JP3946125B2 - Portable computer - Google Patents

Description

【００２０】
次に、携帯型コンピュータ１が拡張ステーション２に装着されている場合に、携帯型コンピュータ１の内蔵バッテリ７のみが電源の供給源である場合は拡張ステーション２には電源供給せず、携帯型コンピュータ１に増設バッテリ８が接続されている場合、又はＡＣアタプタ（図示せず）がＤＣ−ＩＮコネクタ５又は６に接続されている場合には、携帯型コンピュータ１から拡張ステーション２に電源を供給する構成について説明する。
【００２１】
バッテリ保護スイッチ４は、増設バッテリ８の容量検出回路９からの信号にしたがってオン・オフし、拡張ステーション２への電力供給に、内蔵バッテリ７を参加させるか否かを判断する。しかし、拡張ステーション２への電力供給それ自体には関与していない。
増設バッテリ８の容量検出回路９は、増設バッテリ８の容量を電圧で計測することによって推測し、増設バッテリ８に携帯型コンピュータ１に拡張ステーション２を装着した状態での消費電力に対応した電源供給能力がある場合にのみ、バッテリ保護スイッチ４に内蔵バッテリ７から拡張ステーション２への電源供給を許可するものである。増設バッテリ８が接続されていない時は、この容量検出回路９は増設バッテリには電源供給能力がないと判断する。
【００２２】
図８は携帯型コンピュータ本体１、増設バッテリ８及び拡張ステーション２の斜視図である。図９は増設バッテリ８を携帯型コンピュータ本体１に装着した状態の斜視図、図１０はこれらを更に拡張ステーションに装着した状態を示す斜視図である。
増設バッテリ８は携帯型コンピュータ１に対して前述のように着脱可能であるが、本発明では、更に、増設バッテリ８を携帯型コンピュータ本体１に装着した状態で、拡張ステーション２に装着することもできるようになっている。そのために、拡張ステーション２には、増設バッテリ８が嵌まるための窪み３１が設けられている。この窪み３１を単なる開口ではなく底部のある窪みとすることにより、拡張ステーション２の前後の領域間での電源や信号を供給・伝達するためのプリント基板等の配線パターンをこの窪み３１の下側に配置することができ、スペースを有効に利用することができる。
【００２３】
なお、携帯型コンピュータ本体１を拡張ステーション２に装着した時は、携帯型コンピュータ本体１の裏面に設けてあるコネクタ１５（図１，図２）が拡張ステーション２のコネクタ１６に嵌合し、両者の電気的な接続がなされる。
更に、拡張ステーション２の前方よりの両側にはスピーカ２１が配置されている。これらのスピーカ２１は、両側縁に向かって下方に傾斜している。したがって、薄型のスピーカ２１を効果的に配置することができると共に、携帯型コンピュータ本体１を装着した状態で、携帯型コンピュータ板本体１の裏面が拡張ステーション２の上面２０に接触するが、両側のスピーカ２１は傾斜しているので、スピーカ２１の部分は携帯型コンピュータ本体１の裏面から隙間があり、スピーカ音が有効に拡散することとなる。
【００２４】
【発明の効果】
以上に説明したような、本発明によれば、携帯型コンピュータに拡張ステーションの装着が完了していない状態では、携帯型コンピュータから拡張ステーションへの電源供給はされず、携帯型コンピュータに拡張ステーションの装着が完了した状態になったから、携帯型コンピュータから拡張ステーションへの電源供給が行われるため、携帯型コンピュータの電源を切らずに携帯型コンピュータと拡張ステーションとの結合作業を行え、しかも、コネクタが斜めに挿入された場合等の不完全なコネクタ結合の場合に生じる短絡により弱電回路が過度の負荷を受けたり或いは損傷を受けることが防止される。
【００２５】
また、本発明では、携帯型コンピュータが拡張ステーションに装着されている場合において、携帯型コンピュータの内蔵バッテリ装置のみが電源の供給源の場合は拡張ステーションには電源供給せず、携帯型コンピュータに増設バッテリ又はＡＣアタプタ等の他の電源が接続されている場合は、携帯型コンピュータから拡張ステーションに電源を供給するようにしている。したがって、携帯型コンピュータの内蔵バッテリのみが電源供給源である場合は、拡張ステーションには電源供給しないため、拡張ステーションは使用できず、拡張ステーション使用による内蔵バッテリのセルあたりの消費電力量が防止さ、内蔵バッテリの寿命が縮むことを防止できる。
【図面の簡単な説明】
【図１】本発明による携帯型コンピュータから拡張ステーションへの電源供給装置の原理説明図である。
【図２】携帯型コンピュータと拡張ステーションとの間の接続部を示す。
【図３】携帯型コンピュータと拡張ステーションとの間の接続の手順を示す。
【図４】結合確認回路の原理説明図である。
【図５】電力供給可否判断回路の原理説明図である。
【図６】携帯型コンピュータ、増設バッテリ及び拡張ステーションの未装着状態における斜視図である。
【図７】増設バッテリを携帯型コンピュータ本体に装着した状態の斜視図である。
【図８】図７の状態から更に拡張ステーションに装着した状態を示す斜視図である。
【符号の説明】
１…携帯型コンピュータ
２…拡張ステーション
３…拡張ステーション用電力供給スイッチ
４…バッテリ保護スイッチ
５…携帯型コンピュータのＤＣ−ＩＮコネクタ
６…拡張ステーションのＤＣ−ＩＮコネクタ
７…携帯型コンピュータの内蔵バッテリ
８…携帯型コンピュータの増設バッテリ
９…増設バッテリの容量検出回路
１０…システム回路
１１…結合確認回路
１２…電力供給可否判断回路
１３…携帯型コンピュータ側の結合確認用接続部
１４…拡張ステーション側の結合確認用接続部
１５…携帯型コンピュータ側の接続コネクタ
１６…拡張ステーション側の接続コネクタ
２０…スピーカ
２１…拡張ステーション上面[0001]
BACKGROUND OF THE INVENTION
The present invention is a notebook personal computer, relates the power supply device of the portable computer such as a word processor, relates in particular to a portable computer when comprising an extended station for attaching the portable computer.
[0002]
The present invention also relates to an apparatus for supplying power from a portable computer to the expansion station in the case of having an additional battery and / or an AC power connection adapter that can be connected to the portable computer in addition to the expansion station.
