed to the end faces
16
and
17
of the electrode layers
21
by soldering.
Presently, such a surface-mounting-type transformer
20
, as shown in
FIG. 7
, using the vertical drum ferrite core
4
′ has a minimum height H=1.6 mm. In the surface-mounting-type transformer
30
using the horizontal ferrite core
15
, as shown in
FIG. 8
, as it is very difficult to withdraw the end of the winding
22
within the dimension of the electrode layer
21
, the withdrawn portion of the winding or a conductive fixed portion swelled by soldering tends to protrude beyond the outside dimensions of the transformer. Therefore, while utilizing this type of structure, it is impossible to reduce the size and height of the transformer.
In addition, when conductively fixing the end of the winding by soldering, the flange portions
12
and
13
of the conductively fixed portions occupy a large area in the electrode layer
21
. In addition, heat generated by soldering is transmitted to the core portion
11
, adversely affecting the coil component by heat degradation of the insulating property of the winding
22
.
In a hybrid IC, when the surface-mounting-type transformer
30
using the horizontal ferrite core
15
is mounted on a substrate, a leakage magnetic flux acts on a wiring pattern on a surface opposing the mounted surface, disadvantageously decreasing the inductance value. In addition, insulation between the electrode layer
21
and the wiring pattern of the mother substrate is specially required, increasing the production time and cost of manufacture.
SUMMARY OF THE INVENTION
The present invention has been made in consideration of the above circumstances and, therefore, the object of the present invention is to provide a structure in which the height of a surface-mounting-type coil component is further reduced by using a novel horizontal flat core and an improved conductively fixed portion between a winding and an electrode layer.
According to the present invention, the first object is to reduce the size and height of the surface-mounting-type coil component, as described above. In order to achieve this object, the prior art surface-mounting-type transformer
30
having horizontal ferrite core
15
, and shown in
FIGS. 6-8
must be flattened, i.e., a flat core must be obtained.
In this case, a flat core according to the present invention is defined as a core which satisfies the condition in which the ratio t/w of the thickness t to width w of the flat core portion
31
of the ferrite core
35
of the surface-mounting-type transformer
50
is not greater than 1/3. A conventional flat core cannot satisfy this condition.
The present invention achieves the above object by providing:
(1) a surface-mounting-type coil component comprising a core having a flat core portion in which the ratio of thickness to width (t/w) is not greater than 1/3, flange portions extending from both ends of the core portion in a longitudinal direction to be integrated with the core portion, two or four electrode layers spacedly positioned apart from each other and formed on peripheral portions, including side surfaces of the flange portions in at least a vertical direction, of the flange portions of the core; and a winding wound on the core portion of the core and having both ends which are obliquely led from the side surfaces of the flange portions and conductively fixed to the electrode layers of the side surfaces by thermo-compression bonding.
(2) A second embodiment of the present invention provides a surface-mounting-type coil component according to the first embodiment (1) above, wherein the end of the winding on at least one winding-end side is conductively fixed to the electrode layer of the side surface of the flange portion of the core on an extension of the thickness of the core portion.
(3) In a third embodiment, a surface-mounting-type coil component is provided according to either the first or second embodiment above, wherein a height H of the flange portion of the core is not more than 1.6 mm, and a line diameter of the winding ranges from 30 &mgr;m to 150 &mgr;m.
(4) In a fourth embodiment, a surface-mounting-type coil component is provided according to either the first or second embodiment above, wherein the thickness of the electrode layer in contact with a fixed portion of the end of the winding is not more than the line diameter of the winding.
(5) In a fifth embodiment, a surface-mounting-type coil component is provided according to either the first or second embodiment, wherein a gap region, in which there is no electrode layer, is formed near the core portion on the peripheral portion of the flange portion of the core having the electrode layer formed thereon.
(6) In a sixth embodiment, a surface-mounting-type coil component is provided according to either the first or second embodiment, wherein a fixed porti
Mai Anh
Taiyo Yuden Co. Ltd.
Townsend & Banta
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