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TW201823926A - Main board with backup battery - Google Patents

Main board with backup battery Download PDF

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Publication number
TW201823926A
TW201823926A TW105144183A TW105144183A TW201823926A TW 201823926 A TW201823926 A TW 201823926A TW 105144183 A TW105144183 A TW 105144183A TW 105144183 A TW105144183 A TW 105144183A TW 201823926 A TW201823926 A TW 201823926A
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Taiwan
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battery
motherboard
electrically connected
voltage
threshold
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TW105144183A
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Chinese (zh)
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TWI588648B (en
Inventor
劉宇銓
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技嘉科技股份有限公司
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Publication of TW201823926A publication Critical patent/TW201823926A/en

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Abstract

A main board includes a first battery, a second battery and a switching circuit. The switching circuit includes a first end, a second end, a third end and a fourth end. The first end is electrically connected to the first battery. The second end is electrically connected to the second battery. The third end is electrically connected to the detection module. The first battery is configured to provide a first voltage. The second battery is configured to provide a second voltage. The switching circuit includes a switching unit. The control end of the switching unit is electrically connected to the first end. One end of the switching unit is electrically connected to the second end. The other end of the switching unit is electrically connected to the third end and the fourth end. When the first voltage is larger than a threshold, the switching unit is not conducted, and the first battery provides power to the detection module. When the first voltage is less than the threshold, the switching unit is conducted, and the second battery provides power to the detection module.

Description

具備用電池的主機板Battery board

本發明係關於一種主機板,特別是一種具有多個電池的主機板。The present invention relates to a motherboard, and more particularly to a motherboard having a plurality of batteries.

在一般電腦使用上,使用者會經由基本輸入輸出系統(basic input output system, BIOS)設定一些預設選項或密碼等設定組態。在經由基本輸入輸出系統設定或是輸入這些設定組態之後,這些設定組態會儲存於主機板上的儲存模組。In general computer use, the user will set some configuration options such as preset options or passwords via the basic input output system (BIOS). After setting or entering these settings via the basic I/O system, these configuration settings are stored in the storage module on the motherboard.

一般來說,主機板上會設置有電池以在系統關機後繼續提供電能給主機板的部分元件(例如RTC)。但是,就目前的設定而言,當主機板上的電池沒電,在開機執行基本輸入輸出系統而檢查RTC(real time clock)資訊時,主機板設定組態會被重置。此時,所有設定組態會被回復成預設值或者是密碼被清空。甚至,在設置成安全啟動(Secure boot)的情形下,在未重新輸入對應金鑰之前,會無法進入作業系統(operation system, OS)。雖然,這些機制是為了讓使用者能夠在主機板異常時方便地還原主機板預設組態,而且只要更換電池並重新調整設定組態就能克服這些情況,但是當因為主機板的電池沒電而無預警地發生這些情形時,使用者當下勢必會受到影響,且必須額外花費計劃以外的時間成本來處理這個問題。In general, a battery is placed on the motherboard to continue to provide power to some of the components of the motherboard (such as RTC) after the system is turned off. However, as far as the current settings are concerned, when the battery on the motherboard is dead, the motherboard configuration configuration is reset when the basic input/output system is turned on and the RTC (real time clock) information is checked. At this point, all settings will be restored to their default values or the password will be cleared. Even in the case of setting to Secure Boot, the operating system (OS) cannot be entered until the corresponding key is re-entered. Although, these mechanisms are designed to allow the user to easily restore the motherboard default configuration when the motherboard is abnormal, and simply replace the battery and re-adjust the configuration to overcome these conditions, but because the battery of the motherboard is dead. When these situations occur without warning, the user is bound to be affected at the moment, and the time cost outside the plan must be additionally spent to deal with the problem.

本發明在於提供一種主機板,以克服主機板的電池沒電造成設定組態被重置的問題。The present invention provides a motherboard for overcoming the problem that the configuration configuration is reset caused by the battery of the motherboard being powered down.