In recent years, portable computers such as notebook personal computers and word processors that are small and light in consideration of the portable type, and the functions of the portable computer are expanded by being mechanically and electrically attached to the portable computer. Mobile computer expansion stations are becoming popular.
[0003]
When the portable computer and its expansion station are coupled, the weak electric circuits of the portable computer and the expansion station are coupled to each other via the coupling connector. For this reason, it is necessary to prevent the weak electric circuit from receiving an excessive load or damage due to a short circuit that occurs when the connector is inserted obliquely.
The battery life is characterized in that the battery life is shortened when the amount of power consumption per battery cell is large. For this reason, it is necessary to limit the power consumption per cell.
[0004]
[Prior art]
In a conventional portable computer and its extension station, when the connection between the two is performed, the system is terminated, the power is turned off and the system is turned on again to start the system in order to prevent damage to the weak electric circuit.
In addition, a battery mounted on a conventional portable computer is supplied with power by a battery having the same number of cells even if the power consumption varies depending on an expansion station or the like.
[0005]
For example, Japanese Patent Laid-Open No. 8-76879 discloses that a peripheral device is used by being superimposed on a lower part of a portable computer.
Japanese Patent Laid-Open No. 8-76889 discloses that a connector shell portion is formed by applying a pair of computers to an expansion unit housing connected to an information processing apparatus, and the housing forming the shell portion and the shell portion is made of resin. A connection structure between an information processing device and a peripheral device, which is integrally formed with an agent and metal-plated on the entire surface, is shown.
[0006]
Further, Japanese Patent Publication No. 8-7651 discloses a signal for being mounted on a docking device for a portable computer and mechanically fixed, and for transmitting a signal to and from the docking device for the portable computer. In a portable computer having an electrical connection for transmission, the main body of the portable computer is provided in the main body of the portable computer in order to reduce electromagnetic wave noise based on the potential difference between the portable computer and the docking device. A portable unit having a contact part that is connected to a reference potential part of the main body of the portable computer docking device at a part apart from the signal connection electrical connection part. A type computer is disclosed.
