JPH04166397A - Semiconductor card fitted with battery holder - Google Patents

Abstract

PURPOSE:To improve user's convenience by providing an engaging part for freely drawing out a battery holder from a card substrate and preventing the detachment of the battery holder from the card substrate to the battery holder and providing a flexible jumper wire electrically connecting a battery and an electronic part between the card substrate and a printed circuit board. CONSTITUTION:When the battery holder 2 received in a card substrate 1 is drawn out, said holder 2 is not separated from the card substrate 1 because pawls 2b are provided to the battery holder 2. When the battery holder 2 is drawn out of the card substrate 1, the positive pole of the battery 3 in the battery holder 2 is connected to the pad (+)9 of a printed circuit board 8 having an electronic part mounted thereon through a battery terminal plate (+)5 and a jumper wire (+)6 and the negative pole of the battery is also connected to the pad (-)10 of the printed circuit board 8 through a battery terminal plate (-)4 and a jumper wire (-)7. Therefore, when the battery 3 is provided in the battery holder 2 even in such a state that the battery holder 2 is drawn out, the electric part built in the card holder 1 can be backed up.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a semiconductor card with a battery holder, and more particularly to an improvement of the battery holder.

[Conventional technology]

A conventional semiconductor card with a battery holder is shown in FIG.

When replacing the battery 3, first remove the battery holder 2 from the card base 1, and
The battery 3 is removed and replaced using the .

[Problem to be solved by the invention]

At this time, the battery holder 2 is completely separated from the card base 1. Therefore, when the battery holder 2 is separated from the card base 1, the electronic components built into the card base 1 cannot be backed up by the battery 3 inside the battery holder 2.

Also, if you accidentally drop the battery holder 2 when replacing the battery 3, or after setting a new battery in the battery holder 2,
When inserting the battery holder 2 into the card base 1 again, there is a risk of inserting the battery holder 2 in the opposite direction, and battery replacement may take as long as 2 to 3 minutes.

In order to back up the electronic components built into the card base 1 even when the battery is replaced, the amount of electricity required to back up the electronic components for the time it takes to replace the battery 3 is stored in the card base 1. It is necessary to have a built-in capacitor.

In this way, with conventional semiconductor cards, it takes two seconds to replace the battery.
It may take up to 3 minutes, and in order to back up the semiconductor card during this time, a capacitor of approximately 100 μF or more is required, but such a capacitor is very large and cannot be placed inside the semiconductor card. Difficult to implement.

It is an object of the present invention to solve the drawback of the conventional products that it is difficult to back up electronic components when replacing batteries, and to provide a semiconductor card that is easy to use.

[Means to solve the problem]

The above object is to provide a semiconductor card with a battery holder that includes a battery that backs up electronic components mounted on a printed circuit board and a battery holder that supports the battery, in which the battery holder can be freely pulled out from the card base; In addition, a locking portion is provided to prevent the card from falling off the card base, and between the card base and the printed circuit board,
This is achieved by providing a flexible jumper wire that electrically connects the battery and electronic components.

[Effect]

In the present invention, the structure is such that the battery holder is not completely separated from the card base when replacing the battery, and even when the battery holder is pulled out from the card base, the battery inside the battery holder and the card base are built in. Since the electronic components are electrically connected, the electronic components in the card base are backed up even in this state.

As described above, since the battery holder is not completely separated from the card base, problems such as dropping the battery holder or attaching the battery holder incorrectly do not occur. Therefore, when replacing the battery, the time during which the electronic components built into the card base and the battery in the battery holder are not electrically connected is only the time during which the battery is removed from the battery holder, and is extremely short.

Therefore, by simply incorporating a small-capacity capacitor into the card base, the electronic components can be easily backed up even during periods when the electronic components and the battery are not connected.

In addition, the method of setting the battery in the battery holder is not simply placing the battery on the battery holder, but a structure in which the top and bottom surfaces of the battery are held down and the battery is sandwiched between them is used. With this method, when replacing the battery, you can slide the new battery in from the side of the battery holder and push out the old battery at the same time, making it possible to replace the battery more smoothly and in a shorter time. Become.

Furthermore, the time during which the electronic components built into the card base and the battery in the battery holder are not electrically connected becomes shorter. As a result, backup of the electronic components built into the card base can be easily realized even when replacing the battery by incorporating a small capacity capacitor into the semiconductor card.