本發明揭露了一種具備用電池的主機板,所述的具備用電池的主機板具有第一電池、第二電池、切換電路與偵測模組。第一電池用以提供第一電壓。第二電池用以提供第二電壓。切換電路具有第一端、第二端、第三端與第四端。第一端電性連接第一電池。第二端電性連接第二電池。切換電路具有開關單元。開關單元的控制端電性連接第一端。開關單元的一端電性連接第二端。開關單元的另一端電性連接第三端與第四端。偵測模組電性連接切換電路的第三端。偵測模組用以依據第一電池提供的電能或第二電池提供的電能選擇性地重置主機板的設定組態。其中,當第一電壓大於門檻值時,開關單元不導通,第一電池經由第一端與第三端之間的第一電流路徑供電給偵測模組。當第一電壓小於門檻值時,開關單元導通,第二電池經由開關單元供電給偵測模組,切換電路更依據第二電壓而經由第四端輸出提示訊號。The invention discloses a motherboard with a battery, wherein the battery board has a first battery, a second battery, a switching circuit and a detection module. The first battery is used to provide a first voltage. The second battery is used to provide a second voltage. The switching circuit has a first end, a second end, a third end, and a fourth end. The first end is electrically connected to the first battery. The second end is electrically connected to the second battery. The switching circuit has a switching unit. The control end of the switch unit is electrically connected to the first end. One end of the switch unit is electrically connected to the second end. The other end of the switch unit is electrically connected to the third end and the fourth end. The detection module is electrically connected to the third end of the switching circuit. The detection module is configured to selectively reset the configuration configuration of the motherboard according to the power provided by the first battery or the power provided by the second battery. Wherein, when the first voltage is greater than the threshold value, the switch unit is not turned on, and the first battery is powered to the detecting module via the first current path between the first end and the third end. When the first voltage is less than the threshold value, the switch unit is turned on, and the second battery is powered by the switch unit to the detection module, and the switching circuit outputs the prompt signal via the fourth end according to the second voltage.

綜合以上所述,本發明提供了一種主機板,所述的主機板具有多個電池與切換電路。切換電路係依據其中一個電池的輸出電壓而選擇性地切換供電路徑。藉此,主機板得以在其中一個電池沒電或者是輸出電壓不足的時候,切換成以另外一顆電池供電,以避免電池沒電造成設定組態被重置,而影響使用者的使用體驗。In summary, the present invention provides a motherboard having a plurality of batteries and switching circuits. The switching circuit selectively switches the power supply path in accordance with the output voltage of one of the batteries. In this way, the motherboard can be switched to be powered by another battery when one of the batteries is out of power or the output voltage is insufficient, so as to prevent the setting configuration from being reset due to the dead battery, which affects the user experience.

以上之關於本揭露內容之說明及以下之實施方式之說明係用以示範與解釋本發明之精神與原理,並且提供本發明之專利申請範圍更進一步之解釋。The above description of the disclosure and the following description of the embodiments of the present invention are intended to illustrate and explain the spirit and principles of the invention, and to provide further explanation of the scope of the invention.

以下在實施方式中詳細敘述本發明之詳細特徵以及優點,其內容足以使任何熟習相關技藝者了解本發明之技術內容並據以實施,且根據本說明書所揭露之內容、申請專利範圍及圖式,任何熟習相關技藝者可輕易地理解本發明相關之目的及優點。以下之實施例係進一步詳細說明本發明之觀點,但非以任何觀點限制本發明之範疇。The detailed features and advantages of the present invention are set forth in the Detailed Description of the Detailed Description of the <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> </ RTI> <RTIgt; The objects and advantages associated with the present invention can be readily understood by those skilled in the art. The following examples are intended to describe the present invention in further detail, but are not intended to limit the scope of the invention.

請參照圖1,圖1係為根據本發明一實施例所繪示之主機板的功能方塊圖。如圖1所示,主機板1具有第一電池12、第二電池14與切換電路16。切換電路16具有第一端N1、第二端N2、第三端N3與第四端N4。第一端N1電性連接第一電池12。第二端N2電性連接第二電池14。第三端N3電性連接偵測模組18。Please refer to FIG. 1. FIG. 1 is a functional block diagram of a motherboard according to an embodiment of the invention. As shown in FIG. 1, the motherboard 1 has a first battery 12, a second battery 14, and a switching circuit 16. The switching circuit 16 has a first end N1, a second end N2, a third end N3, and a fourth end N4. The first end N1 is electrically connected to the first battery 12. The second end N2 is electrically connected to the second battery 14. The third end N3 is electrically connected to the detecting module 18.

