Method of manufacturing chip PTC thermistor

Metal working – Method of mechanical manufacture – Electrical device making

Reexamination Certificate

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C029S610100, C029S620000, C029S411000, C338S0220SD, C338S225000

Reexamination Certificate

active

06481094

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a method of manufacturing a chip positive temperature coefficient (hereinafter referred to as “PTC”) thermistor using electrically conductive polymer having a PTC characteristic.
BACKGROUND OF THE INVENTION
A PTC thermister composed of electrically conductive polymer is used as an overcurrent protective element in a variety of electronic devices. An operating principle is such that the electrically conductive polymer having a PTC characteristic heats up by itself when an excessive current flows in an electric circuit, changing a resistance of its own into a high value due to a thermal expansion of the electrically conductive polymer, thereby attenuating the current into a safe minute region.
A PTC thermistor of the prior art will be described hereinafter.
Japanese Patent Laid-open Publication, No. H09-503097 discloses an example of a chip PTC thermistor of the prior art. It is a chip PTC thermister comprising a PTC element having a through-hole penetrating between a first surface and a second surface, and first and second conductive members in a layer form, positioned inside of the through-hole, and connected physically as well as electrically to the first surface and the second surface of the PTC element.
FIG.
15
(
a
) is a sectional view illustrating a chip PTC thermistor of the prior art, and FIG.
15
(
b
) is a plan view of the same. In
FIG. 15
, a reference numeral
81
represents an electrically conductive polymer having a PCT characteristic, reference numerals
82
a
,
82
b
,
82
c
, and
82
d
represent electrodes composed of metallic foil, and reference numerals
83
a
and
83
b
represent through-holes. Reference numerals
84
a
and
84
b
are conductive members formed by plating on insides of the through-holes and over the electrodes
82
a
,
82
b
,
82
c
, and
82
d.
A method of manufacturing the abovedescribed chip PTC thermistor of the prior art will be described with reference to FIGS.
16
(
a
) through
16
(
d
) and FIGS.
17
(
a
) through
17
(
c
) which are procedural drawings showing a method of manufacturing the chip PTC thermistor of the prior art.
First, polyethylene and carbon as electrically conductive particles are blended, and a sheet
91
shown in FIG.
16
(
a
) is formed. Next, the sheet
91
is sandwiched with two metallic foils
92
, as shown in FIGS.
16
(
b
) and
16
(
c
), and an integrated sheet
93
is formed by thermal-compression molding.
Next, through-holes
94
are perforated in a regularly arranged pattern on the integrated sheet
93
, as shown in FIG.
16
(
d
), after it is irradiated with an electron beam. A plated film
95
is then formed on the insides of the through-holes
94
and on the metallic foils
92
, as shown in FIG.
17
(
a
).
Etched grooves
96
are formed next in the metallic foils
92
, as shown in FIG.
17
(
b
).
The laminated product is now cut into individual pieces along cutting lines
97
of a longitudinal direction and cutting lines
98
of a lateral direction as shown in FIG.
17
(
b
), to complete manufacturing of a chip PTC thermistor
99
of the prior art as shown in FIG.
17
(
c
).
However, there has been a problem as described hereinafter with the conventional method of manufacturing the chip PTC thermistor, when a protective coating is formed on the plated film
95
for the purpose of preventing a short circuit and the like.
That is, formation of the protective coating needs to be carried out only after a pattern is formed by etching the metallic foil
92
. Therefore, the protective coating is formed by screen-printing and thermally curing an epoxy base resin, after etched grooves are formed in the metallic foil
92
. The problem occurs in this process that a crack may develop in the plated film
95
formed in the through holes
94
due to a mechanical stress generated by thermal expansion because of the heat applied when thermally curing the sheet
91
.
It is conceivable to use a method wherein the etched grooves
96
are formed in the metallic foil, the protective coating is formed next, and the plated film
95
is formed thereafter, in order to prevent the crack from developing in the plated film
95
. However, a problem has yet remained unresolved that the plated film
95
can not be formed uniformly on inner surfaces of the through-holes
94
in this method. It is presumed that this is because a surface of the sheet
91
loses an electric conductivity, as a result of the heat during the thermal setting of the protective coating, which causes polyethylene element in the sheet
91
to migrate toward the surface of the sheet
91
exposed on the inner surfaces of the through-holes
94
.
An object of the present invention is to solve the foregoing problem of the prior art method, and to provide a method of manufacturing a chip PTC thermistor having superior reliability of connection, as it does not cause a crack in the electrode connecting between upper and lower electrodes when the protective coating is formed on the metallic foil, and it is capable of uniformly forming a film by electrolytic plating even on a portion of the electrically conductive polymer on an inner surface of the opening when the electrode is formed.
SUMMARY OF THE INVENTION
A method of the present invention for manufacturing a chip PTC thermistor comprises includes the steps of;
forming a sheet by sandwiching an upper surface and a lower surface of an electrically conductive polymer having a PTC characteristic with metallic foils, on which a pattern is formed in advance, and integrating them by thermal-compression molding;
providing an opening in the integrated sheet;
forming a protective coating, also serving as plating resist, on an upper and lower surfaces of the sheet in which the opening is provided;
forming an electrode by electrolytic plating on the sheet on which the protective coating serving also as plating resist is formed; and
cutting the sheet, on which the electrode is formed, into individual pieces.
In addition, a material that is capable of being formed at a temperature below a melting point of the electrically conductive polymer is used for a material of the protective coating, also serving as plating resist, in the step of forming the protective coating also serving as plating resist. Furthermore, a processing temperature is maintained in such a manner as not to exceed the melting point of the electrically conductive polymer in each step of the preparatory processes from the step of providing the opening in the integrated sheet, up to the step of forming the electrode by electrolytic plating on the sheet, on which the protective coating serving also as plating resist, is formed. The manufacturing method of the present invention provides the chip PTC thermistor having a superior reliability of connection, since it does not cause a crack in the electrode formed by electrolytic plating, and is capable of uniformly forming a film of the electrolytic plating even on the portion of the electrically conductive polymer on the inside surface of the opening when the electrode is formed. In addition, the present invention can eliminate waste liquid that is otherwise produced if wet patterning is used for the metallic foil in the process of manufacturing the chip PTC thermistor, since the present method uses the metallic foil patterned in advance by die-cutting to manufacture the integrated sheet.


REFERENCES:
patent: 4426633 (1984-01-01), Taylor
patent: H415 (1988-01-01), Newnham
patent: 4766409 (1988-08-01), Mandai
patent: 5077889 (1992-01-01), Matsuda et al.
patent: 5228188 (1993-07-01), Badihi et al.
patent: 5245309 (1993-09-01), Kawase
patent: 5351390 (1994-10-01), Yamada et al.
patent: 5488348 (1996-01-01), Asida
patent: 5831510 (1998-11-01), Zhang et al.
patent: 5963416 (1999-10-01), Honda et al.
patent: 6188308 (2001-02-01), kojima et al.
patent: 6292088 (2001-09-01), Zhang et al.
patent: 61-10203 (1986-01-01), None
patent: 04346409 (1992-12-01), None
patent: 9-503097 (1997-03-01), None
patent: 9-199302 (1997-07-01), None

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