TWI591931B - Power control device and information processing device - Google Patents

Power control device and information processing device Download PDF

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TWI591931B
TWI591931B TW104133695A TW104133695A TWI591931B TW I591931 B TWI591931 B TW I591931B TW 104133695 A TW104133695 A TW 104133695A TW 104133695 A TW104133695 A TW 104133695A TW I591931 B TWI591931 B TW I591931B
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power supply
power source
battery
voltage value
capacitor
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TW104133695A
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TW201633657A (en
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Satoru Suwabe
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Toshiba Kk
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J9/00Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
    • H02J9/04Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source
    • H02J9/06Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Theoretical Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Stand-By Power Supply Arrangements (AREA)
  • Power Sources (AREA)

Description

電源控制裝置及資訊處理裝置 Power control device and information processing device

本發明之實施形態,係關於電源控制裝置及資訊處理裝置。 Embodiments of the present invention relate to a power supply control device and an information processing device.

在通信機器、播放機器、工廠設備等之產業系統領域所使用的資訊處理裝置,係要求高可靠性。為此,在資訊處理裝置的內部或外部設置輔助電源裝置,即使在系統稼動中發生停電、電源故障等的情況下,仍一定時間對於資訊處理裝置進行電源的支援,從而使系統繼續動作,防止程式、資料等的破壞等之障礙發生。 Information processing devices used in industrial systems such as communication devices, playback devices, and factory equipment require high reliability. Therefore, an auxiliary power supply device is provided inside or outside the information processing device, and even if a power failure or a power failure occurs in the system, the power supply is supported for the information processing device for a certain period of time, so that the system continues to operate to prevent the system from continuing to operate. Obstacles such as the destruction of programs, materials, etc. occur.

使用於輔助電源裝置的電池方面係通常使用可充電的2次電池。2次電池方面係存在鉛蓄電池、鎳鎘電池、鎳氫電池、鋰離子電池等,此等2次電池係存在充放電次數越增壽命越短如此的課題。 The battery used for the auxiliary power supply unit generally uses a rechargeable secondary battery. In the secondary battery, there are a lead storage battery, a nickel cadmium battery, a nickel hydrogen battery, a lithium ion battery, and the like, and the secondary battery has a problem that the life is shortened as the number of times of charge and discharge increases.

在不間斷電源裝置的先前技術方面,存在日本發明專利公開公報2010-16996A。 In the prior art aspect of the uninterruptible power supply device, there is Japanese Patent Laid-Open Publication No. 2010-16996A.

本發明所欲解決之問題,係在於提供使電池的長壽命化為可能的電源控制裝置、及資訊處理裝置。 The problem to be solved by the present invention is to provide a power source control device and an information processing device that make it possible to extend the life of the battery.

本發明之實施形態,係具有示於以下的特徵。為了解決上述課題,實施形態的電源控制裝置,係從外部電源接受電源供應,往資訊處理裝置的系統控制部供應電源,具備:從前述外部電源接受電源供應而蓄電的電容器;從前述外部電源接受電源供應而充電的電池;針對前述外部電源的電壓值是否成為小於等於既定的第1基準電壓值進行判定的外部電源監視手段;藉前述外部電源監視手段而判定為前述外部電源的電壓值為小於等於既定的第1基準電壓值時,將對於前述系統控制部的電源供應,從藉前述外部電源的電源供應切換成藉前述電容器的電源供應的第1切換手段;來自前述電容器的電源供應時,針對前述電容器的電荷量是否成為小於等於既定的基準電荷量進行判定的電容器監視手段;前述電容器監視手段判定為電容器的電荷量成為小於等於既定的基準電荷量時,將對於前述系統控制部的電源供應,從藉前述電容器的電源供應切換成藉前述電池的電源供應的第2切換手段;以及將藉前述第2切換手段的輸出電源供應至前述系統控制部的電源供應手段。 Embodiments of the present invention have the following features. In order to solve the above-described problems, the power supply control device according to the embodiment receives power supply from an external power source, supplies power to the system control unit of the information processing device, and includes a capacitor that receives power supply from the external power source and stores power, and receives the external power source. A battery that is charged by the power supply; an external power source monitoring means for determining whether the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value; and determining that the voltage value of the external power source is smaller than the external power source monitoring means When it is equal to a predetermined first reference voltage value, the power supply to the system control unit is switched from the power supply by the external power source to the first switching means for supplying power to the capacitor; and when the power is supplied from the capacitor. A capacitor monitoring means for determining whether or not the amount of charge of the capacitor is equal to or smaller than a predetermined reference charge amount; and the capacitor monitoring means determines that the amount of charge of the capacitor is equal to or smaller than a predetermined reference charge amount, and the power supply to the system control unit Should, by switching the capacitor from the power supply to the second switching means by a battery power supply; and supplied by the second switching means to the output power supply means to supply the system control unit.

此外,實施形態的資訊處理裝置,係具備系統控制部、從外部電源接受電源供應而往前述系統控制部供應電源的電源控制裝置,前述電源控制裝置,係具備:從前述外部電源接受電源供應而蓄電的電容器;從前述外 部電源接受電源供應而充電的電池;針對前述外部電源的電壓值是否成為小於等於既定的第1基準電壓值進行判定的外部電源監視手段;藉前述外部電源監視手段而判定為前述外部電源的電壓值為小於等於既定的第1基準電壓值時,將對於前述系統控制部的電源供應,從藉前述外部電源的電源供應切換成藉電容器的電源供應的第1切換手段;針對前述電容器的電荷量是否成為小於等於既定的基準電荷量進行判定的電容器監視手段;來自前述電容器的電源供應時,前述電容器監視手段判定為電容器的電荷量成為小於等於既定的基準電荷量時,將對於前述系統控制部的電源供應,從藉前述電容器的電源供應切換成藉電池的電源供應的第2切換手段;以及將藉前述第2切換手段的輸出電源供應至前述系統控制部的電源供應手段。 Further, the information processing device according to the embodiment includes a system control unit that receives power supply from an external power source and supplies power to the system control unit, and the power control device includes receiving power from the external power source. Storage capacitor; from the foregoing a battery that is charged by the power supply and charged, and an external power monitoring device that determines whether the voltage value of the external power supply is equal to or smaller than a predetermined first reference voltage value; and determines the voltage of the external power supply by the external power supply monitoring means When the value is less than or equal to a predetermined first reference voltage value, the power supply to the system control unit is switched from the power supply of the external power source to the first switching means for supplying power to the capacitor; and the amount of charge for the capacitor Whether or not the capacitor monitoring means for determining the predetermined reference charge amount is equal to or smaller than the predetermined reference charge amount; and when the capacitor monitoring means determines that the charge amount of the capacitor is equal to or smaller than a predetermined reference charge amount, the system control unit The power supply is switched from a power supply of the capacitor to a second switching means for supplying power to the battery, and a power supply means for supplying the output power of the second switching means to the system control unit.