第一電池12用以提供第一電壓。第二電池14用提供第二電壓。在一實施例中,第一電壓係實質上相等於第二電壓,或者說第一電池12的額定電壓相同於第二電池14的額定電壓。第一電池12與第二電池14例如為鋰電池,第一電壓與第二電壓例如為3伏特,但不以此為限。The first battery 12 is used to provide a first voltage. The second battery 14 is used to provide a second voltage. In one embodiment, the first voltage is substantially equal to the second voltage, or the first battery 12 has a voltage equal to the rated voltage of the second battery 14. The first battery 12 and the second battery 14 are, for example, lithium batteries, and the first voltage and the second voltage are, for example, 3 volts, but are not limited thereto.

偵測模組18用以依據第一電池12提供的電能或第二電池14提供的電能選擇性地重置主機板1的設定組態。在一實施例中,當第一電池12提供的電壓準位低於預設門檻值且第二電池14提供的電壓準位低於預設門檻值時,偵測模組18提供相關資訊以重置主機板1的設定組態。偵測模組18例如為主機板1上的平台路徑控制器(Platform Controller Hub, PCH)中的RTC(real time clock)模組,但不以此為限。The detecting module 18 is configured to selectively reset the setting configuration of the motherboard 1 according to the power provided by the first battery 12 or the power provided by the second battery 14. In an embodiment, when the voltage level provided by the first battery 12 is lower than the preset threshold and the voltage level provided by the second battery 14 is lower than the preset threshold, the detection module 18 provides relevant information to Set the configuration configuration of the motherboard 1. The detection module 18 is, for example, an RTC (real time clock) module in the Platform Controller Hub (PCH) on the motherboard 1 , but is not limited thereto.

切換電路16具有開關單元162。開關單元162的控制端電性連接第一端N1。開關單元162的一端電性連接第二端N2。開關單元162的另一端電性連接第三端N3與第四端N4。換句話說,開關單元162係受控於第一電池12所提供的第一電壓而選擇性地導通第一端N1與第三端N3。當第一電壓大於門檻值時,開關單元162不導通。第一電池12經由第一端N1與第三端N3之間的第一電流路徑供電給偵測模組18。當第一電壓小於門檻值時,開關單元162導通,第二電池14經由開關單元162供電給偵測模組18。切換電路16更依據第二電壓而經由第四端N4輸出提示訊號。在一實施例中,當主機板1以第一電池12供電給偵測模組18時,第四端N4的電壓準位為相對的低電壓準位,而當主機板1以第二電池14供電給偵測模組18時,第四端N4的電壓準位為相對的高電壓準位。The switching circuit 16 has a switching unit 162. The control end of the switch unit 162 is electrically connected to the first end N1. One end of the switch unit 162 is electrically connected to the second end N2. The other end of the switch unit 162 is electrically connected to the third end N3 and the fourth end N4. In other words, the switching unit 162 selectively turns on the first end N1 and the third end N3 by being controlled by the first voltage provided by the first battery 12. When the first voltage is greater than the threshold value, the switching unit 162 is not turned on. The first battery 12 is powered to the detection module 18 via a first current path between the first end N1 and the third end N3. When the first voltage is less than the threshold value, the switch unit 162 is turned on, and the second battery 14 is powered by the switch unit 162 to the detecting module 18 . The switching circuit 16 further outputs a prompt signal via the fourth terminal N4 according to the second voltage. In an embodiment, when the motherboard 1 is powered by the first battery 12 to the detection module 18, the voltage level of the fourth terminal N4 is a relatively low voltage level, and when the motherboard 1 is the second battery 14 When the power is supplied to the detecting module 18, the voltage level of the fourth terminal N4 is a relatively high voltage level.

開關單元162例如為繼電器或者是P型的金屬氧化物半導體場效電晶體(metal oxide semi-conductor field effect transistor, MOSFET)。在一實施例中,開關單元162例如為Digi-Key公司的繼電器,型號例如為V23026C1056B201-ND或374-1322-ND。上述僅為舉例示範,但實際上並不以此為限。The switching unit 162 is, for example, a relay or a P-type metal oxide semi-conductor field effect transistor (MOSFET). In an embodiment, the switch unit 162 is, for example, a relay of Digi-Key Corporation, such as V23026C1056B201-ND or 374-1322-ND. The above is merely an example, but it is not limited to this.