Hereinafter, each embodiment of the present invention will be described based on the drawings.

Figures 1 and 2 relate to the first embodiment, and Figure 1 shows the battery holder 2 housed in the card base 1 being pulled out using the pull-out groove 2a of the battery holder 2. It is a diagram. Since the battery holder 2 has a claw 2b at the rear end in the drawing direction, it cannot be separated from the card base 1.

Further, FIG. 2 is a sectional view of the semiconductor card shown in FIG. 1. When the battery holder 2 is pulled out from the card base 1, the (+) pole of the battery 3 inside the battery holder 2 is connected to the electronic component via the battery terminal board (+) 5 and the jumper wire (+) 6. It is connected to the pad (+) 9 of the printed circuit board 8 on which it is mounted.

Similarly, connect the (-) terminal of the battery to the pad (-) of the printed circuit board 8 via the battery terminal board (-) 4° jumper wire (-) 7.
10. Therefore, even when the battery holder 2 is pulled out, as long as the battery 3 is inside the battery holder 2, the electronic components built into the card base 1 can be backed up.

In this embodiment, a battery terminal plate 4.5 and jumper wires 6, 7 are used to connect the battery 3 in the battery holder 2 and the printed circuit board 8, but instead of the battery terminal plate 4.5, conductive A conductive member such as rubber or a conductive film may be used, and a member such as a flexible board or cable may be used instead of the jumper wires 6 and 7.

Next, a second embodiment will be described based on FIGS. 3 and 4.

FIG. 3 shows that the structure of the battery holder 2 is such that the top and bottom surfaces of the battery 3 are sandwiched between them. When replacing the battery 3, slide the new battery 3a from the side of the battery holder 2, and The new battery 3a pushes out the old battery 3b by inserting it into the holder 2.

FIG. 4 is a cross-sectional view of the semiconductor card shown in FIG. This shows that it is electrically connected to the board 8.

According to this embodiment, a capacitor is provided in the card base l that can store the electrical capacity necessary to back up the electronic components only for an extremely short period of time when the electrical connection between the electronic components and the battery 3 is broken. By incorporating it, you can easily back up electronic components when replacing batteries.

FIG. 5 shows an example of the electrical configuration of a card provided with small capacity capacitors C1 and 02.

11 is a memory IC 112 on the card side, which is a decoder, 13 is a power supply monitoring circuit, and C1 and C2 are small capacitors. Further, 14 is the system body.

Note that it is sufficient if either one of the capacitors CI and C2 is installed.

〔Effect of the invention〕

As described above, the present invention has the advantage that when replacing the battery of a semiconductor card, the time during which the electrical connection between the electronic components built into the semiconductor card and the battery is broken can be extremely shortened.

[Brief explanation of drawings]

1 and 2 relate to the first embodiment of the present invention, FIG. 1 is a perspective view when the battery holder is pulled out, FIG. 2 is a vertical sectional view of the same, and FIGS. Regarding the second embodiment of the invention, FIG. 3 is a perspective view when the battery holder is pulled out, FIG. 4 is a vertical sectional view thereof, FIG. 5 is an electrical configuration diagram of a card according to an example, and FIG. It is a perspective view concerning a conventional example. 1...Card base, 2...Battery holder, 2a...
Groove for pulling out battery holder 2, 2b...claw of battery holder 2, 3...battery, 3a...new battery, 3b...
... Old battery, 4... Battery terminal board (-), 5...
Battery terminal board (+) 6...Jumper wire (+), 7...
・Jumper wire (-), 8... Printed circuit board, 9...
Pad (+) on the board, 10... Pad (-) on the board
).

Claims (2)

[Claims] (1) A semiconductor card with a battery holder that includes a battery that backs up electronic components mounted on a printed circuit board and a battery holder that supports the battery, in which the battery holder can be freely pulled out from the card base, and A locking portion is provided to prevent the card from falling off the card base, and a flexible jumper wire is provided between the card base and the printed circuit board to electrically connect the battery and the electronic components. A semiconductor card with a battery holder. (2) A semiconductor card with a battery holder according to claim 1, wherein the battery holder is structured to sandwich the battery from above and below.