JP2012010441A - Portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To extend life of a battery pack by using external power only to use a portable terminal without charging the battery pack when the external power can be used.SOLUTION: A portable terminal includes a portable terminal main body 1, a battery pack 4 that is a rechargeable battery as a power source of the portable terminal main body 1, and external power input means 3 that inputs external power for charging the battery pack 4. The terminal further includes a switch 2 as opening/closing means for conducting/interrupting a charge circuit from the external power input means 3 to the battery pack 4 and a discharge circuit from the battery pack 4 to the portable terminal main body 1.

Description

  The present invention relates to a power supply circuit of a mobile terminal such as a mobile phone, and more particularly to a mobile terminal provided with a power supply circuit for extending the life of a built-in battery pack.

  A typical mobile phone uses the power supply of the built-in battery pack when used outdoors or on the go, and when the external power supply (AC power supply) can be used at home or after going home, In preparation for the occasion, the battery pack is charged by connecting an AC adapter to the mobile phone. In addition, while charging the battery pack, it is possible to make a phone call with a mobile phone, use a music player, or watch a 1Seg TV.

  At this time, when the AC adapter is connected to the external power source, the battery pack is charged regardless of whether or not the battery pack has a remaining battery level. That is, when a general mobile phone is connected to an external power source, the built-in battery pack is charged, so that even when there is still a sufficient remaining battery level and charging is not necessary, floating charging (floating) is performed. Therefore, there is a possibility that the frequency of deterioration of the battery pack increases. Further, in the conventional mobile phone, when the battery pack is removed from the mobile phone body, the mobile phone cannot be used, and it takes time to remove the battery pack.

  That is, in general mobile phones, the battery pack storage battery deteriorates by repeating charging / discharging, the charge / discharge capacity gradually decreases, and the stable maintenance time of the storage battery becomes shorter. For example, in the case of a lithium ion battery, it is said that the battery life is reached when charging / discharging is repeated about 500 times. In addition, when a battery pack is removed in a house where an external power source can be used, the mobile phone cannot be used even if an AC adapter is connected. In other words, since the DC power generated by the AC adapter has a large ripple component, the ripple component cannot be reduced unless the battery packs are connected in parallel. It cannot be used as a power source.

  Further, the battery pack built in the mobile phone is not easy to remove, and if the battery pack is repeatedly removed many times, the battery cover of the mobile phone may be deformed or worn out. In addition, recent mobile phones have a variety of service functions such as music playback function, one-segment TV function, and video reception function. Since it is increasing, the charging frequency of the battery pack is increasing accordingly.

  In other words, as the various functions of mobile phones increase, the battery pack will be used for a long time regardless of whether external power (AC power) is available or not. The length of is becoming important. Therefore, since the battery pack deterioration caused by repeated charging and discharging progresses, the time during which the battery pack can be used with peace of mind when going out is shortened. In addition, there is a risk that the usability of the mobile phone will deteriorate.

  Therefore, various techniques for relieving anxiety about the power source of a mobile terminal such as a mobile phone have been disclosed. For example, a mobile terminal is provided with a main battery and a sub battery, and the main battery normally supplies power to the mobile terminal while floatingly charging the sub battery. And the technique comprised so that a power supply may be automatically supplied from a sub battery to a portable terminal, when a main battery is consumed and it becomes below a predetermined voltage, or a main battery is removed ( For example, see Patent Document 1).

  In addition, a technique related to a portable charger that can charge a built-in battery of a portable terminal without an external power source such as an AC outlet is also disclosed. According to this technology, since the portable charger for charging the built-in battery of the mobile terminal includes the secondary battery, if the secondary battery built in the portable charger is charged by an external power source in advance. Even if the portable charger is not connected to the AC adapter, the built-in battery of the portable terminal can be charged from the secondary battery built in the portable charger. Therefore, when the user goes out, even when there is no outlet for connecting the AC adapter, the portable battery can be charged with the built-in battery of the portable terminal.

JP 2009-20122 A JP 2009-247161 A

  However, in the related art of Patent Document 1, since the mobile terminal includes a backup sub-battery, even if the main battery of the mobile terminal is consumed while going out, the mobile terminal is powered by the power of the sub-battery for a while. Although it can be maintained in a usable state, there is no solution for measures against battery life due to repeated charging and discharging of the main battery or sub battery.