請接著參照圖2以進行更具體的說明,圖2係為根據本發明另一實施例所繪示之主機板的電路示意圖。在圖2的實施例中,開關單元162為P型的金屬氧化物半導體場效電晶體。開關單元162的閘極端G間接地電性連接第一端N1,源極S間接地電性連接第二端N2,汲極端D間接地電性連接第四端N4。2 is a circuit diagram of a motherboard according to another embodiment of the present invention. In the embodiment of FIG. 2, the switching unit 162 is a P-type metal oxide semiconductor field effect transistor. The gate terminal G of the switch unit 162 is electrically connected to the first terminal N1 indirectly, the source S is indirectly electrically connected to the second terminal N2, and the drain terminal D is electrically connected to the fourth terminal N4 indirectly.

在圖2所示的實施例中,切換電路16更具有第一單向元件D1、第二單向元件D2、第一電阻R1與第二電阻R2。第一單向元件D1串聯第一電阻R1。第二單向元件D2串聯第二電阻R2。串聯的第一單向元件D1與第一電阻R1電性連接於第一端N1與第三端N3之間。串聯的第二單向元件D2與第二電阻R2電性連接於第三端N3與第四端N4之間。其中,第一單向元件D1的輸出端與第二單向元件D2的輸出端直接地或間接地電性連接第三端N3。其中,在此實施例中,切換電路16更具有限流電阻R3、R4。限流電阻R3的一端電性連接開關單元162的閘極端G,限流電阻R3的另一端接地。限流電阻R4的一端電性連接第四端N4,限流電阻R4的另一端接地。In the embodiment shown in FIG. 2, the switching circuit 16 further has a first unidirectional element D1, a second unidirectional element D2, a first resistor R1 and a second resistor R2. The first unidirectional element D1 is connected in series with the first resistor R1. The second unidirectional element D2 is connected in series with the second resistor R2. The first unidirectional element D1 connected in series is electrically connected to the first resistor R1 between the first end N1 and the third end N3. The second unidirectional element D2 and the second resistor R2 connected in series are electrically connected between the third end N3 and the fourth end N4. The output end of the first unidirectional element D1 and the output end of the second unidirectional element D2 are electrically connected to the third end N3 directly or indirectly. Among them, in this embodiment, the switching circuit 16 has more limited current resistors R3, R4. One end of the current limiting resistor R3 is electrically connected to the gate terminal G of the switching unit 162, and the other end of the current limiting resistor R3 is grounded. One end of the current limiting resistor R4 is electrically connected to the fourth end N4, and the other end of the current limiting resistor R4 is grounded.

在一實施例中,電阻R1與電阻R2用以控制開關單元162的閘極端G的電壓,而電阻R3用以控制進入PCH GPI pin的電壓,電阻R4是用以確保當以第一電池12供電給偵測模組18時,第四端N4一定是保持在低電壓準位的輸入訊號。In one embodiment, the resistor R1 and the resistor R2 are used to control the voltage of the gate terminal G of the switching unit 162, and the resistor R3 is used to control the voltage of the PCH GPI pin. The resistor R4 is used to ensure that the power is supplied to the first battery 12. When the detection module 18 is given, the fourth terminal N4 must be an input signal that is kept at a low voltage level.

在此實施例中,第一單向元件D1與第二單向元件D2為二極體(diode)或者是連接為二極體形式的金屬氧化物半導體電晶體。藉由第一單向元件D1與第二單向元件D2,得以限制電流的流向,避免當電池的電壓不足時或者是當切換電流路徑時,由於錯誤的電流流向造成元件誤動作甚或是元件被燒毀。在另一實施例中,第一單向元件D1與第二單向元件D2為連接成二極體形式的金屬氧化物半導體場效電晶體,相關元件連接細節當為所屬技術領域具有通常知識者能從圖2的相關敘述推得,在此不多加贅述。In this embodiment, the first unidirectional element D1 and the second unidirectional element D2 are diodes or metal oxide semiconductor transistors connected in the form of a diode. By the first unidirectional element D1 and the second unidirectional element D2, the current flow direction can be restricted to prevent the component from malfunctioning or the component being burnt due to the wrong current flow when the voltage of the battery is insufficient or when the current path is switched. . In another embodiment, the first unidirectional element D1 and the second unidirectional element D2 are metal oxide semiconductor field effect transistors connected in the form of a diode, and the relevant element connection details are generally known to those skilled in the art. It can be derived from the related description of Fig. 2, and will not be described here.