[Patent Document 1]
JP-A-8-76879 [Patent Document 2]
JP-A-8-76889 [Patent Document 3]
Japanese Examined Patent Publication No. 8-7651 [0007]
[Problems to be solved by the invention]
As mentioned above, conventionally, when connecting a portable computer and its expansion station, the system was shut down, the power was turned off, the power was turned on again after the connection was completed, and the system was started up. There was a problem that.
Conventionally, when the power consumption per cell of the battery is increased due to the installation of the expansion station, there is a problem that the life of the battery is shortened.
[0008]
Therefore, an object of the present invention is to provide a power supply device from a portable computer to an expansion station that can perform a coupling operation without turning off the power of the portable computer.
Another object of the present invention is to provide a power supply device from a portable computer to an expansion station, which can prevent the life of the battery from being shortened when the power consumption per battery cell increases. And
[0009]
[Means for Solving the Problems]
State in order to achieve the above object, according to the present invention, an additional battery can be connected, and, in the extended station wearable portable computer, wherein the additional battery is connected to the portable computer And means for confirming whether or not the portable computer has a power supply capability corresponding to the power consumption in a state where the expansion station is mounted, and whether or not the portable computer is mounted on the expansion station. Means for confirming, and when these confirming means confirms that the portable computer is mounted and that the additional battery has a power supply capability , supplies power to the expansion station from the power source of the portable computer. Means for providing a portable computer.
[0010]
According to this, for example, it is confirmed that the installation of the portable computer in the resume state to the expansion station is completed, and the expansion station is mounted on the portable computer with the additional battery connected to the portable computer. Only when it is confirmed that there is a power supply capability corresponding to the power consumption in the above state, power is supplied from the portable computer to the expansion station. Therefore, when the portable computer is not completely attached to the expansion station or when the additional battery is not connected to the portable computer, the portable computer does not supply power to the expansion station. After the connection and installation of the portable computer to the expansion station are completed, the portable computer and the expansion station can be powered without turning off the portable computer because power is supplied from the portable computer to the expansion station. Can be combined.
[0011]
Therefore, it is possible to prevent the weak electric circuit from receiving an excessive load or damage due to a short circuit that occurs when the connector is inserted obliquely.
In the portable computer according to the present invention, the power source is a battery included in the portable computer .
Alternatively, the power source is built in the portable computer .
The power supply means supplies power from the power source of the portable computer to the expansion station when the portable computer is in a resumed state and the confirmation means confirms the mounting. It is characterized by that.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a portable computer according to the present invention will be described below in detail with reference to the accompanying drawings.
FIG. 1 is a diagram illustrating the principle of the present invention. In the figure, 1 is a portable computer, 2 is an expansion station for a portable computer, 3 is a power supply switch for the expansion station, 4 is a battery protection switch, 5 is a DC-IN connector of the portable computer, and 6 is an expansion station. DC-IN connector, 7 is a built-in battery of the portable computer, 8 is an additional battery of the portable computer, 9 is a capacity detection circuit, 10 is a system circuit, 11 is a coupling confirmation circuit, 12 is a power supply availability determination circuit, 13 is A connection confirmation contact portion on the portable computer side, 14 is a connection confirmation contact portion on the expansion station side, 15 is a connection connector on the portable computer side, and 16 is a connection connector on the expansion station side.
[0014]
The expansion station power supply switch 3 is turned on / off according to a signal from the current supply availability determination circuit 12 and controls whether or not power is supplied from the portable computer 1 to the expansion station 2. Different signals are sent to the power supply availability determination circuit 12 depending on whether the system circuit 10 and the portable computer 1 are in the resume state or the suspend state. The coupling confirmation circuit 11 sends a different signal to the power supply availability determination circuit 12 depending on whether or not the expansion station 2 is completely attached to the portable computer 1. The power supply availability determination circuit 12 performs expansion only when the signal from the system circuit 10 indicates a resume state and the signal from the connection confirmation circuit 11 indicates that the expansion station 2 has been attached to the portable computer 1. A command to turn on the station power supply switch 3 is sent, and a signal to turn off is sent otherwise.