1‧‧‧資訊處理裝置 1‧‧‧Information processing device

2‧‧‧電源單元 2‧‧‧Power unit

3‧‧‧CPU基板 3‧‧‧CPU substrate

4‧‧‧硬式磁碟機 4‧‧‧hard disk drive

5‧‧‧光學驅動器 5‧‧‧Optical drive

6‧‧‧冷卻扇 6‧‧‧Cooling fan

7‧‧‧EDLC(雙電層電容器) 7‧‧‧EDLC (electric double layer capacitor)

8‧‧‧電池(2次電池) 8‧‧‧Battery (2 times battery)

9‧‧‧AC/DC轉換電路 9‧‧‧AC/DC converter circuit

10‧‧‧AC電源監視電路 10‧‧‧AC power monitoring circuit

11‧‧‧EDLC切換電路 11‧‧‧EDLC switching circuit

12‧‧‧電池切換電路 12‧‧‧Battery switching circuit

13‧‧‧EDLC監視電路 13‧‧‧EDLC monitoring circuit

14‧‧‧電池監視電路 14‧‧‧Battery monitoring circuit

15‧‧‧內部控制電路 15‧‧‧Internal control circuit

16‧‧‧擴充卡 16‧‧‧Expansion card

17‧‧‧DC電源降壓電路 17‧‧‧DC power supply step-down circuit

18‧‧‧RTC及備用記憶體 18‧‧‧RTC and spare memory

19‧‧‧電源控制裝置 19‧‧‧Power control unit

20‧‧‧系統控制部 20‧‧‧System Control Department

21a‧‧‧ELDC裝卸用連接器 21a‧‧‧ELDC loading and unloading connector

21b‧‧‧電池裝卸用連接器 21b‧‧‧Battery Handling Connector

22‧‧‧DC電源切換電路 22‧‧‧DC power switching circuit

[圖1]具備是本發明的第1實施形態的電源控制裝置的資訊處理裝置的構成圖。 Fig. 1 is a configuration diagram of an information processing device including a power supply control device according to a first embodiment of the present invention.

[圖2]依本發明的第1實施形態的電源控制裝置的電源支援的流程圖。 FIG. 2 is a flowchart of power supply support of the power supply control device according to the first embodiment of the present invention.

[圖3]具備是本發明的第2實施形態的電源控制裝置的資訊處理裝置的構成圖。 FIG. 3 is a configuration diagram of an information processing device including a power supply control device according to a second embodiment of the present invention.

[圖4]依本發明的第2實施形態的電源控制裝置的電源支援的流程圖。 Fig. 4 is a flowchart showing power supply support of a power supply control device according to a second embodiment of the present invention.

[圖5]具備是本發明的第3實施形態的電源控制裝置的資訊處理裝置的構成圖。 Fig. 5 is a configuration diagram of an information processing device including a power supply control device according to a third embodiment of the present invention.

以下,針對具備實施形態的電源控制裝置的資訊處理裝置,參照圖式作說明。 Hereinafter, an information processing device including a power supply control device according to an embodiment will be described with reference to the drawings.

(第1實施形態) (First embodiment)

圖1係具備是本發明的第1實施形態的電源控制裝置的資訊處理裝置的構成圖。 Fig. 1 is a configuration diagram of an information processing device including a power supply control device according to a first embodiment of the present invention.

圖1中資訊處理裝置1,係包含電源控制裝置19與系統控制部20。電源控制裝置19係將外部的AC電源轉換成DC電源,而往系統控制部20供應DC電源的電源控制裝置。電源控制裝置19係具備電源單元2、EDLC(雙電層電容器(Electric Double Layer Capacitor))7、EDLC切換電路11、EDLC監視電路13、電池(2次電池)8、電池切換電路12。系統控制部20係藉CPU的作業系統(以下,稱作OS)而進行系統控制的處理部。系統控制部20係具備CPU基板3、硬碟4、光學驅動器5、冷卻扇6。 The information processing device 1 of Fig. 1 includes a power source control device 19 and a system control unit 20. The power source control device 19 converts the external AC power source into a DC power source, and supplies the power source control device of the DC power source to the system control unit 20. The power supply control device 19 includes a power supply unit 2, an EDLC (Electric Double Layer Capacitor) 7, an EDLC switching circuit 11, an EDLC monitoring circuit 13, a battery (secondary battery) 8, and a battery switching circuit 12. The system control unit 20 is a processing unit that performs system control by the operating system of the CPU (hereinafter referred to as OS). The system control unit 20 includes a CPU board 3, a hard disk 4, an optical drive 5, and a cooling fan 6.

電源單元2係具備AC/DC轉換電路9與AC電源監視電路10。AC/DC轉換電路9,係針對是從外部所輸入的商用電力的AC電源進行整流而轉換成DC電源的電路。AC/DC轉換電路9的輸出係連接於後述的 EDLC切換電路11。AC電源監視電路10,係如下電路:針對AC電源的AC電源電壓是否降低至小於等於預先設定的AC電源判定基準電壓值(第1基準電壓值)進行判定,從而針對AC電源是否電壓降低進行監視。檢測出AC電源的電壓降低的情況下,AC電源監視電路10係對後述的EDLC切換電路11,作為檢測信號而輸出AC電源電壓降低檢測信號。 The power supply unit 2 includes an AC/DC conversion circuit 9 and an AC power supply monitoring circuit 10. The AC/DC converter circuit 9 is a circuit that converts an AC power source of commercial power input from the outside into a DC power source. The output of the AC/DC converter circuit 9 is connected to the later-described EDLC switching circuit 11. The AC power source monitoring circuit 10 is configured to determine whether or not the AC power source voltage of the AC power source is reduced to a value equal to or smaller than a predetermined AC power source determination reference voltage value (first reference voltage value), thereby monitoring whether or not the AC power source voltage is lowered. . When the voltage drop of the AC power source is detected, the AC power source monitoring circuit 10 outputs an AC power source voltage decrease detection signal as a detection signal to the EDLC switching circuit 11 to be described later.

EDLC切換電路11係針對使往系統控制部20供應的DC電源為來自AC/DC轉換電路9的DC電源或為藉EDLC7的DC電源進行切換的電路,與EDLC7及後述的電池切換電路12連接。 The EDLC switching circuit 11 is a circuit for switching the DC power supplied to the system control unit 20 to a DC power supply from the AC/DC converter circuit 9 or a DC power supply for the EDLC 7, and is connected to the EDLC 7 and a battery switching circuit 12 to be described later.

未發生AC電源的電壓降低時,AC電源監視電路10不檢測AC電源的電壓降低,故EDLC切換電路11不由AC電源監視電路10接收AC電源電壓降低檢測信號。並且,EDLC切換電路11,係藉來自AC/DC轉換電路9的DC電源經由電池切換電路12對系統控制部20供應DC電源,同時蓄電於EDLC7。藉此,EDLC7係具有作為蓄電電路的功能。另一方面,發生AC電源的電壓降低的情況下,AC電源監視電路10會檢測AC電源的電壓降低,故EDLC切換電路11係由AC電源監視電路10接收AC電源電壓降低檢測信號。此時,EDLC切換電路11,係將經由電池切換電路12的往系統控制部20的DC電源供應,代替來自AC/DC轉換電路9的DC電源而切換成來自EDLC7的DC電源。 When the voltage of the AC power source does not decrease, the AC power source monitoring circuit 10 does not detect the voltage drop of the AC power source, so the EDLC switching circuit 11 does not receive the AC power source voltage decrease detection signal by the AC power source monitoring circuit 10. Further, the EDLC switching circuit 11 supplies DC power to the system control unit 20 via the battery switching circuit 12 via the DC power supply from the AC/DC converter circuit 9, and simultaneously stores the power to the EDLC 7. Thereby, the EDLC 7 has a function as a power storage circuit. On the other hand, when the voltage of the AC power source is lowered, the AC power source monitoring circuit 10 detects the voltage drop of the AC power source, so the EDLC switching circuit 11 receives the AC power source voltage decrease detection signal from the AC power source monitoring circuit 10. At this time, the EDLC switching circuit 11 supplies the DC power supply to the system control unit 20 via the battery switching circuit 12, and switches to the DC power supply from the EDLC 7 instead of the DC power supply from the AC/DC conversion circuit 9.

EDLC監視電路13係針對蓄於EDLC7的電荷的殘量進行監視的電路。EDLC監視電路13係藉EDLC7往系統控制部20供應DC電源時,在EDLC7的電荷的殘量降低至小於等於預先設定的判定基準電荷量的情況下,對電池切換電路12輸出表示EDLC7的電荷量降低的EDLC電荷量降低檢測信號。 The EDLC monitoring circuit 13 is a circuit that monitors the residual amount of charge stored in the EDLC 7. When the EDLC monitoring circuit 13 supplies DC power to the system control unit 20 by the EDLC 7, the amount of charge indicating the EDLC 7 is output to the battery switching circuit 12 when the residual amount of charge of the EDLC 7 is reduced to be equal to or smaller than a predetermined determination reference charge amount. The reduced EDLC charge amount reduces the detection signal.

