JPH0722006A - Battery layout method for printed circuit board - Google Patents

Abstract

PURPOSE:To enhance mounting density of electronic parts by reducing a battery space on a printed circuit board. CONSTITUTION:A space is inevitably produced among solid electronic parts such as an IC element 2, a chip resistor 5 and a chip capacitor 6 disposed on a printed circuit board 1. By utilizing the space, a thin type or flat square type flexible battery 3 having a height of 1cm of less is disposed in the space. The battery 3 can be detachably connected to an insertion terminal 4 on the printed circuit board 1. Consequently, about 9% of a battery space on the printed circuit board, occupied by the battery can be reduced to as far as 2%. Additionally, the use of the thin or flat square type battery having a height of 1cm or less realizes effective utilization of the space in the vertical direction and enhancement of mounting density of the electronic parts inside equipment.

Description

Detailed Description of the Invention

[0001]

The present invention relates to fashion, toys,
It can be used in fields such as thin electronic devices.

[0002]

2. Description of the Related Art Conventionally, a coin type battery arranged on a printed circuit board has been provided on the printed circuit board by directly arranging the coin type battery on the printed circuit board so as to reduce the space to be stored. However, if the device has many functions (for example, if the number of arithmetic circuits is increased, it is necessary to increase the number of electronic parts), and if it is desired to make it thin and small, the space of the battery on the substrate surface is too large. That was a problem. For example, in a card size device (for example, a pager), the area occupied by the battery is about 9%.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to further reduce the space for directly arranging a battery on a printed circuit board to reduce the printed circuit board. It increases the mounting density of the above electronic components. Also, instead of a flat-plate type VLSI, a three-dimensional EE
With the advent of EPROMs, the demand for reducing the space on the substrate becomes greater, and at the same time, the demand for effectively utilizing the space of the height is also satisfied.

[0004]

The present invention achieves the above object, and is a printed circuit board in which electronic components such as passive components (resistors, capacitors, etc.), active components (integrated circuits, etc.) are integrated and arranged in high density. In order to effectively utilize the flat area of the printed circuit board, the battery must be stood up and its height must be 1 cm or less. The length of the battery is longer than the height of the battery. A thin strip-shaped battery with long strips arranged freely in the printed circuit board. In order to facilitate the attachment and detachment of the battery, the thin battery is inserted and fixed by the plug-in type terminal provided on the printed circuit board, thereby solving the above-mentioned problems.

[0005]

By reducing the planar space occupied by the printed circuit board, many other electronic components can be mounted accordingly. In addition, a thin, flexible and foldable strip-shaped battery having a height of 1 cm or less is sewn in a space which is inevitably formed for arranging resistors and capacitors on a printed circuit board. It is not necessary to take a flat space for a battery that has been provided conventionally, and the packaging density is dramatically improved. The connection between the battery and the printed circuit board is achieved by inserting the thin battery into a pluggable terminal provided on the board. The battery can be easily replaced by adopting the plug-in type terminal structure. If the battery does not need to be replaced, the battery can be fixed to the printed board by soldering, a conductive adhesive, a conductive paste, or the like.

[0006]

EXAMPLES Examples of the present invention will be described below. FIG. 1 shows a three-dimensional IC element 2 provided on a printed circuit board 1, a thin and flexible 1 cm height and a thickness of 0.2 m.
This is an embodiment in which a battery 4 having a length of 50 mm and a length of 50 mm is arranged in a gap between electronic components such as a chip resistor 5 and a chip capacitor 6. The battery connection is achieved by pluggable terminals 4 on the printed circuit board. With such a battery arrangement, about 9% of the battery space occupied on the conventional substrate surface is occupied.
The space can be reduced to 2% and the mounting density of electronic parts is improved. FIG. 2 shows a terminal slit 7 provided in a thin and flexible battery. FIG. 3 shows a flat battery which is not placed on the printed circuit board so as to occupy a flat area but is placed vertically on the printed circuit board with a height of 1 cm or less. Was reduced.

[0007]

The present invention, including the above-mentioned embodiments, has the following effects. (1) By vertically standing a battery having a height of 1 cm or less on the printed circuit board surface, the space on the printed circuit board surface can be utilized for mounting other electronic components. (2) By placing a flexible battery in the gap that is inevitably created by the placement of electronic components, the space previously considered as a dead space can be utilized, resulting in a dramatic increase in mounting density. improves. (3) By adopting the above-mentioned (2), the space required for the battery on the surface of the substrate is mainly the plug-in type terminal portion. (4) The battery can be easily attached and detached. (5) By arranging the thin battery covered with the insulating film in the gap between the electronic components, it is possible to prevent the electronic components from contacting each other and to have the effect of insulating the generated heat.

In the present invention, the thickness of the battery is most suitable when it has a thickness of about 0.5 mm or less from the viewpoint of providing flexibility. On the other hand, the flat battery preferably has a thickness of 6 mm or less in order to reduce the area on the printed circuit board surface. When it is necessary to increase the battery capacity, it is advisable to stack a plurality of thin batteries. Further, it goes without saying that the shape of the battery fixing terminal can be adopted as long as it is a method that can be easily attached and detached other than the plug-in type. The reason why the height of the battery is 1 cm or less is that the aluminum electrolytic capacitor, which is considered to have a high height, has a thickness of 10 mm.
This is because if it is higher than this, the mounting density per volume will be lowered by the battery.

The length of the battery is longer than the height, and the length of the battery can be accommodated in the gap on the substrate so as to satisfy the required battery capacity, and when a high voltage is required, the cell is set according to the voltage. It may be laminated in series. Batteries applicable to the present invention are preferably nickel-cadmium, nickel-hydrogen, lithium batteries and the like, but are not particularly limited.

[Brief description of drawings]

FIG. 1 is a perspective view showing an example of a printed circuit board according to the present invention.

FIG. 2 is an external view of a thin battery (including a film battery) showing an example of the present invention.

FIG. 3 is an external view of a gum type battery showing an example of the present invention.

Claims (5)

[Claims] 1. A printed circuit board in which electronic components such as passive components and active components are integrated and arranged at high density,
A method of arranging a battery on a printed circuit board, characterized in that a thin battery having a height of 1 cm or less and having flexibility, or a battery having a flattened rectangular shape is arranged. 2. The method for arranging a battery on a printed circuit board according to claim 1, wherein the battery has a length longer than a height. 3. The thin battery according to claim 1 or 2, wherein the thin batteries are arranged in a gap between the printed circuit boards in a free shape.
A method for arranging a battery on a printed circuit board as described above. 4. The method for arranging a battery on a printed circuit board according to claim 1, wherein the thin battery is inserted and fixed by a plug-in type terminal provided on the printed circuit board. 5. The method for arranging a battery on a printed circuit board according to claim 1, wherein the thin battery is flexible and easily bent or bent.