[0015]
Whether or not the extension station 2 has been attached to the portable computer 1 is determined by the connection confirmation circuit 11 as described above. Hereinafter, with reference to FIG. 2 to FIG. 4, the determination as to whether or not the extension station 2 has been attached to the portable computer 1 will be described.
2A shows a mechanical connection between the portable computer 1 and the extension station 2, and FIGS. 3A to 3C show the mechanical connection between the portable computer 1 and the extension station 2. FIG. The following shows the procedure of the simple coupling, that is, the separation state, the incomplete coupling state, and the coupling completion state. 4 shows the connection confirmation circuit 11 on the portable computer 1 side, and FIG. 5 shows an AND gate of the power supply availability determination circuit 12.
[0016]
As shown in FIGS. 2 and 3, it is confirmed by a mechanical method whether or not the portable computer 1 and the expansion station 2 are securely coupled, that is, whether or not the coupling between the two is completed. On the portable computer 1 side, a connection confirmation contact portion 13 is provided adjacent to the connection connector 15, while on the other hand, a connection confirmation contact portion 14 is provided adjacent to the connection connector 16 on the expansion station 2 side as well. (FIG. 2). As shown in FIG. 3C, the connection connector 15 on the portable computer 1 side is connected to the expansion station 2 between the portable computer side coupling confirmation contact portion 13 and the expansion station side coupling confirmation contact portion 14. It arrange | positions so that it may contact only when it fully inserts in the connection connector 16 of the side.
[0017]
In the connection confirmation circuit 11 (FIG. 4) on the portable computer 1 side, the signal CDCATCH # is always detected, and the voltage of this CDCAT ## is connected between the contact sections 13 and 14 for connection confirmation. The voltage is low and the voltage is high in the unconnected state. Therefore, when the voltage of CDATCH # is low, it is considered that the connection between the portable computer 1 and the extension station is completed.
[0018]
The suspend / resume state of the portable computer 1 is held by the system circuit 10 as described above. The signal voltage TRIS-3V # from the system circuit 10 indicates a resume state when the voltage is high and a suspend state when the voltage is low.
In the AND gate of the power supply availability determination circuit 12 shown in FIG. 5, the signal CDATCH # and the signal TRIS-3V # are input to the AND gate of the power supply availability determination circuit 12, and as shown in Table 1, The extension station current supply switch 3 is turned on only when the voltage of the TRIS-3V # is high.
[0019]
[Table 1]

[0020]
Next, when the portable computer 1 is attached to the expansion station 2, if only the built-in battery 7 of the portable computer 1 is a power supply source, the expansion station 2 is not supplied with power, and the portable computer 1 When the additional battery 8 is connected to the power supply 1 or when an AC adapter (not shown) is connected to the DC-IN connector 5 or 6, power is supplied from the portable computer 1 to the expansion station 2. The configuration will be described.
[0021]
The battery protection switch 4 is turned on / off according to a signal from the capacity detection circuit 9 of the additional battery 8 and determines whether or not the internal battery 7 is allowed to participate in power supply to the expansion station 2. However, the power supply itself to the expansion station 2 is not involved.
The capacity detection circuit 9 of the additional battery 8 estimates the capacity of the additional battery 8 by measuring the voltage, and supplies power corresponding to the power consumption when the expansion station 2 is mounted on the portable computer 1 to the additional battery 8. The battery protection switch 4 is allowed to supply power from the built-in battery 7 to the expansion station 2 only when there is a capability. When the additional battery 8 is not connected, the capacity detection circuit 9 determines that the additional battery has no power supply capability.
[0022]
FIG. 8 is a perspective view of the portable computer main body 1, the additional battery 8, and the expansion station 2. FIG. 9 is a perspective view showing a state in which the additional battery 8 is mounted on the portable computer main body 1, and FIG. 10 is a perspective view showing a state in which the additional battery 8 is further mounted on the expansion station.