電池切換電路12係針對使往系統控制部20的DC電源的供應為來自AC/DC轉換電路9的DC電源或來自EDLC7的DC電源、或為藉電池8的DC電源的供應進行切換的電路,連接於電池8與系統控制部20的各種電路。 The battery switching circuit 12 is a circuit for switching the supply of the DC power supply to the system control unit 20 to a DC power supply from the AC/DC conversion circuit 9 or a DC power supply from the EDLC 7, or a supply of a DC power supply by the battery 8. Various circuits are connected to the battery 8 and the system control unit 20.

電池切換電路12係從AC/DC轉換電路9接受DC電源時,對系統控制部20供應DC電源同時,對電池8充電。另一方面,發生AC電源的電壓降低,從EDLC7供應DC電源,且從EDLC監視電路13接收EDLC電荷量降低檢測信號的情況下,電池切換電路12係將往系統控制部20的DC電源供應,從EDLC7切換成電池8,切換成藉電池8的電源支援。 When receiving the DC power from the AC/DC converter circuit 9, the battery switching circuit 12 supplies the DC power to the system control unit 20 and charges the battery 8. On the other hand, when the voltage of the AC power source is lowered, the DC power source is supplied from the EDLC 7, and the EDLC charge amount decrease detection signal is received from the EDLC monitoring circuit 13, the battery switching circuit 12 supplies the DC power to the system control unit 20, Switching from EDLC 7 to battery 8 switches to power supply support by battery 8.

系統控制部20的CPU基板3,係具備內部控制電路15、擴充卡16、DC電源降壓電路17、即時時鐘電路(以下,稱作RTC)及記憶體18等。此等電路,係被從電池切換電路12供應DC電源。內部控制電路15係藉CPU的OS針對系統進行控制的電路。擴充卡16係供於擴充系統處理部20的功能用的內置印刷基板的卡。DC 電源降壓電路17係供於對後述的RTC及記憶體18供應DC電源用的電路,使電壓下降至RCT及記憶體18的動作電壓。RTC及記憶體18係如下的記憶元件:在系統控制部20未被供應DC電源,而資訊處理裝置1的系統停止的期間,藉一次電池等之DC電源(未圖示)而驅動,保存時間、資料等。RTC及記憶體18係接受藉DC電源降壓電路17而電源降壓的DC電源的供應。 The CPU board 3 of the system control unit 20 includes an internal control circuit 15, an expansion card 16, a DC power supply step-down circuit 17, an instant clock circuit (hereinafter referred to as RTC), a memory 18, and the like. These circuits are supplied with DC power from the battery switching circuit 12. The internal control circuit 15 is a circuit that controls the system by the OS of the CPU. The expansion card 16 is a card for a built-in printed circuit board for expanding the function of the system processing unit 20. DC The power supply step-down circuit 17 is provided for supplying a circuit for supplying DC power to the RTC and the memory 18 to be described later, and lowering the voltage to the operating voltages of the RCT and the memory 18. The RTC and the memory 18 are memory elements that are driven by a DC power source (not shown) such as a primary battery while the system control unit 20 is not supplying DC power, and the system of the information processing device 1 is stopped. , information, etc. The RTC and the memory 18 are supplied with a DC power supply that is stepped down by the DC power supply step-down circuit 17 and the power supply is stepped down.

此外,除上述的電路以外,硬式磁碟機4、光學驅動器5、冷卻扇6被連接於CPU基板3,被從電池切換電路12供應DC電源。 Further, in addition to the above-described circuits, the hard disk drive 4, the optical drive 5, and the cooling fan 6 are connected to the CPU board 3, and DC power is supplied from the battery switching circuit 12.

EDLC裝卸用連接器21a係安裝EDLC7的連接器,作成可從電源控制裝置19裝卸EDLC7。此外,電池裝卸用連接器21b係安裝電池8的連接器,作成可從電源控制裝置19裝卸電池8。於此,系統控制部20係從電池切換電路12接受DC電源的供應,故對於電源控制裝置19,成為負載的部分。EDLC7及電池8,係可依系統控制部20的構成(負載)而調整EDLC7、電池8等所輸出的DC電源的容量。例如,配合與硬式磁碟機4、擴充卡16等的連接數的增加,EDLC7及電池8進行與增設、大容量等者的交換,使得可變更EDLC7、電池8等所輸出的DC電源的容量。 The EDLC attaching and detaching connector 21a is a connector to which the EDLC 7 is attached, and the EDLC 7 can be attached and detached from the power source control device 19. Further, the battery attaching and detaching connector 21b is provided with a connector for mounting the battery 8, and the battery 8 can be attached and detached from the power source control device 19. Here, since the system control unit 20 receives the supply of the DC power from the battery switching circuit 12, it becomes a part of the load to the power supply control device 19. The EDLC 7 and the battery 8 can adjust the capacity of the DC power source output by the EDLC 7, the battery 8, and the like in accordance with the configuration (load) of the system control unit 20. For example, in conjunction with the increase in the number of connections to the hard disk drive 4, the expansion card 16, and the like, the EDLC 7 and the battery 8 are exchanged with an extension or a large capacity, so that the capacity of the DC power supply outputted by the EDLC 7, the battery 8, and the like can be changed. .

此外,EDLC7及電池8係裝卸時,亦可作成可分別獨立而裝卸,從而進行EDLC7、電池8等所輸出的DC電源的容量調整。此外,亦可構成使EDLC7及電 池8為一體的單元,而使得可按單元進行裝卸。 In addition, when the EDLC 7 and the battery 8 are attached or detached, they can be independently mounted and detached, thereby performing capacity adjustment of the DC power source output by the EDLC 7, the battery 8, and the like. In addition, it can also be configured to make EDLC7 and electricity The pool 8 is an integral unit that allows loading and unloading in units.

圖2係第1實施形態的電源控制裝置19的電源支援的流程圖。參照流程圖說明關於本實施形態的作用。 Fig. 2 is a flowchart showing power supply support of the power supply control device 19 of the first embodiment. The action of this embodiment will be described with reference to a flowchart.

本實施形態的電源控制裝置19,係在電源單元2內的AC/DC轉換電路9中將從外部所供應的電源的AC電源轉換成DC電源。電源單元2係針對以AC/DC轉換電路9所轉換的DC電源,經由EDLC切換電路11及電池切換電路12對系統控制部20開始供應(步驟S1)。並且,接受DC電源的供應的系統控制部20係啟動CPU的OS(步驟S2)。以AC/DC轉換電路9所轉換的DC電源,係供應至系統控制部20,同時經由EDLC切換電路11而供應至EDLC7,蓄電於EDLC7,進一步經由電池切換電路12而往電池8,將電池8充電(步驟S3)。 The power source control device 19 of the present embodiment converts the AC power source of the power source supplied from the outside into the DC power source in the AC/DC converter circuit 9 in the power source unit 2. The power supply unit 2 supplies the DC power supply converted by the AC/DC conversion circuit 9 to the system control unit 20 via the EDLC switching circuit 11 and the battery switching circuit 12 (step S1). Then, the system control unit 20 that receives the supply of the DC power source activates the OS of the CPU (step S2). The DC power source converted by the AC/DC converter circuit 9 is supplied to the system control unit 20, supplied to the EDLC 7 via the EDLC switching circuit 11, stored in the EDLC 7, and further passed through the battery switching circuit 12 to the battery 8 to discharge the battery 8. Charging (step S3).

