JPH08222882A - Pc card - Google Patents

Abstract

PURPOSE: To provide a noise filter for a PC card which can suppress unnecessary radiation from a PC card connected to such an information processor as the personal computer, etc., with a simple constitution. CONSTITUTION: A noise filter is formed by filling a wiring pattern formed on a printed wiring board 1 with magnetic resin 4 so that a closed magnetic circuit 6 can be formed through openings 5 provided near the pattern 3. The filling area of the resin 4 is formed of a reinforcing frame 2.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for preventing unnecessary radiation noise to a printed wiring board used in an information processing device such as a personal computer, and more particularly to a PC card having a connection function with an external input / output device. The present invention relates to a noise filter suitable for taking measures against noise in a small space.

2. Description of the Related Art The form of use of a computer is about to change from a form in which a computer is placed on a desk in an office and used to a form in which it is taken out of the office and used everywhere. Against this background, computers are becoming smaller and lighter, and only the minimum required functions can be installed. Therefore, a method of obtaining a function required at that time by inserting a PC card has become mainstream. This PC card is about 8.5 in length x 5.5 in width
× The height is as small as 0.5 cm, which limits the size of parts that can be mounted in the PC card and the load that can be applied. Conventionally, as a measure against radiation noise generated from a connection cable, as shown in FIG. 4, a through ferrite core 11 is attached to an input / output cable 12 connected to a PC card 9 via a connection connector 10, The method of absorbing the high frequency noise of the current flowing through 12 has been adopted. This kind of technique is disclosed in, for example, Japanese Patent Laid-Open No. 3-163770.

A ferrite core is attached to an input / output cable in order to reduce high frequency noise radiated from an information processing device. However, in a small device such as a PC card often used in a portable computer or the like. Since the load applied to the connector is limited, the connected cable is required to be lightweight. In the above conventional technique, since the ferrite core is integrally molded with the cable, a load is directly applied to the connector, which may damage the connector. There is also no space for attaching the split magnetic core to the printed wiring board. Furthermore, it is inconvenient to carry and it is not preferable in terms of appearance to attach the above-mentioned ferrite core to a product that claims to be portable. An object of the present invention is to provide a PC card that suppresses unnecessary radiation from an input / output cable without increasing the weight of the connection cable by forming a filter in an empty space in the PC card.

In order to achieve the above object, a P which is connected to an information processing device through an input / output connector.
In the C card, a noise filter is formed in a wiring pattern portion of a signal line connecting the internal circuit inside the PC card and the input / output connector. In the noise filter, a magnetic resin surface is formed on the wiring pattern surface of the signal line connecting the internal circuit inside the PC card and the input / output connector. In order to provide a closed magnetic circuit to enhance the effect as a noise filter, openings are provided on both sides of the wiring pattern of the board on which the wiring pattern is wired, and the magnetic resin surface is the surface of the board on which the wiring pattern is wired through the opening. And formed on the back surface.