  Further, the related art of Patent Document 2 can charge the built-in battery of the portable terminal with the secondary battery built in the charger without connecting the AC adapter of the charger to the outlet. Although the utility value in the place where there is no mobile phone is extremely high, as with the case of Patent Document 1, there is no solution to measures for battery life by repeatedly charging the built-in battery of the mobile terminal.

  The present invention has been made in view of the above circumstances. When an external power source can be used, the portable terminal can be used using only the external power source without charging the battery pack. An object of the present invention is to provide a portable terminal including a power supply circuit that realizes a long life.

  In order to achieve the above object, the configuration of the present invention includes a mobile terminal body, a battery pack as a power source of the mobile terminal body, and an external power input means for inputting an external power source for charging the battery pack. A portable terminal comprising: a charging circuit for supplying a charging current from the external power input means to the battery pack; and an opening / closing means for conducting / interrupting a discharging circuit for supplying a discharging current from the battery pack to the portable terminal body. It is characterized by becoming.

  According to the configuration of the present invention, since the open / close means (switch) for prohibiting charging from the external power source to the battery pack when the portable terminal body is connected to the external power source is provided, Unnecessary charging can be suppressed. As a result, the life of the battery pack can be extended.

1 is an external perspective view of a mobile phone body according to an embodiment of the present invention. It is a block diagram which shows the structure of the mobile telephone main body and power supply circuit which concern on embodiment of this invention.

  In the present invention, for example, a power supply circuit of a mobile terminal such as a mobile phone includes a disconnection circuit for disconnecting a battery pack built in the mobile phone from a charging circuit of an AC adapter, that is, an opening / closing means (switch). This can be realized. As a result, when the external power source can be used, the charging circuit of the AC adapter charging circuit is stopped by opening (turning off) the switch, which is a disconnection circuit, and only by the external power source. A mobile terminal such as a mobile phone can be used. In other words, it is possible to use a portable terminal such as a mobile phone using only an external power source without repeating unnecessary charging of the battery pack, and to extend the life of the battery pack.

Embodiment 1

  Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings. The first embodiment of the present invention relates to a mobile phone provided with an opening / closing means (switch) for disconnecting a battery pack as a power source, and the mobile phone can be used in a place where an external power source (AC power source) can be used. When the mobile phone is used or when the mobile phone stands by, the built-in battery pack can be disconnected by a switch. As a result, when an external power source is not available, the mobile phone can be used with a battery pack as a power source, but when an external power source is available, the mobile phone can be used only with a DC power source rectified by an AC adapter. Can do. At this time, the DC power source rectified by the AC adapter needs to be a DC stabilized power source that has almost no ripple component as much as the battery pack storage battery.

  With this configuration, when an external power supply can be used, the switch attached to the mobile phone can be turned off to reduce the number of repeated charging operations by the external power supply. Progress of deterioration of the battery pack due to discharge can be suppressed. As a result, the life of the battery pack can be extended and the replacement frequency of the battery pack can be reduced.

  FIG. 1 is an external perspective view of a mobile phone body according to an embodiment of the present invention. That is, this figure shows the external appearance of the mobile phone body 1 having a slide switch 2 for detaching a built-in battery pack (not shown) mounted on the surface.

  In FIG. 1, a slide-type switch 2 for connecting / disconnecting a power supply circuit is attached to the surface of a mobile phone body 1. Further, the mobile phone body 1 is provided with external power input means 3 so that it can be connected to an external power source. The switch 2 switches on / off (ON) a charging circuit that sends a charging current from the mobile phone body 1 to a battery pack (not shown) that is a rechargeable battery, and a discharging circuit that sends a discharging current from the battery pack to the mobile phone body 1. Open / close means of the power supply circuit for turning off / off. Therefore, when the external power source is connected to the mobile phone main body 1 via the external power input means 3, charging the battery pack from the mobile phone main body 1 to the battery pack and turning off the battery by turning off the switch 2 It is possible to prevent discharge from the pack to the mobile phone body 1. That is, when the switch 2 is OFF, only the external power source supplied to the external power source input means 3 is the power source of the mobile phone body 1.

  In other words, the switch 2 can cut off the charging / discharging circuit for the rechargeable battery (battery pack) built in the mobile phone body 1, and thus is unnecessary from the external power input means 3. Additional charging can be avoided. Thereby, the progress of deterioration due to repeated charging and discharging of the battery pack can be reduced, and the replacement frequency of the battery pack can be reduced.