此外,AC電源監視電路10係監視AC電源的狀態,針對AC電源的AC電源電壓是否降低至小於等於預先設定的AC電源判定基準電壓值(第1基準電壓值)(AC電源電壓是否電壓降低)進行判定(步驟S4)。未判定為AC電源電壓降低至小於等於AC電源判定基準電壓值(第1基準電壓值)的情況下,亦即AC電源電壓未被認為電壓降低時(步驟S4的NO),係不輸出AC電源電壓降低檢測信號。藉此,從AC/DC轉換電路9,繼續往EDLC7、電池8、系統控制部20供應DC電 源。另一方面,AC電源監視電路10,係判定為AC電源電壓降低至小於等於AC電源判定基準電壓值的情況(步驟S4的YES)下,對EDLC切換電路11輸出AC電源電壓降低檢測信號。 Further, the AC power source monitoring circuit 10 monitors the state of the AC power source, and determines whether or not the AC power source voltage of the AC power source is reduced to be equal to or smaller than a predetermined AC power source determination reference voltage value (first reference voltage value) (whether the AC power source voltage is lowered or not) A determination is made (step S4). When it is not determined that the AC power source voltage has decreased to be equal to or less than the AC power source determination reference voltage value (first reference voltage value), that is, when the AC power source voltage is not considered to be a voltage drop (NO in step S4), the AC power source is not output. Voltage reduction detection signal. Thereby, DC power is continuously supplied from the AC/DC conversion circuit 9 to the EDLC 7, the battery 8, and the system control unit 20. source. On the other hand, when the AC power source monitoring circuit 10 determines that the AC power source voltage has decreased to be equal to or lower than the AC power source determination reference voltage value (YES in step S4), the AC power source voltage drop detection signal is output to the EDLC switching circuit 11.

EDLC切換電路11,係從AC電源監視電路10接收AC電源電壓降低檢測信號時,代替來自AC/DC轉換電路9的DC電源的供應,而將蓄電電路的EDLC7的DC電源供應至系統控制部20,從而進行藉EDLC7的電源支援(步驟S5)。 When receiving the AC power source voltage decrease detection signal from the AC power source monitoring circuit 10, the EDLC switching circuit 11 supplies the DC power of the EDLC 7 of the power storage circuit to the system control unit 20 instead of the supply of the DC power source from the AC/DC converter circuit 9. Thereby, power supply support by the EDLC 7 is performed (step S5).

接著,EDLC監視電路13,係針對電源支援中的蓄電電路的EDLC7的電荷的容量(殘量)進行監視,判定是否降低至小於等於預先設定的判定基準電荷容量的容量(步驟S6)。 Then, the EDLC monitoring circuit 13 monitors the capacity (residual amount) of the electric charge of the EDLC 7 of the electric storage circuit during power supply support, and determines whether or not the capacity is reduced to a capacity equal to or smaller than a predetermined determination reference charge capacity (step S6).

於EDLC監視電路13,判定為EDLC7的容量超過判定基準電荷容量(步驟S6的NO),且於AC電源監視電路10持續判定AC電源電壓在電壓降低的情況(步驟S7的YES)下,係持續來自EDLC7的電源支援。另一方面,於AC電源監視電路10檢測出AC電源電壓的復電的情況下,亦即AC電源監視電路10判定為AC電源電壓恢復成超過AC電源判定基準電壓值(第1基準電壓值)的值的情況(步驟S7的NO)下,AC電源監視電路10,係停止往EDLC切換電路11的AC電源電壓降低檢測信號的輸出。EDLC切換電路11係來自AC電源監視電路10的AC電源電壓降低檢測信號的輸出被停止時,切 換為將往系統控制部20的DC電源供應,從蓄電電路的EDLC7,恢復至電源單元2的AC/DC轉換電路9。 In the EDLC monitoring circuit 13, it is determined that the capacity of the EDLC 7 exceeds the determination reference charge capacity (NO in step S6), and the AC power source monitoring circuit 10 continues to determine that the AC power source voltage is decreasing in voltage (YES in step S7). Power support from EDLC7. On the other hand, when the AC power source monitoring circuit 10 detects the reconnection of the AC power source voltage, that is, the AC power source monitoring circuit 10 determines that the AC power source voltage has recovered to exceed the AC power source determination reference voltage value (first reference voltage value). In the case of the value (NO in step S7), the AC power source monitoring circuit 10 stops the output of the AC power source voltage drop detection signal to the EDLC switching circuit 11. When the output of the AC power source voltage drop detection signal from the AC power source monitoring circuit 10 is stopped, the EDLC switching circuit 11 is cut. The DC power supply to the system control unit 20 is switched to the AC/DC conversion circuit 9 of the power supply unit 2 from the EDLC 7 of the power storage circuit.

此外,於步驟S6,EDLC監視電路13判定為EDLC7的容量低於小於等於判定基準電荷容量的情況(步驟S6的YES)下,EDLC監視電路13係對電池切換電路12作為檢測信號而輸出EDLC電荷量降低檢測信號。接收EDLC電荷量降低檢測信號的電池切換電路12,係切換成代替EDLC7而從電池8供應DC電源,亦即切換成藉電池8的支援(步驟S8),從電池8對系統控制部20供應DC電源(步驟S9)。 Further, in step S6, the EDLC monitoring circuit 13 determines that the capacity of the EDLC 7 is lower than or equal to the determination reference charge capacity (YES in step S6), and the EDLC monitoring circuit 13 outputs the EDLC charge as the detection signal to the battery switching circuit 12. The amount is reduced by the detection signal. The battery switching circuit 12 that receives the EDLC charge amount decrease detection signal switches to supply DC power from the battery 8 instead of the EDLC 7, that is, switches to support by the battery 8 (step S8), and supplies the DC to the system control unit 20 from the battery 8. Power supply (step S9).

針對本實施形態,使AC電源的電壓降低係除電壓的降低以外,亦包含不足1秒的停電(以下,稱作瞬停)、大於等於1秒的停電者。此外,於其他實施形態亦作成如此。 In the present embodiment, the voltage drop of the AC power source is reduced by a voltage, and includes a power failure of less than one second (hereinafter referred to as instantaneous stop) and a power failure of one second or more. In addition, this is also the case in other embodiments.

藉此本實施形態係瞬停等可僅以來自EDLC7的電源供應而支援系統控制部20的情況下,可不進行來自電池8的電源供應,而進行電源的支援。此外,一般瞬停係發生頻率比大於等於1秒的停電多,故僅藉EDLC7的電源供應的機會變多。由此,與僅電池8的電源供應比較下,電池的充放電次數會減少,故具有可使電池8長壽命化的效果。 In the present embodiment, when the system control unit 20 is supported by the power supply from the EDLC 7 only in the case of the instantaneous stop or the like, the power supply can be supported without the power supply from the battery 8. In addition, the general instantaneous stop system occurs more frequently than the power failure of 1 second or more, so the opportunity to supply power only by the EDLC7 increases. Thereby, compared with the power supply of the battery 8 alone, the number of times of charge and discharge of the battery is reduced, so that the battery 8 can have a long life.

(第2實施形態) (Second embodiment)

圖3係示出第2實施形態的構成者。本實施形態係於 第1實施形態的電源控制裝置附加電池監視電路14的構成。電池監視電路14,係供應來自電池8的DC電源時,監視電池8的電壓,電池8的電壓降低至小於等於預先設定的電池判定基準電壓值(第2基準電壓值)的情況下,對CPU基板3的內部控制電路15輸出表示電池8的電壓降低的電池電壓降低檢測信號。 Fig. 3 shows the constituents of the second embodiment. This embodiment is based on The power supply control device according to the first embodiment is configured by adding a battery monitoring circuit 14. The battery monitoring circuit 14 monitors the voltage of the battery 8 when the DC power supply from the battery 8 is supplied, and when the voltage of the battery 8 falls below a predetermined battery determination reference voltage value (second reference voltage value), the CPU monitors the CPU. The internal control circuit 15 of the substrate 3 outputs a battery voltage drop detection signal indicating that the voltage of the battery 8 is lowered.