In the PC card connected to the information processing device through the input / output connector, the noise filter is formed in the wiring pattern portion of the signal line connecting the internal circuit inside the PC card and the input / output connector. It is possible to effectively use the empty area of the card to reduce high frequency noise. The noise filter can be easily formed on the PC card by applying a magnetic resin surface on the wiring pattern surface of the signal line connecting the internal circuit inside the PC card and the input / output connector. To do. Since the magnetic resin closes the closed magnetic path, unnecessary radiation radiated by the current flowing through the wiring pattern can be sufficiently suppressed. Therefore, it is possible to reduce unnecessary radiation without attaching a ferrite core to the input / output cable connected to the end of the wiring pattern. In order to provide a closed magnetic circuit to enhance the effect as a noise filter, openings are provided on both sides of the wiring pattern of the board on which the wiring pattern is wired, and the magnetic resin surface is the surface of the board on which the wiring pattern is wired through the opening. Also, by forming it on the back surface, high frequency noise in the PC card can be effectively reduced. By forming an opening in the printed wiring board so as to connect the magnetic resin on the side of the wiring pattern and the magnetic resin on the opposite side, a stronger closed magnetic circuit can be created because a loop of the magnetic resin is created, and the wiring is the same as above. Unwanted radiation radiated from the pattern can be suppressed. Also, by replacing the insulating material under the wiring pattern with a magnetic material plate and covering the upper surface space with magnetic resin, a closed magnetic circuit is formed around the wiring pattern, so that radiation is similarly emitted from the cable connected to the PC card. It is possible to suppress unnecessary radiation that is generated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings. FIG. 2 is a top perspective view showing the PC card of one embodiment of the present invention with the outer case removed. FIG. 1 is a view showing a cross section taken along the line AA ′ of FIG. In FIGS. 1 and 2, 1 is a printed wiring board for mounting circuits for realizing various functions of a PC card, and 7 is an input / output connector for connecting the PC card to an information processing device such as a personal computer. Is. Reference numeral 2 is a reinforcing frame for fixing the printed wiring board 1 in a state of being assembled as a PC card, and 3 is provided on the printed board 1, and the input / output connector 7 is provided.
2 is a wiring pattern for connecting and electrically connecting an internal circuit of the PC card mounted on the printed circuit board 1. Reference numeral 4 denotes a magnetic resin filled in a portion of the printed board 1 where the wiring pattern 3 is surrounded by the reinforcing frame 2. The magnetic resin is preferably a ferrite resin in which ferrite powder and a thermosetting resin are mixed, but a high magnetic permeability material such as amorphous may be used. The reinforcing frame 2 is formed so as to extend the wiring pattern 3 and an internal circuit mounted on the printed circuit board 1, and a space for filling the magnetic resin 4 in the portion of the wiring pattern 3 connected to the input / output connector 7. Are assembled on both the front and back surfaces of the printed wiring board 1. An opening 5 is provided in a portion of the printed wiring board 1 that is filled with the magnetic resin 4, that is, in an empty area on both sides of the wiring pattern 3 that is connected to the input / output connector 7 in the printed wiring board 1. The magnetic resin 4 filled in the front and back surfaces of the printed wiring board 1 and the opening 5 surrounds the wiring pattern 3 to form a closed magnetic circuit. The magnetic resin 4 is used before the external case is attached after the printed wiring board 1 on which the wiring pattern 3 is wired is fixed by the reinforcing frame 2 (may be after the external case is attached, but in that case, A hole for injecting a magnetic resin is provided in a portion of the case corresponding to the space), and the magnetic resin is injected into the space formed by the reinforcing frame 2. The magnetic resin injected on the front surface of the printed wiring board 1 can be spread to the space on the back surface of the printed wiring board 1 through the opening 5 provided in the printed wiring board 1. The closed magnetic circuit of the magnetic resin thus formed constitutes the noise filter of the PC card. FIG.
It is a figure which shows the other Example of this invention. In this embodiment, the printed wiring board 1 is provided without forming the opening 5 in the printed wiring board 1.
A part of the surface insulating layer of the magnetic plate 8 is formed.
A wiring pattern 3 to be connected to an input / output connector for connecting to an external information processing device or the like is formed thereon. A magnetic resin 4 is filled in the space formed by the reinforcing frame above the magnetic material plate 8 and the wiring pattern 3 to form a closed magnetic path surrounding the wiring pattern 3. Although the effect is slightly lowered, in the embodiment shown in FIG. 3, the printed wiring board 1 may be configured by only filling the space formed by the reinforcing frame with the magnetic resin 4 without providing the magnetic plate 8. it can.

According to the present invention, a noise filter can be formed in the dead space of a printed wiring board, and a small PC card capable of suppressing unnecessary radiation emitted from a connection cable can be provided. . Further, along with this, it becomes unnecessary to attach a ferrite core to the connection cable of the PC card, so that the possibility of damaging the connector is reduced and the appearance is improved.

[Brief description of drawings]

FIG. 1 is a cross-sectional view (cross-section AA ′ in FIG. 2) of a PC card showing an embodiment of the present invention.

FIG. 2 is a top perspective view of a PC card showing an embodiment of the present invention.

FIG. 3 is a sectional view showing another embodiment of the present invention.

FIG. 4 is a perspective view showing a conventional technique.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Printed wiring board, 2 ... Reinforcement frame, 3 ... Wiring pattern, 4 ... Magnetic resin, 5 ... Opening part, 6 ... Closed magnetic circuit, 7 ...
Input / output connector, 8 ... Magnetic plate, 9 ... PC card, 10
… Connector, 11… Penetrating ferrite core, 12… Input / output cable.

Claims (4)

[Claims] 1. A PC card connected to an information processing device via an input / output connector, wherein a noise filter is formed in a wiring pattern portion of a signal line connecting the internal circuit inside the PC card and the input / output connector. PC card characterized by. 2. The noise filter according to claim 1, wherein a magnetic resin surface is formed on a wiring pattern surface of a signal line connecting the internal circuit inside the PC card and the input / output connector. PC card. 3. An opening is provided on both sides of the wiring pattern of a substrate on which the wiring pattern is wired, and the noise filter is formed on a front surface and a back surface of the substrate on which the wiring pattern is wired through the opening. The PC card according to claim 2, wherein the PC card is a child. 4. The noise filter is composed of a magnetic plate embedded under a wiring pattern of a substrate on which the wiring pattern is wired, and a magnetic resin surface formed so as to cover the wiring pattern. Claim 1 characterized by the above.
The listed PC card.