另一方面,在圖2的實施例中,切換電路16更電性連接發光二極體DL。更具體地來說,發光二極體DL的陽極端係連接於開關元件162的汲極端D,發光二極體DL的陰極端係經由限流電阻R5接地。因此,當第一電池12的輸出電壓小於門檻值而導通開關元件162時,第二電池14經由開關元件162供電,同時發光二極體DL被導通而發光。藉此,得以提醒使用者,主機板1目前改由第二電池14供電給偵測模組18,第一電池已不敷使用而該汰換。在另一實施例中,發光二極體DL的陽極端係電性連接切換電路16的第四端N4,發光二極體DL的陰極端則經由限流電阻R5接地。於實務上,發光二極體DL的陽極端可以電性連接第二電池14供電給偵測模組18的電流路徑上的任一電性節點,在此並不加以限制。On the other hand, in the embodiment of FIG. 2, the switching circuit 16 is more electrically connected to the light-emitting diode DL. More specifically, the anode end of the light-emitting diode DL is connected to the drain terminal D of the switching element 162, and the cathode end of the light-emitting diode DL is grounded via the current limiting resistor R5. Therefore, when the output voltage of the first battery 12 is less than the threshold value and the switching element 162 is turned on, the second battery 14 is powered via the switching element 162 while the light-emitting diode DL is turned on to emit light. Therefore, the user can be reminded that the motherboard 1 is currently powered by the second battery 14 to the detection module 18, and the first battery is no longer used and replaced. In another embodiment, the anode end of the LED DL is electrically connected to the fourth end N4 of the switching circuit 16, and the cathode end of the LED DL is grounded via the current limiting resistor R5. In practice, the anode end of the LED DL can be electrically connected to any of the electrical nodes on the current path of the detection module 18, which is not limited herein.

請接著參照圖3,圖3係為根據本發明更一實施例所繪示之主機板的功能方塊圖。主機板1’更具有儲存模組19、平台路徑控制器11(Platform Controller Hub, PCH)與處理器15。切換電路16的第四端N4電性連接平台路徑控制器11的通用型輸入輸出腳位(general purpose input output, GPIO)。儲存模組19用以儲存主機板1的設定組態。儲存模組19例如為非揮發性隨機存取記憶體(non-volatile random access memory, NVRAM)。Referring to FIG. 3, FIG. 3 is a functional block diagram of a motherboard according to a further embodiment of the present invention. The motherboard 1' further has a storage module 19, a platform controller 19 (PCH) and a processor 15. The fourth end N4 of the switching circuit 16 is electrically connected to a general purpose input input (GPIO) of the platform path controller 11. The storage module 19 is configured to store the configuration configuration of the motherboard 1. The storage module 19 is, for example, a non-volatile random access memory (NVRAM).

處理器15用以運行基本輸入輸出系統。基本輸入輸出系統用以判斷平台路徑控制器11的通用型輸入輸出腳位的電壓準位是否大於一門檻值。當基本輸入輸出系統判斷平台路徑控制器11的通用型輸入輸出腳位的電壓準位大於另一門檻值時,基本輸入輸出系統經由主機板1電性連接的螢幕(未繪示)顯示警告訊息。The processor 15 is configured to run a basic input output system. The basic input/output system is configured to determine whether the voltage level of the general-purpose input/output pin of the platform path controller 11 is greater than a threshold value. When the basic input/output system determines that the voltage level of the general-purpose input/output pin of the platform path controller 11 is greater than another threshold, the basic input/output system displays a warning message via a screen (not shown) electrically connected to the motherboard 1 .