內部控制電路15,係被經由電池切換電路12從電池8供應DC電源,針對硬碟4、光學驅動器5進行控制。內部控制電路15,係從電源單元2內的AC電源監視電路10接收AC電源電壓降低檢測信號,且從電池監視電路14接收電池電壓降低檢測信號的情況下,將CPU的OS關閉,OS的關閉結束後,為了停止DC電源的輸出而將DC電源輸出控制信號,輸出至電源單元2內的AC/DC轉換電路9及電池切換電路12。於此,設成至少OS的關閉的處理係含於OS的控制處理。 The internal control circuit 15 is supplied with DC power from the battery 8 via the battery switching circuit 12, and is controlled for the hard disk 4 and the optical drive 5. The internal control circuit 15 receives the AC power supply voltage decrease detection signal from the AC power supply monitoring circuit 10 in the power supply unit 2, and receives the battery voltage decrease detection signal from the battery monitoring circuit 14, turns off the OS of the CPU, and turns off the OS. After the end, the DC power supply output control signal is output to the AC/DC converter circuit 9 and the battery switching circuit 12 in the power source unit 2 in order to stop the output of the DC power source. Here, it is assumed that at least the processing of closing the OS is included in the control processing of the OS.

此外,於本實施形態,係如同第1實施形態,RTC及記憶體18係從電池切換電路12接受DC電源,接受以DC電源降壓電路17予以電源降壓的DC電源的供應。 Further, in the present embodiment, as in the first embodiment, the RTC and the memory 18 receive DC power from the battery switching circuit 12, and receive the supply of the DC power supply that is stepped down by the DC power supply step-down circuit 17.

再者,於本實施形態,係如同第1實施形態,亦可作成可使EDLC7及電池8可從本實施形態的電源控制裝置進行裝卸,而依系統控制部20的構成(負載)調整EDLC7、電池8等所輸出的DC電源的容量。裝卸時,亦可作成EDLC7及電池8係可分別獨立而裝卸, 而進行EDLC7、電池8等所輸出的DC電源的容量調整。此外,亦可構成使EDLC7及電池8為一體的單元,而使得可按單元進行裝卸。 Further, in the present embodiment, as in the first embodiment, the EDLC 7 and the battery 8 can be detached from the power supply control device of the present embodiment, and the EDLC 7 can be adjusted depending on the configuration (load) of the system control unit 20. The capacity of the DC power source output by the battery 8 or the like. When loading and unloading, it can also be made into EDLC7 and battery 8 series, which can be independently loaded and unloaded. The capacity of the DC power source outputted by the EDLC 7, the battery 8, and the like is adjusted. Further, it is also possible to constitute a unit in which the EDLC 7 and the battery 8 are integrated, so that the unit can be attached and detached.

圖4係第2實施形態的電源控制裝置的電源支援的流程圖。參照流程圖說明關於本實施形態的作用。 Fig. 4 is a flowchart showing power supply support of the power supply control device according to the second embodiment. The action of this embodiment will be described with reference to a flowchart.

本實施形態的流程圖,係第1實施形態的至來自電池8的支援切換的往系統控制部20的電源供應的步驟S1至步驟S9,係與第1實施形態相同的處理故省略說明。 In the flowchart of the present embodiment, the steps S1 to S9 of the power supply to the system control unit 20 for the support switching from the battery 8 in the first embodiment are the same as those in the first embodiment, and the description thereof will be omitted.

電池切換電路12為了進行藉電池8的支援而進行切換(步驟S8),對系統控制部20供應電池8的DC電源時(步驟S9),電池監視電路14監視電源支援中的電池28的DC電源的電壓,判定電池8的DC電源的電壓是否降低至小於等於電池判定基準電壓值(第2基準電壓值)(步驟S10)。 The battery switching circuit 12 switches to support the battery 8 (step S8), and when the system control unit 20 supplies the DC power of the battery 8 (step S9), the battery monitoring circuit 14 monitors the DC power of the battery 28 in the power supply support. The voltage determines whether or not the voltage of the DC power source of the battery 8 has decreased to be equal to or less than the battery determination reference voltage value (second reference voltage value) (step S10).

於電池監視電路14,判斷為電池8的電壓超過電池判定基準電壓值(第2基準電壓值)(步驟S10的NO)且於AC電源監視電路10持續判斷為AC電源電壓在電壓降低的情況下,亦即AC電源監視電路10持續判定AC電源電壓為小於等於AC電源判定基準電壓值(第1基準電壓值)的情況(步驟S11的YES)下係使從電池8供應DC電源的電源支援繼續。 The battery monitoring circuit 14 determines that the voltage of the battery 8 exceeds the battery determination reference voltage value (second reference voltage value) (NO in step S10), and the AC power source monitoring circuit 10 continues to determine that the AC power source voltage is decreasing in voltage. In other words, when the AC power source monitoring circuit 10 continues to determine that the AC power source voltage is equal to or less than the AC power source determination reference voltage value (first reference voltage value) (YES in step S11), the power supply support for supplying the DC power source from the battery 8 is continued. .

另一方面,AC電源監視電路10檢測出AC電源電壓的復電的情況下,亦即,AC電源監視電路10判 定為AC電源電壓恢復成超過AC電源判定基準電壓值(第1基準電壓值)的值的情況(步驟S11的NO)下,AC電源監視電路10係使往EDLC切換電路11及電池切換電路12的AC電源電壓降低檢測信號的輸出停止。電池切換電路12係來自AC電源監視電路10的AC電源電壓降低檢測信號的輸出被停止時,切換為將往系統控制部20的DC電源供應,從來自電池8的DC電源供應,恢復至從電源單元2的AC/DC轉換電路9的DC電源供應。 On the other hand, when the AC power source monitoring circuit 10 detects the re-powering of the AC power source voltage, that is, the AC power source monitoring circuit 10 determines When the AC power source voltage is restored to a value exceeding the AC power source determination reference voltage value (first reference voltage value) (NO in step S11), the AC power source monitoring circuit 10 is configured to switch the EDLC switching circuit 11 and the battery switching circuit 12 to The output of the AC power supply voltage drop detection signal stops. When the output of the AC power source voltage decrease detection signal from the AC power source monitoring circuit 10 is stopped, the battery switching circuit 12 is switched to the DC power supply to the system control unit 20, and is restored from the DC power supply from the battery 8 to the slave power source. The DC power supply of the AC/DC conversion circuit 9 of the unit 2.

此外,於步驟S10,電池監視電路14判斷為電池8的電壓低於小於等於電池判定基準電壓值(第2基準電壓值)的情況(步驟S10的YES)下,電池監視電路14係對CPU基板3內的內部控制電路15輸出電池電壓降低檢測信號。接收電池電壓降低檢測信號的內部控制電路15,係強制開始OS的關閉處理(步驟S12),而使OS的關閉處理結束(步驟S13)。使OS的關閉處理結束後(步驟S13),電源單元2內的AC電源監視電路10,係判定AC電源的電壓降低是否持續(步驟S14)。 Further, in step S10, when the battery monitoring circuit 14 determines that the voltage of the battery 8 is lower than or equal to the battery determination reference voltage value (second reference voltage value) (YES in step S10), the battery monitoring circuit 14 is paired with the CPU substrate. The internal control circuit 15 in 3 outputs a battery voltage decrease detection signal. The internal control circuit 15 that receives the battery voltage decrease detection signal forcibly starts the shutdown processing of the OS (step S12), and ends the shutdown processing of the OS (step S13). After the closing process of the OS is completed (step S13), the AC power source monitoring circuit 10 in the power source unit 2 determines whether or not the voltage drop of the AC power source continues (step S14).