The extension battery 8 can be attached to and detached from the portable computer 1 as described above. However, in the present invention, the extension battery 8 may be attached to the expansion station 2 while being attached to the portable computer body 1. It can be done. For this purpose, the expansion station 2 is provided with a recess 31 in which the additional battery 8 is fitted. By making the recess 31 a recess having a bottom rather than a simple opening, a wiring pattern such as a printed circuit board for supplying / transmitting power and signals between the areas before and after the expansion station 2 is provided below the recess 31. The space can be used effectively.
[0023]
When the portable computer main body 1 is attached to the expansion station 2, the connector 15 (FIGS. 1 and 2) provided on the back surface of the portable computer main body 1 is fitted to the connector 16 of the expansion station 2, so that both The electrical connection is made.
Further, speakers 21 are arranged on both sides from the front of the expansion station 2. These speakers 21 are inclined downward toward both side edges. Therefore, the thin speaker 21 can be effectively arranged, and the back surface of the portable computer board body 1 contacts the top surface 20 of the expansion station 2 with the portable computer body 1 attached. Since the speaker 21 is inclined, the speaker 21 has a gap from the back surface of the portable computer main body 1, and the speaker sound is effectively diffused.
[0024]
【The invention's effect】
According to the present invention as described above, when the extension station is not completely attached to the portable computer, power is not supplied from the portable computer to the extension station. Since the power is supplied from the portable computer to the expansion station after the installation is complete, the portable computer can be connected to the expansion station without turning off the portable computer. It is possible to prevent the weak electric circuit from being excessively loaded or damaged due to a short circuit that occurs in the case of incomplete connector connection such as when inserted obliquely.
[0025]
Further, according to the present invention, when the portable computer is mounted on the expansion station, if only the built-in battery device of the portable computer is a power supply source, the expansion station is not supplied with power, but is added to the portable computer. When another power source such as a battery or an AC adapter is connected, power is supplied from the portable computer to the expansion station. Therefore, if only the built-in battery of the portable computer is the power supply source, the expansion station cannot be used because the power is not supplied to the expansion station, and the power consumption per cell of the built-in battery due to the use of the expansion station is prevented. The life of the built-in battery can be prevented from being shortened.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating the principle of a power supply device from a portable computer to an expansion station according to the present invention.
FIG. 2 shows a connection between a portable computer and an expansion station.
FIG. 3 shows a connection procedure between the portable computer and the expansion station.
FIG. 4 is a diagram illustrating the principle of a coupling confirmation circuit.
FIG. 5 is a diagram illustrating the principle of a power supply availability determination circuit.
FIG. 6 is a perspective view of the portable computer, the additional battery, and the expansion station in the unmounted state.
FIG. 7 is a perspective view showing a state in which the additional battery is mounted on the portable computer main body.
8 is a perspective view showing a state where the expansion station is further attached to the state shown in FIG. 7. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Portable computer 2 ... Expansion station 3 ... Expansion station power supply switch 4 ... Battery protection switch 5 ... Portable computer DC-IN connector 6 ... Expansion station DC-IN connector 7 ... Built-in battery 8 of portable computer ... Additional battery 9 of portable computer ... Capacity detection circuit 10 of additional battery ... System circuit 11 ... Connection confirmation circuit 12 ... Power supply availability determination circuit 13 ... Connection confirmation connection part 14 on portable computer side ... Connection on expansion station side Connection part 15 for confirmation ... Connection connector 16 on the portable computer side ... Connection connector 20 on the extension station side ... Speaker 21 ... Upper surface of the extension station

Claims (4)

In a portable computer to which an additional battery can be connected and an expansion station can be attached,
Means for checking whether the portable computer has a power supply capability corresponding to power consumption in a state where an expansion station is attached to the portable computer in a state where the additional battery is connected to the portable computer ;
Means for checking whether the portable computer is attached to the expansion station;
Means for supplying to the extension station the power output by the portable computer when the confirmation means confirms that the portable computer is mounted and that the additional battery has power supply capability ;
A portable computer comprising:   The portable computer according to claim 1, wherein the power source is a battery included in the portable computer.   The portable computer according to claim 1, wherein the power source is built in the portable computer.   The means for supplying power supplies power from the power source of the portable computer to the expansion station when the portable computer is in a resumed state and the confirmation means confirms the mounting. The portable computer according to claim 1, characterized in that:

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