Printed wiring board, IC card module using the same, and...

Details Printed wiring board, IC card module using the same, and... Printed wiring board, IC card module using the same, and...

2000-12-14

2002-08-13

Paladini, Albert W. (Department: 2827)

Electricity: conductors and insulators

Conduits, cables or conductors

Preformed panel circuit arrangement

C174S255000, C174S256000, C257S778000, C264S272170, C361S752000

Reexamination Certificate

active

06433285

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a printed wiring board and a module for an IC card using the printed wiring board, and more particularly, relates to improvement in reliability of IC cards.
In recent years, for reduction in the size of IC cards and the number of components of an IC card, improvement in flexural strength, cost reduction, and other purposes, a module for an IC card having the following structure has been proposed. A semiconductor device is directly mounted on a printed wiring board of the module and sealed with a resin.
A conventional IC card module will be described with reference to FIGS.
12
(
a
) and
12
(
b
). FIG.
12
(
a
) is a top view of the conventional IC card module, and FIG.
12
(
b
) is a cross-sectional view taken along line X—X in FIG.
12
(
a
).
A conventional IC card module
110
includes: a substrate
111
; a semiconductor device
113
mounted on the substrate
111
; terminals
118
formed in the bottom portion of the substrate
111
; connection holes (not shown) extending through the substrate
111
to reach the terminals
118
; connection lands (not shown) formed on the substrate
111
and connected with the terminals
118
via the connection holes; wires
114
for connecting the connection lands and the semiconductor device
113
; and a resin
116
for sealing the semiconductor device
113
. The wires
114
are conductive wires made of metal such as gold and aluminum.
The resin
116
sealing the semiconductor device
113
is formed by transfer molding, potting, or printing using a thermosetting resin, or injection molding using a thermoplastic resin.
The IC card module
110
is fitted in a case or the like with the terminals
118
exposed outside, to complete an IC card.
In the conventional IC card module
110
, the terminals
118
are located opposite to the semiconductor device
113
with respect to the substrate
111
. Therefore, when the IC card is to be connected with an external apparatus provided with an IC card slot, for example, the semiconductor device
113
must be inserted into the slot along with the terminals
118
. Therefore, the semiconductor device
113
may possibly be adversely influenced by external mechanical stress, heat from the external apparatus, and the like.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a printed wiring board and an IC card module using the printed wiring board that can contribute to improvement in reliability of IC cards.
The IC card module of the present invention includes: a base having a resin sealing region, clamped regions in a periphery zone of the resin sealing region clamped with a sealing mold, and non-clamped regions in the periphery zone of the resin sealing region that are not clamped; a semiconductor device mounted on a top surface of the base; terminals for external connection formed on the top surface of the base; wiring formed on the top surface of the base for connecting the semiconductor device and the terminals; and a resin for sealing the semiconductor device, wherein the terminals are formed in a region other than any of the resin sealing region, the clamped regions, and the non-clamped regions.
The semiconductor device is located at a position apart from the terminals on the base. With this construction, when an IC card fabricated using the IC card module of the invention is to be connected with an external apparatus provided with an IC card slot, the terminals can be inserted into the slot for the connection without placing the semiconductor device inside the slot. This makes it possible to fabricate an IC card having a structure that protects the semiconductor device from being adversely influenced by external mechanical stress, heat from the external apparatus, and the like. That is to say, an IC card with high reliability is obtained.
Preferably, the wiring is formed along routes passing through the non-clamped regions on the top surface of the base.
With the above construction, the wiring is suppressed/prevented from damage due to the clamping with the sealing mold. The resultant IC card module has reduced disconnections and short circuits. In addition, since the wiring is arranged so as to avoid clamping with the sealing mold, the following advantage is obtained in the case of forming a solder resist on the printed wiring board. The surface of the solder resist is waved when it is formed over the wiring. In the region clamped with the sealing mold, however, the solder resist is not waved since no wiring exists in this region. Thus, the resultant IC card module is free from resin leak and has resin sealing with high precision.
The non-clamped regions on the top surface of the base may correspond to a resin injection gate and an air vent of the sealing mold.
Preferably, at least one layer of inner wiring and then an insulating layer are formed on the top surface of the base, the semiconductor device is formed on the insulating layer, and portions of the wiring located in the periphery zone constitute the inner wiring.
With the above construction, the wiring as the inner wiring is sandwiched by and thus mechanically protected by the base and the insulating layer. Specifically, if the IC card module is bent with an external force, the portion that is not sealed with the resin warps, possibly causing damage to the wiring. The inner wiring can reduce such damage due to warping.
A solid pattern is preferably formed on portions of the periphery zone that do not have the wiring.
The above construction can reduce warping in the periphery zone of the resin sealing region, and thus further reduce damage to the wiring and the base.
The top surface of the solid pattern is preferably at a height equal to or greater than the height of a top surface of the wiring.
The above construction prevents the wiring from being clamped with the sealing mold in the periphery zone of the resin sealing region. Therefore, damage to the wiring during the clamping is prevented.
The solid pattern preferably functions as power source wiring or grounding wiring. This stabilizes the voltage from the power supply.
Preferably, the IC card module further includes a semiconductor device formed on a back surface of the base, wiring for connecting the semiconductor device formed on the back surface and the terminals, and a resin for sealing the semiconductor device formed on the back surface.
The above double-sided structure allows for increase in the number of semiconductor devices that can be mounted on the printed wiring board, or decrease in the volume occupied by a semiconductor device when implemented. That is, it is possible to obtain an IC card module with semiconductor devices mounted at a high density.
The printed wiring board of the present invention includes: a base having a resin sealing region, clamped regions in a periphery zone of the resin sealing region clamped with a sealing mold, and non-clamped regions in the periphery zone of the resin sealing region that are not clamped; connection lands formed on the top surface of the base for connection with a semiconductor device; terminals for external connection formed on the top surface of the base; and wiring formed on the top surface of the base for connecting the connection lands and the terminals, wherein the terminals are formed in a region other than any of the resin sealing region, the clamped regions, and the non-clamped regions, and the wiring is formed along routes passing through the non-clamped regions on the top surface of the base.
The above construction suppresses/prevents the wiring from being damaged due to the clamping with the sealing mold. Therefore, an IC card module using the printed wiring board with this construction has reduced disconnections and short circuits. In addition, since the wiring is arranged so as to avoid clamping with the sealing mold, the following advantage is obtained in the case of forming a solder resist on the printed wiring board. In the region clamped with the sealing mold, the solder resist is not waved since no wiring exists in this region. An I

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