於此判定,持續判定AC電源電壓在電壓降低的情況,係AC電源監視電路10持續判定AC電源電壓為小於等於AC電源判定基準電壓值(第1基準電壓值)的情況(步驟S14的YES)。此情況下,係AC電源監視電路10係將AC電源電壓降低檢測信號輸出至內部控制電路15。從AC電源監視電路10接收AC電源電壓降低檢測信號的內部控制電路15係將連接於CPU基板3的電路 的位址設定為1後,對電池切換電路12輸出電源供應停止的DC電源輸出控制信號。藉此,藉電池8的往系統控制部20的DC電源的供應被停止(步驟S16)。另一方面,於AC電源監視電路10判定為AC電源恢復的情況下,亦即AC電源監視電路10判定為AC電源電壓恢復成超過AC電源判定基準電壓值(第1基準電壓值)的值的情況(步驟S14的NO)下,AC電源監視電路10係停止往內部控制電路15的AC電源電壓降低檢測信號的輸出。內部控制電路15係來自AC電源監視電路10的AC電源電壓降低檢測信號的輸出被停止時,對連接於CPU基板3的電路的位址輸入0而重置(步驟S15)。之後,由於AC電源的恢復,電源單元2係針對DC電源,經由EDLC切換電路11及電池切換電路12對系統控制部20開始供應(步驟S1)。內部控制電路15,係從電源單元2恢復DC電源的供應,再啟動CPU的OS(步驟S2)。 When it is determined that the AC power supply voltage is decreasing in voltage, the AC power source monitoring circuit 10 continues to determine that the AC power source voltage is equal to or smaller than the AC power source determination reference voltage value (first reference voltage value) (YES in step S14). . In this case, the AC power source monitoring circuit 10 outputs an AC power source voltage decrease detection signal to the internal control circuit 15. The internal control circuit 15 that receives the AC power source voltage decrease detection signal from the AC power source monitoring circuit 10 is a circuit that is connected to the CPU substrate 3. When the address of the address is set to 1, the DC power supply output control signal for stopping the power supply to the battery switching circuit 12 is output. Thereby, the supply of the DC power source to the system control unit 20 by the battery 8 is stopped (step S16). On the other hand, when the AC power source monitoring circuit 10 determines that the AC power source has been restored, that is, the AC power source monitoring circuit 10 determines that the AC power source voltage has recovered to a value exceeding the AC power source determination reference voltage value (first reference voltage value). In the case (NO in step S14), the AC power source monitoring circuit 10 stops the output of the AC power source voltage drop detection signal to the internal control circuit 15. When the output of the AC power source voltage decrease detection signal from the AC power source monitoring circuit 10 is stopped, the internal control circuit 15 inputs 0 to the address of the circuit connected to the CPU board 3 (step S15). Thereafter, the power supply unit 2 supplies the system control unit 20 to the system control unit 20 via the EDLC switching circuit 11 and the battery switching circuit 12 due to the recovery of the AC power supply (step S1). The internal control circuit 15 restores the supply of the DC power from the power supply unit 2, and restarts the OS of the CPU (step S2).

另外,OS關閉處理結束後AC電源恢復的情況(步驟S14的NO)下,內部控制電路15,係為了使小於等於第1判定基準電壓值的電壓及小於等於第2判定基準電壓值的電壓不會被施加至系統處理部20,而對AC/DC轉換電路9及電池切換電路12輸出電源供應停止的DC電源輸出控制信號,暫時停止往系統控制部20的DC電源的供應亦可。之後,內部控制電路15係停止DC電源輸出控制信號的輸出,從電源單元2使DC電源的供應恢復(步驟S1),可將OS再啟動(步驟S2)。 When the AC power supply is restored after the OS shutdown process is completed (NO in step S14), the internal control circuit 15 does not set the voltage equal to or lower than the first determination reference voltage value and the voltage equal to or lower than the second determination reference voltage value. The system processing unit 20 is applied to the AC/DC converter circuit 9 and the battery switching circuit 12 to output a DC power source output control signal for stopping the power supply, and the supply of the DC power to the system control unit 20 may be temporarily stopped. Thereafter, the internal control circuit 15 stops the output of the DC power supply output control signal, and restores the supply of the DC power supply from the power supply unit 2 (step S1), and restarts the OS (step S2).

此外,於本實施形態,係從內部控制電路15從電池監視電路14接收電池電壓降低檢測信號的情況下,開始OS的關閉處理(步驟12),惟亦可在關閉處理前,設成睡眠模式、休止狀態等之省電狀態,等待AC電源的恢復,未恢復的情況下,進行關閉處理。作成於此等OS的控制處理至少含有OS的關閉處理。 Further, in the present embodiment, when the internal control circuit 15 receives the battery voltage decrease detection signal from the battery monitoring circuit 14, the OS shutdown process is started (step 12), but it is also possible to set the sleep mode before the shutdown process. In the power-saving state such as the rest state, waiting for the recovery of the AC power supply, and if it is not restored, the shutdown process is performed. The control processing for such OSs includes at least the shutdown processing of the OS.

根據以上,本實施形態,係具有如下的效果:OS關閉後,監視外部電源的電壓,判斷為復電的情況下係可自動恢復來自電源單元2的DC電源輸出。 As described above, the present embodiment has an effect that the voltage of the external power source is monitored after the OS is turned off, and when it is determined that the power is restored, the DC power source output from the power source unit 2 can be automatically restored.

此外,本實施形態,係具有如下的效果:停電長時間持續,發生電池8的電源容量不足所致的電壓降低,回避系統控制部20的CPU的OS未被正常結束的事態。此外,亦避免電池8被完全放電而使得壽命降低。 Further, in the present embodiment, there is an effect that the power failure is continued for a long period of time, and the voltage drop due to the shortage of the power supply capacity of the battery 8 occurs, and the OS of the CPU of the avoidance system control unit 20 is not normally terminated. In addition, the battery 8 is also prevented from being completely discharged, resulting in a reduced life.

再者,本實施形態係如同第1實施形態,瞬停等可僅以來自EDLC7的電源供應而支援系統控制部20的情況下,可不進行來自電池8的電源供應,而進行電源的支援。由此與僅電池8的電源供應比較下,電池的充放電次數會減少,故具有可使電池長壽命化的效果。 In the present embodiment, as in the first embodiment, when the system control unit 20 is supported by the power supply from the EDLC 7 only, the power supply can be performed without the power supply from the battery 8. Therefore, compared with the power supply of only the battery 8, the number of times of charge and discharge of the battery is reduced, so that the battery can be extended in life.

(第3實施形態) (Third embodiment)

圖5係示出第3實施形態的構成者。本實施形態係於第2實施形態進一步具備從電池8直接供應往RTC及記憶體18的電源供應的DC電源切換電路22。DC電源切換電路22,係於AC電源檢測出低於第1基準電壓值的電壓 降低的情況下,從電池8往RTC及記憶體18直接供應DC電源。 Fig. 5 shows the constituents of the third embodiment. In the second embodiment, the DC power supply switching circuit 22 that supplies power directly from the battery 8 to the RTC and the memory 18 is further provided. The DC power switching circuit 22 detects that the AC power source detects a voltage lower than the first reference voltage value. In the case of a decrease, DC power is directly supplied from the battery 8 to the RTC and the memory 18.