所述的另一門檻值的設定例如關聯於平台路徑控制器11的電源的電壓準位大小。在一實施例中,當平台路徑控制器11的電源的電壓準位為3.3伏特時,所述的另一門檻值不小於2.145伏特且門檻值不大於3.7伏特。在另一實施例中,當平台路徑控制器11的電源的電壓準位為1.8伏特時,所述的另一門檻值不小於1.17伏特且門檻值不大於2.2伏特。The setting of the other threshold value is associated with, for example, the voltage level of the power source of the platform path controller 11. In an embodiment, when the voltage level of the power supply of the platform path controller 11 is 3.3 volts, the other threshold value is not less than 2.145 volts and the threshold value is not more than 3.7 volts. In another embodiment, when the voltage level of the power supply of the platform path controller 11 is 1.8 volts, the other threshold value is not less than 1.17 volts and the threshold value is not more than 2.2 volts.

此外,如前述地,偵測模組18例如為平台路徑控制器10中的RTC模組。請再參照圖4以進行說明,圖4係為根據本發明再一實施例所繪示之主機板的功能方塊圖。當偵測模組為平台路徑控制器10中的RTC模組18’時,於一實施例中,RTC模組18’用以依據第一電池12供應的電能或第二電池14供應的電能產生供電資訊。供電資訊用以指示第一電池12是否供電給RTC模組18’或第二電池14是否供電給RTC模組18’。當供電資訊指示第一電池提供給RTC模組18’的電壓準位小於第一門檻值且第二電池14提供給RTC模組18’的電壓準位小於第二門檻值時,基本輸入輸出系統依據供電資訊於系統開機時重置儲存模組19所儲存的設定組態。所述的第一門檻值與第二門檻值可以是相同或是不同,在一實施例中,第一門檻值與第二門檻值相同,且第一門檻值與第二門檻值例如為3伏特。Moreover, as described above, the detection module 18 is, for example, an RTC module in the platform path controller 10. 4 is a functional block diagram of a motherboard according to still another embodiment of the present invention. When the detection module is the RTC module 18' in the platform path controller 10, in an embodiment, the RTC module 18' is used to generate energy according to the power supplied by the first battery 12 or the power supplied by the second battery 14. Power supply information. The power supply information is used to indicate whether the first battery 12 is powered to the RTC module 18' or the second battery 14 is powered to the RTC module 18'. When the power supply information indicates that the voltage level provided by the first battery to the RTC module 18' is less than the first threshold and the voltage level provided by the second battery 14 to the RTC module 18' is less than the second threshold, the basic input output system According to the power supply information, the setting configuration stored in the storage module 19 is reset when the system is powered on. The first threshold value and the second threshold value may be the same or different. In an embodiment, the first threshold value is the same as the second threshold value, and the first threshold value and the second threshold value are, for example, 3 volts. .

綜合以上所述,所述的主機板具有多個電池與切換電路。切換電路係依據其中一個電池的輸出電壓而選擇性地切換供電路徑。藉此,主機板得以在其中一個電池沒電或者是輸出電壓不足的時候,切換成以另外一顆電池供電,以避免電池沒電造成設定組態被重置,而影響使用者的使用體驗。此外,切換電路更可依據電池的輸出電壓而提供一個提示訊號,以通知使用者是時候更換電池。換句話說,即使當其中一個電池沒電時,主機板仍然可以暫時藉由另一個電池供電給偵測模組,以持續地維持提供給偵測模組的電壓。使用者可以在此時更換掉沒電的電池,且過程中並不會導致偵測模組產生異常資訊,也不用再次重覆設定各種選項或者是密碼,相當具有實用性。In summary, the motherboard has a plurality of batteries and switching circuits. The switching circuit selectively switches the power supply path in accordance with the output voltage of one of the batteries. In this way, the motherboard can be switched to be powered by another battery when one of the batteries is out of power or the output voltage is insufficient, so as to prevent the setting configuration from being reset due to the dead battery, which affects the user experience. In addition, the switching circuit can provide a prompt signal according to the output voltage of the battery to notify the user that it is time to replace the battery. In other words, even when one of the batteries is out of power, the motherboard can be temporarily powered by another battery to the detection module to continuously maintain the voltage supplied to the detection module. The user can replace the dead battery at this time, and the process does not cause the detection module to generate abnormal information, and does not need to repeatedly set various options or passwords, which is quite practical.

雖然本發明以前述之實施例揭露如上,然其並非用以限定本發明。在不脫離本發明之精神和範圍內,所為之更動與潤飾,均屬本發明之專利保護範圍。關於本發明所界定之保護範圍請參考所附之申請專利範圍。Although the present invention has been disclosed above in the foregoing embodiments, it is not intended to limit the invention. It is within the scope of the invention to be modified and modified without departing from the spirit and scope of the invention. Please refer to the attached patent application for the scope of protection defined by the present invention.