  Examples of the external power supply include an AC adapter, a car cigarette lighter, a personal computer USB port, and a dry battery. The external power input means 3 has a small ripple component when any external power supply is used. It is necessary to supply a stabilized DC power source to the mobile phone body 1. For example, by providing a capacitor having a relatively large capacity on the output side of the external power supply input means 3, it is necessary to generate a DC stabilized power supply with a small ripple component and supply it to the mobile phone body 1.

  FIG. 2 is a block diagram showing the configuration of the mobile phone body and the power supply circuit according to the embodiment of the present invention. In FIG. 2, the mobile phone body 1 is connected to an external power supply input means 3 for inputting an external power supply, and is connected to a battery pack 4 which is a rechargeable battery via a switch 2. When the switch 2 is in the ON state, when the mobile phone body 1 is connected to an external power source via the external power input means 3 as in the operation of the conventional mobile phone body, the external power input is made from the external power source. The battery pack 4 is charged through the means 3. At this time, when the mobile phone main body 1 is used, the power from the external power source (external power input means 3) is mainly consumed by the mobile phone main body 1, so that the battery pack 4 discharges to the mobile phone main body 1. Rarely done.

  On the other hand, when the switch 2 is OFF, since the cellular phone body 1 is connected only to the external power source via the external power input means 3, when using the cellular phone body 1, only the external power source 3 is used. Can be used as a power source. Therefore, the ripple component of the DC power supplied from the external power source to the mobile phone body 1 via the external power input means 3 is almost as small as that of the battery pack 4. At this time, since the switch 2 is OFF, the battery pack 4 is not charged from the external power supply (external power input means 3).

  Thus, since the mobile phone body 1 according to the embodiment of the present invention can freely disconnect and connect the battery pack 4 by the switch 2, it can be used in a place where an external power source can be used (for example, home, company). In a car or the like), the mobile phone body 1 can be used by using only the external power source, so that unnecessary battery charging to the battery pack 4 can be prevented. As a result, the repetition frequency of the additional charging to the battery pack 4 can be reduced, so that deterioration of the battery pack 4 can be suppressed.

  In this way, the switch 2 is provided between the battery pack 4 and the power supply circuit of the mobile phone main body 1, and the battery pack 4 and the power supply circuit of the mobile phone main body 1 are appropriately disconnected by the user operating the switch 2. To be able to. Thereby, the deterioration by repeated charging / discharging of the battery pack 4 can be suppressed, without reducing the usability of the mobile phone body 1.

  The mobile phone according to the first embodiment will be described in more detail. As shown in FIG. 1, the user appropriately operates the switch 2 disposed on the surface of the mobile phone body 1 to connect / disconnect the charging circuit and the discharging circuit between the battery pack 4 and the mobile phone body 1. It becomes possible. Therefore, it is possible to freely select “perform / do not perform” charging of the battery pack 4 from the external power source (external power input unit 3) by the ON / OFF operation of the switch 2.

  For example, for commuting, when the mobile phone body 1 is removed from the charger (external power source) and worn, it arrives at the company, and the time until the mobile phone body 1 can be connected to the external power source of the company is 2 hours. Only 4 hours of the round trip in the day is the usage time of the battery pack, and the remaining time can be used only by the external power supply.

  Also, assuming that the phone or 1Seg TV can be used for 5 hours by fully charging the battery pack, if the mobile phone body 1 is used to watch the phone or 1Seg TV for 1 hour during the commuting time, No matter how many hours the mobile phone body 1 is used with the connected, it is sufficient to fully charge it once a day.

  On the other hand, if the battery pack is not connected to the battery pack because it uses an external power source during the day in a company, etc., the battery capacity will be lost if the battery pack is used for 2.5 hours during the day, such as when commuting to work or in the suburbs Even if the battery is not charged, it only needs to be charged once every two days.

  In addition, as an example of a common usage method in the present situation, when the battery pack 4 is used during the day and it is repeatedly charged almost every day for use the next day when returning home, the charging frequency of the battery pack 4 is Since it becomes high, the progress of deterioration of the battery pack 4 is accelerated. Even in such a case, as shown in FIG. 1, by providing the switch 2 at a position where the surface of the mobile phone body 1 is easy to operate, the charging frequency of the battery pack 4 is reduced and the deterioration of the battery pack 4 progresses. Can be suppressed.