從外部的AC電源進行DC電源供應的情況下,往RCT及記憶體18所供應的DC電源係經由電池切換電路12而供應。於此,在AC電源監視電路10判定為AC電源的電壓降低低於AC電源判定基準電壓值(第1基準電壓值)的情況下,從AC電源監視電路10對DC電源切換電路22輸出AC電源電壓降低檢測信號。DC電源切換電路22,係從接收來自AC電源監視電路10的AC電源電壓降低檢測信號時,切換成不經由電池切換電路12,而從電池8直接將電池8的DC電源供應至DC電源降壓電路17。之後,AC電源的電壓超過AC電源判定基準電壓值(第1基準電壓值)的情況下,DC電源切換電路22係切換成經由電池切換電路12,而往RTC及記憶體18接受DC電源的供應。 When DC power supply is performed from an external AC power source, the DC power supplied to the RCT and the memory 18 is supplied via the battery switching circuit 12. When the AC power source monitoring circuit 10 determines that the voltage of the AC power source is lower than the AC power source determination reference voltage value (first reference voltage value), the AC power source monitoring circuit 10 outputs the AC power to the DC power source switching circuit 22. Voltage reduction detection signal. The DC power supply switching circuit 22 switches from receiving the DC power supply of the battery 8 to the DC power supply from the battery 8 without receiving the AC power supply voltage decrease detection signal from the AC power supply monitoring circuit 10 without passing through the battery switching circuit 12. Circuit 17. When the AC power supply voltage exceeds the AC power supply determination reference voltage value (first reference voltage value), the DC power supply switching circuit 22 is switched to receive the DC power supply to the RTC and the memory 18 via the battery switching circuit 12. .

此外,AC電源的電壓降低持續,電池8的電壓低於電池判定基準電壓值(第2基準電壓值),內部控制電路15結束OS的關閉處理的情況下,DC電源切換電路22係切換成從電池8直接將電池8的DC電源供應至DC電源降壓電路17。RTC及記憶體18係消耗電力比內部控制電路15、擴充卡等小,故資訊處理裝置1停止的期間,即使電池8的電壓低於電池判定基準電壓值(第2基準電壓值),以依電池8的殘留的容量的電壓仍可充分保存資料。 Further, when the voltage drop of the AC power source continues, the voltage of the battery 8 is lower than the battery determination reference voltage value (second reference voltage value), and the internal control circuit 15 ends the shutdown processing of the OS, the DC power supply switching circuit 22 switches to the slave. The battery 8 directly supplies the DC power of the battery 8 to the DC power supply step-down circuit 17. Since the power consumption of the RTC and the memory 18 is smaller than that of the internal control circuit 15, the expansion card, etc., even if the voltage of the battery 8 is lower than the battery determination reference voltage value (second reference voltage value) during the period in which the information processing device 1 is stopped, The voltage of the residual capacity of the battery 8 can still sufficiently preserve the data.

此外,OS關閉處理後,AC電源恢復的情況下,係往RCT及記憶體18的電源供應變成來自AC電源的電源供應,再度切換往來自電池切換電路12的電源供應。 Further, when the AC power is restored after the OS is turned off, the power supply to the RCT and the memory 18 becomes the power supply from the AC power source, and is again switched to the power supply from the battery switching circuit 12.

藉此本實施形態,係資訊處理裝置的電源供應停止後仍可從電池8往RTC及記憶體18供應電源。為此,使得可節省一般使用的1次電池等。 According to this embodiment, power can be supplied from the battery 8 to the RTC and the memory 18 after the power supply of the information processing apparatus is stopped. For this reason, it is possible to save a primary battery or the like which is generally used.

本實施形態,係如同第1實施形態及第2實施形態,亦可作成可使EDLC7及電池8可從本實施形態的電源控制裝置進行裝卸,而依系統控制部20的構成(負載)調整EDLC7、電池8等所輸出的DC電源的容量。裝卸時,亦可作成EDLC7及電池8係可分別獨立而裝卸,而進行EDLC7、電池8等所輸出的DC電源的容量調整。此外,亦可構成使EDLC7及電池8為一體的單元,而使得可按單元進行裝卸。 In the present embodiment, as in the first embodiment and the second embodiment, the EDLC 7 and the battery 8 can be detached from the power supply control device of the present embodiment, and the EDLC 7 can be adjusted depending on the configuration (load) of the system control unit 20. The capacity of the DC power source output by the battery 8, etc. At the time of loading and unloading, the EDLC 7 and the battery 8 can be independently mounted and unloaded, and the capacity of the DC power source outputted by the EDLC 7 or the battery 8 can be adjusted. Further, it is also possible to constitute a unit in which the EDLC 7 and the battery 8 are integrated, so that the unit can be attached and detached.

另外,針對第1實施形態至第3實施形態,電源控制裝置,係雖存在於與系統控制部20相同的框體內,惟亦可作成作為來自外部的連接的不間斷電源裝置而獨立的框體。 In addition, in the first embodiment to the third embodiment, the power source control device is housed in the same casing as the system control unit 20, but may be an independent frame that is an uninterruptible power supply device connected from the outside. .

此外,針對第1實施形態至第3實施形態,雖舉EDLC作說明,惟只要為電容器,無須限定為EDLC。 In addition, in the first embodiment to the third embodiment, the EDLC is described, but the capacitor is not limited to the EDLC.

雖就本發明之幾個實施形態作了說明,惟此等實施形態係作為例子而提示者,並未意圖限定發明之範 圍。此等新穎的實施形態,係能以其他的各種形態作實施,在不脫離發明之要旨的範圍下,可進行各種的省略、置換、變更。此等實施形態和其變化係包含於發明之範圍和要旨,同時包含於申請專利範圍所記載之發明與其均等之範圍。 Although the embodiments of the present invention have been described, the embodiments are presented as examples and are not intended to limit the scope of the invention. Wai. The present invention can be implemented in various other forms, and various omissions, substitutions and changes can be made without departing from the scope of the invention. These embodiments and variations thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims.

1‧‧‧資訊處理裝置 1‧‧‧Information processing device

2‧‧‧電源單元 2‧‧‧Power unit

3‧‧‧CPU基板 3‧‧‧CPU substrate

4‧‧‧硬式磁碟機 4‧‧‧hard disk drive

5‧‧‧光學驅動器 5‧‧‧Optical drive

6‧‧‧冷卻扇 6‧‧‧Cooling fan

7‧‧‧EDLC(雙電層電容器) 7‧‧‧EDLC (electric double layer capacitor)

8‧‧‧電池(2次電池) 8‧‧‧Battery (2 times battery)

9‧‧‧AC/DC轉換電路 9‧‧‧AC/DC converter circuit

10‧‧‧AC電源監視電路 10‧‧‧AC power monitoring circuit

11‧‧‧EDLC切換電路 11‧‧‧EDLC switching circuit

12‧‧‧電池切換電路 12‧‧‧Battery switching circuit

13‧‧‧EDLC監視電路 13‧‧‧EDLC monitoring circuit

15‧‧‧內部控制電路 15‧‧‧Internal control circuit

16‧‧‧擴充卡 16‧‧‧Expansion card

17‧‧‧DC電源降壓電路 17‧‧‧DC power supply step-down circuit

18‧‧‧RTC及備用記憶體 18‧‧‧RTC and spare memory

19‧‧‧電源控制裝置 19‧‧‧Power control unit

20‧‧‧系統控制部 20‧‧‧System Control Department

21a‧‧‧ELDC裝卸用連接器 21a‧‧‧ELDC loading and unloading connector

21b‧‧‧電池裝卸用連接器 21b‧‧‧Battery Handling Connector

Claims (9)