1、1’‧‧‧主機板1, 1'‧‧‧ motherboard

11‧‧‧平台路徑控制器11‧‧‧Platform Path Controller

12‧‧‧第一電池12‧‧‧First battery

14‧‧‧第二電池14‧‧‧Second battery

15‧‧‧處理器15‧‧‧ processor

16‧‧‧切換電路16‧‧‧Switching circuit

162‧‧‧開關單元162‧‧‧Switch unit

18‧‧‧偵測模組18‧‧‧Detection module

18’‧‧‧RTC模組18’‧‧‧RTC module

19‧‧‧儲存模組19‧‧‧ Storage Module

N1~N4‧‧‧端N1~N4‧‧‧

D1~D2‧‧‧單向元件D1~D2‧‧‧ unidirectional components

DL‧‧‧發光二極體DL‧‧‧Light Emitting Diode

R1~R5‧‧‧電阻R1~R5‧‧‧ resistance

D、G、S‧‧‧端D, G, S‧‧‧

圖1係為根據本發明一實施例所繪示之主機板的功能方塊圖。 圖2係為根據本發明另一實施例所繪示之主機板的電路示意圖。 圖3係為根據本發明更一實施例所繪示之主機板的功能方塊圖。 圖4係為根據本發明再一實施例所繪示之主機板的功能方塊圖。FIG. 1 is a functional block diagram of a motherboard according to an embodiment of the invention. FIG. 2 is a schematic circuit diagram of a motherboard according to another embodiment of the invention. FIG. 3 is a functional block diagram of a motherboard according to a further embodiment of the present invention. FIG. 4 is a functional block diagram of a motherboard according to still another embodiment of the present invention.

Claims (10)