  As described above, in the mobile phone according to the first embodiment, when the external power supply 3 can be used, power is consumed from the battery pack 4 to the mobile phone body 1 by turning off the switch 2. In addition, the battery pack 4 is not charged from the external power source 3, so that deterioration due to repeated charging / discharging of the battery pack 4 can be suppressed. In addition, since the deterioration due to repeated charging and discharging of the battery pack 4 is suppressed, the frequency of replacement (replacement) of the rechargeable battery (battery pack 4) can be reduced.

  Furthermore, if the switch 2 is turned off as necessary, charging from the external power source 3 to the battery pack 4 can be prohibited. Therefore, when a rechargeable battery is used as an external power source, The rechargeable battery of the power source can be used efficiently to the end.

Embodiment 2

  The second embodiment of the present invention is the same as the first embodiment shown in FIG. 1 and FIG. 2 in the basic configuration, but further devised for the usage method. That is, instead of using an AC adapter or a personal computer USB port as an external power source as in the first embodiment, a rechargeable battery is used as an external power source in the second embodiment. That is, as an external power source, a rechargeable battery is used as a standby power source when the built-in battery pack is consumed.

  Thus, by using a rechargeable battery as an external power source, it is economical as an external power source when going out, and the range of use as a backup power source can be expanded. Further, by using a rechargeable battery as an external power source, a mobile phone can be used using the rechargeable battery even in a place without an AC power source.

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration of the present invention is not limited to these embodiments, and the design does not depart from the spirit of the present invention. These changes are included in the present invention. For example, in each of the above embodiments, a slide-type switch is used as a battery pack disconnection circuit. However, the present invention is not limited to this, and a push button switch, a switch displayed on a liquid crystal screen of a mobile phone, etc. There may be. In short, any opening / closing means may be used as long as it is a detachable circuit that is attached to the mobile phone with good operability and can be turned ON / OFF.

  Also, as a switching means, instead of using a mechanical contact switch, it automatically turns off when the external power supply input means of the mobile phone is connected to the external power supply, and the external power supply input means is released from the external power supply. It is also possible to use a semiconductor switch that is automatically turned on when it is turned on. With this configuration, the semiconductor switch is automatically turned off when the external power input means of the mobile phone is connected to the external power source without the user manually turning on / off the slide switch. Since the charging circuit and the discharging circuit between the battery pack and the mobile phone body are interrupted, unnecessary repeated charging / discharging of the battery pack can be suppressed, and the life of the battery pack can be extended.

  Since the power supply circuit of the mobile phone according to the present invention can prevent unnecessary charging / discharging to the built-in battery pack and extend the life of the secondary battery, in addition to mobile terminals such as mobile phones, It can be used effectively for all handy type information terminals such as PDA (Personal Digital Assistance) and notebook personal computers.

1 Mobile phone body (mobile terminal body)
2 Switch (open / close means)
3 External power input means 4 Battery pack

Claims (6)

A portable terminal having a portable terminal body, a battery pack as a power source of the portable terminal body, and an external power input means for inputting an external power source for charging the battery pack,
A portable circuit comprising: a charging circuit for supplying a charging current from the external power supply input means to the battery pack; and an opening / closing means for conducting / interrupting a discharging circuit for supplying a discharging current from the battery pack to the portable terminal body. Terminal.   2. The portable terminal according to claim 1, wherein the opening / closing means is a slide-type ON / OFF switch mounted on the outer surface of the casing of the portable terminal main body.   The opening / closing means is a semiconductor switch that is automatically turned off when the external power input means is connected to the external power supply, and is automatically turned on when the external power input means is released from the external power supply. The mobile terminal according to claim 1, wherein the mobile terminal is provided.   The external power supply input means generates a DC stabilized power supply that enables the mobile terminal body to operate only by the external power supply when the charging circuit and the discharge circuit are cut off. The mobile terminal according to claim 1, 2 or 3, wherein the mobile terminal is supplied to a mobile terminal body.   5. The portable terminal according to claim 1, wherein the external power input means inputs an external power from any one of an AC adapter, a car cigarette lighter, a personal computer USB port, or a dry battery.   The portable terminal according to claim 1, 2, 3, or 4, wherein the external power input means inputs an external power from a rechargeable battery.

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