一種電源控制裝置,從外部電源接受電源供應,往資訊處理裝置的系統控制部供應電源,具備:從前述外部電源接受電源供應而蓄電的電容器;從前述外部電源接受電源供應而充電的電池;針對前述外部電源的電壓值是否成為小於等於既定的第1基準電壓值進行判定的外部電源監視手段;藉前述外部電源監視手段而判定為前述外部電源的電壓值為小於等於既定的第1基準電壓值時,將對於前述系統控制部的電源供應,從藉前述外部電源的電源供應切換成藉前述電容器的電源供應的第1切換手段;來自前述電容器的電源供應時,針對前述電容器的電荷量是否成為小於等於既定的基準電荷量進行判定的電容器監視手段;前述電容器監視手段判定為前述電容器的電荷量成為小於等於前述既定的基準電荷量時,將對於前述系統控制部的電源供應,從藉前述電容器的電源供應切換成藉前述電池的電源供應的第2切換手段;以及將藉前述第2切換手段的輸出電源供應至前述系統控制部的電源供應手段;其中,前述系統控制部,係具備將前述外部電源的電壓值成為小於等於既定的第1基準電壓值時的該資訊處理裝置的資料作保存的記憶元件,前述電源控制裝置,係進一步具備藉前述外部電源監 視手段而判定為前述外部電源的電壓值成為小於等於前述第1基準電壓值時,將藉前述電池的電源供應直接供應至前述記憶元件的DC電源切換手段。 A power supply control device that receives power supply from an external power source and supplies power to a system control unit of the information processing device, includes: a capacitor that receives power supply from the external power source and stores power; and a battery that receives power from the external power source and is charged; Whether the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value; and the external power source monitoring means determines that the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value When the power supply to the system control unit is switched from the power supply of the external power source to the first power supply by the power supply of the capacitor, and when the power supply from the capacitor is supplied, whether the charge amount of the capacitor is a capacitor monitoring means for determining a predetermined reference charge amount; wherein when the capacitor monitoring means determines that the charge amount of the capacitor is equal to or less than the predetermined reference charge amount, the power supply to the system control unit is borrowed from the capacitor a second switching means for switching the power supply to the power supply of the battery; and a power supply means for supplying the output power of the second switching means to the system control unit; wherein the system control unit is provided A memory element for storing information of the information processing device when the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value, and the power source control device further includes the external power supply When it is determined by the means that the voltage value of the external power source is equal to or less than the first reference voltage value, the power supply of the battery is directly supplied to the DC power source switching means of the memory element. 如申請專利範圍第1項之電源控制裝置,其中,前述電容器,係可與前述第1切換手段作裝卸。 The power supply control device according to claim 1, wherein the capacitor is detachable from the first switching means. 如申請專利範圍第1或2項之電源控制裝置,其中,前述電池,係可與前述第2切換手段作裝卸。 The power source control device according to claim 1 or 2, wherein the battery is detachable from the second switching means. 如申請專利範圍第1項之電源控制裝置,其中,構成連接於前述第1切換手段的前述電容器、連接於前述第2切換手段的前述電池成為一體的單元,前述單元可與前述第1切換手段及第2切換手段作裝卸。 The power supply control device according to claim 1, wherein the capacitor connected to the first switching means and the battery connected to the second switching means are integrated, and the unit is connectable to the first switching means And the second switching means is used for loading and unloading. 如申請專利範圍第1項之電源控制裝置,其進一步具備:來自前述電池的電源供應時,針對前述電池的電壓值是否成為小於等於既定的第2基準電壓值進行判定的電池監視手段;以及前述電池監視手段判定為前述電池的電壓值成為小於等於既定的第2基準電壓值時,將判定結果輸出至系統控制部的通知手段。 The power supply control device according to the first aspect of the invention, further comprising: a battery monitoring means for determining whether a voltage value of the battery is equal to or smaller than a predetermined second reference voltage value when the power supply of the battery is supplied; and When the battery monitoring means determines that the voltage value of the battery is equal to or smaller than a predetermined second reference voltage value, the determination result is output to the system control unit. 一種資訊處理裝置,具備系統控制部、從外部電源接受電源供應而往前述系統控制部供應電源的電源控制裝置,前述電源控制裝置,係具備: 從前述外部電源接受電源供應而蓄電的電容器;從前述外部電源接受電源供應而充電的電池;針對前述外部電源的電壓值是否成為小於等於既定的第1基準電壓值進行判定的外部電源監視手段;藉前述外部電源監視手段而判定為前述外部電源的電壓值為小於等於既定的第1基準電壓值時,將對於前述系統控制部的電源供應,從藉前述外部電源的電源供應切換成藉電容器的電源供應的第1切換手段;來自前述電容器的電源供應時,針對前述電容器的電荷量是否成為小於等於既定的基準電荷量進行判定的電容器監視手段;前述電容器監視手段判定為電容器的電荷量成為小於等於既定的基準電荷量時,將對於前述系統控制部的電源供應,從藉前述電容器的電源供應切換成藉電池的電源供應的第2切換手段;以及將藉前述第2切換手段的輸出電源供應至前述系統控制部的電源供應手段;其中,前述系統控制部,係具備將前述外部電源的電壓值成為小於等於既定的第1基準電壓值時的該資訊處理裝置的資料作保存的記憶元件,前述電源控制裝置,係進一步具備藉前述外部電源監視手段而判定為前述外部電源的電壓值成為小於等於前述第1基準電壓值時,將藉前述電池的電源供應直接供應至前述記憶元件的DC電源切換手段。 An information processing device includes a system control unit, a power control device that receives power supply from an external power source, and supplies power to the system control unit, and the power control device includes: a capacitor that receives power supply from the external power source and that is charged by the external power source; and an external power source monitoring device that determines whether the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value; When it is determined by the external power source monitoring means that the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value, the power supply to the system control unit is switched from the power supply of the external power source to the capacitor. The first switching means of the power supply; the capacitor monitoring means for determining whether or not the amount of charge of the capacitor is equal to or smaller than a predetermined reference charge amount when the power supply of the capacitor is supplied; and the capacitor monitoring means determines that the charge amount of the capacitor is smaller than When the amount is equal to the predetermined reference charge amount, the power supply to the system control unit is switched from the power supply of the capacitor to the second switching means of the power supply by the battery; and the output power supply by the second switching means is supplied. To the aforementioned system The power supply means of the system, wherein the system control unit includes a memory element for storing data of the information processing device when the voltage value of the external power source is equal to or smaller than a predetermined first reference voltage value, and the power supply control Further, the device further includes a DC power source switching means for directly supplying the power supply of the battery to the memory element when the voltage value of the external power source is equal to or less than the first reference voltage value by the external power source monitoring means. 如申請專利範圍第6項之資訊處理裝置,其中,前述電源控制裝置,係進一步具備:來自前述電池的電源供應時,針對前述電池的電壓值是否成為小於等於既定的第2基準電壓值進行判定的電池監視手段;以及前述電池監視手段判定為前述電池的電壓值成為小於等於既定的第2基準電壓值時,將判定結果輸出至系統控制部的通知手段。 The information processing device according to claim 6, wherein the power source control device further includes: determining whether or not a voltage value of the battery is equal to or smaller than a predetermined second reference voltage value when power is supplied from the battery When the battery monitoring means determines that the voltage value of the battery is equal to or smaller than a predetermined second reference voltage value, the battery monitoring means outputs a determination result to the system control unit. 如申請專利範圍第7項之資訊處理裝置,其中,前述系統控制部,係具備:從前述電源控制裝置,被通知前述電池的電壓值成為小於等於既定的第2基準電壓值時,進行OS的控制處理的系統控制手段。 The information processing device according to claim 7, wherein the system control unit is configured to perform an OS when the power source control device is notified that the voltage value of the battery is equal to or smaller than a predetermined second reference voltage value. Control system control means. 如申請專利範圍第8項之資訊處理裝置,其中,前述系統控制手段,係結束前述OS的控制處理後,藉前述外部電源監視手段而判定為前述外部電源的電壓值超過既定的第1基準電壓值時,進行前述OS的啟動。 The information processing device according to claim 8, wherein the system control means determines that the voltage value of the external power source exceeds a predetermined first reference voltage by the external power source monitoring means after the control processing of the OS is completed. At the time of the value, the activation of the aforementioned OS is performed.
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