一種具備用電池的主機板,包括:一第一電池,用以提供一第一電壓;一第二電池,用以提供一第二電壓; 一切換電路,該切換電路具有一第一端、一第二端、一第三端與一第四端,該第一端電性連接該第一電池,該第二端電性連接該第二電池,該切換電路包括一開關單元,該開關單元的控制端電性連接該第一端,該開關單元的一端電性連接該第二端,該開關單元的另一端電性連接該第三端與該第四端;以及一偵測模組,電性連接該切換電路的該第三端,該偵測模組用以依據該第一電池提供的電能或該第二電池提供的電能選擇性地重置該主機板的一設定組態;其中,當該第一電壓大於一門檻值時,該開關單元不導通,該第一電池經由該第一端與該第三端之間的一第一電流路徑供電給該偵測模組,當該第一電壓不大於一門檻值時,該開關單元導通,該第二電池經由該開關單元供電給該偵測模組,該切換電路更依據該第二電壓而經由該第四端輸出一提示訊號。A motherboard having a battery, comprising: a first battery for providing a first voltage; a second battery for providing a second voltage; a switching circuit having a first end, a a second end, a third end and a fourth end, the first end is electrically connected to the first battery, the second end is electrically connected to the second battery, and the switching circuit comprises a switch unit, the switch unit The control terminal is electrically connected to the first end, and one end of the switch unit is electrically connected to the second end, and the other end of the switch unit is electrically connected to the third end and the fourth end; and a detecting module is electrically Connected to the third end of the switching circuit, the detecting module is configured to selectively reset a setting configuration of the motherboard according to the power provided by the first battery or the power provided by the second battery; When the first voltage is greater than a threshold, the switch unit is not turned on, and the first battery is powered by the first current path between the first end and the third end to the detecting module, when the first When a voltage is not greater than a threshold, the switch unit is turned on, The second battery is powered by the switch unit to the detection module, and the switching circuit further outputs a prompt signal via the fourth end according to the second voltage. 如請求項1所述之主機板,其中該開關單元為一繼電器或一P型金屬氧化物半導體場效電晶體(metal oxide semi-conductor field effect transistor, MOSFET)。The motherboard of claim 1, wherein the switch unit is a relay or a P-type metal oxide semi-conductor field effect transistor (MOSFET). 如請求項1所述之主機板,其中該切換電路更包括一第一單向元件、一第二單向元件、一第一電阻與一第二電阻,該第一單向元件串聯該第一電阻,該第二單向元件串聯該第二電阻,串聯的該第一單向元件與該第一電阻電性連接於該第一端與該第三端之間,串聯的該第二單向元件與該第二電阻電性連接於該第三端與該第四端之間;其中,該第一單向元件的輸出端與該第二單向元件的輸出端直接地或間接地電性連接該第三端。The motherboard of claim 1, wherein the switching circuit further comprises a first unidirectional component, a second unidirectional component, a first resistor and a second resistor, the first unidirectional component being connected in series with the first The second unidirectional element is connected in series with the second resistor, and the first unidirectional element connected in series is electrically connected between the first end and the third end, and the second unidirectional is connected in series An element is electrically connected to the second resistor between the third end and the fourth end; wherein an output end of the first unidirectional element and an output end of the second unidirectional element are electrically connected directly or indirectly Connect the third end. 如請求項3所述之主機板,其中該第一單向元件與該第二單向元件為二極體(diode)或者是連接為二極體形式的金屬氧化物半導體電晶體。The motherboard of claim 3, wherein the first unidirectional element and the second unidirectional element are diodes or metal oxide semiconductor transistors connected in the form of a diode. 如請求項1所述之主機板,其中該第四端電性連接一發光二極體。The motherboard of claim 1, wherein the fourth end is electrically connected to a light emitting diode. 如請求項1所述之主機板,其中該偵測模組為平台路徑控制器(Platform Controller Hub, PCH)中的一RTC模組,其中該第四端電性連接該平台路徑控制器的一通用型輸入輸出腳位。The motherboard of claim 1, wherein the detection module is an RTC module in a platform controller (PCH), wherein the fourth end is electrically connected to one of the platform path controllers. General purpose input and output pin. 如請求項6所述之主機板,其中該主機板具有一處理器,該處理器用以運行一基本輸入輸出系統,該基本輸入輸出系統用以判斷該通用型輸入輸出腳位的電壓準位是否大於另一門檻值,當該基本輸入輸出系統判斷該通用型輸入輸出腳位的電壓準位大於該另一門檻值時,該基本輸入輸出系統經由該主機板電性連接的一螢幕顯示一警告訊息。The motherboard of claim 6, wherein the motherboard has a processor for running a basic input/output system, and the basic input/output system is configured to determine whether the voltage level of the universal input/output pin is If the basic input/output system determines that the voltage level of the universal input/output pin is greater than the other threshold, the basic input/output system displays a warning via a screen electrically connected to the motherboard. message. 如請求項7所述之主機板,更包括一儲存模組,該儲存模組用以儲存該主機板的該設定組態,該RTC模組用以依據該第一電池供應的電能或該第二電池供應的電能產生一供電資訊,該供電資訊用以指示該第一電池是否供電給該RTC模組或該第二電池是否供電給該RTC模組,當該供電資訊指示該第一電池提供給該RTC模組的電壓準位小於一第一門檻值且該第二電池提供給該RTC模組的電壓準位小於一第二門檻值時,該基本輸入輸出系統依據該供電資訊於系統開機時重置該儲存模組所儲存的該設定組態。The motherboard of claim 7, further comprising a storage module, wherein the storage module is configured to store the configured configuration of the motherboard, and the RTC module is configured to use the power supplied by the first battery or the first The power supplied by the two batteries generates a power supply information, wherein the power supply information is used to indicate whether the first battery supplies power to the RTC module or whether the second battery supplies power to the RTC module, and the power supply information indicates that the first battery is provided When the voltage level of the RTC module is less than a first threshold and the voltage level provided by the second battery to the RTC module is less than a second threshold, the basic input/output system is powered on according to the power supply information. Reset the configuration configuration stored in the storage module. 如請求項7所述之主機板,其中該另一門檻值不小於2.145伏特,且該另一門檻值不大於3.7伏特。The motherboard of claim 7, wherein the other threshold is no less than 2.145 volts and the other threshold is no greater than 3.7 volts. 如請求項7所述之主機板,其中該另一門檻值不小於1.17伏特,且該另一門檻值不大於2.2伏特。The motherboard of claim 7, wherein the other threshold is no less than 1.17 volts and the other threshold is no greater than 2.2 volts.
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