M426857 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電流傳輸裝置,特別是關於一種具 通用充電辦法之電流傳輸裝置。 【先前技術】 近年來科技發展迅速’可攜式電子產品的種類及產量也隨 之而越來越多’如筆記型電腦、PDA、數位相機以及行動電話 等,而這些可攜式電子產品往往配備有通用序列匯流排(USB) 介面,並可藉由USB傳輸裝置來實現USB介面之間的資料傳 輸與充電的功能。 請蒼見圖1 你穋不丨笞知技術的 固 叮训衣1日彳 功能方塊圖。如圖!所示,USB傳輸裝置9可用以連接在負 電6與手機8之間’而uSB傳輸裴置9中的uSB連接器9| 輕接筆電6 ’ USB傳輸裝置9中的⑽連接器%搞接手機 ,且USB連接器90與USB連接器舛係透過傳輸線92互木 連接。當手機8需要充電時,USB傳輸裝置9的腦連接署 90可自筆電6接收充電電流’並由透過聰連接器 :電,入至手機8。在此’若當筆電6處於電卿 -Dow狀㈣’傳統上’鱗筆電6無 輸裝置9提供所述充魏流至手機8。另_方面,若當筆^ 系統核式處於閒置(BusIdIe)狀態時,傳統上,此時筆電6 能透過USB傳輸裝置9提供電流卿她 / 傳統峨6蝴_娜時所能提供也故 充電效果無法達到一般標準。 包仙·有限,故 現今市面上出現了—種咖充電 s〇1咖n,ucs)的晶片犧上述問題。從雜⑽= 4/14 I源供應器(如前试的装_、. ^ 備有所述⑽興 置(如前述的手機)都具 閉或閒置時,都^以j可以便付电/原供應器不論是在電源關 得充雷效果卿額度較大的充電電流至電子裝置,使 在於,若I:有二二的提升。然而,目前業界所面臨的問題 ^ 、,电源供應器具備UCS晶片,而帝子奘 備UCS晶片(例如手機 置禾具 子裝置較大額度蚊電電^ 、a,“仍無法提供電 因此’業界亟需—種電流傳輸裝置 備UCS晶片,口|中工赴各 个。明包子衣置疋否具 備⑽晶片的裝置透過所述電流傳輪裝置連接到具 額度的峨流;’電職11都—律會提供較大 【新型内容】 本創作在於提供—種内 當電源供應輯過電_^ 輸裝置, 置是否具備ucs 1 η 裝置時,不論電子裝 充電電流給電子裝曰i。,笔源供應器都—律會提供較大額度的 電電置,用以自電源供應器傳輸充 —輪出、当垃。-Γ 处弘飢傳輸裝置包括輸入連接界、至少 态,亚用以自雷泝供廄哭拉砑丧。。耦接电源供應 F詈、,m原(、€°°接收充電電流。輸出連接界執接帝早. 裝置,亚用以將充電電流輸出 接电子 中诵用益之間,並用以傳輸充電雷泣,豆 中通用充電辦法單元接收電源 ,L ’其 斷電子妒罟 、〜。°所傳輪之第—訊號後,判 叫电十凌置的連接狀態,並據以 猊俊釗 而電源供絲接㈣三. 戒叙錄供應器, i 士乂 宽後據以輸出充電電流。 在本創作一示範實施例中 通用充電辦法單元更包括一偵 5/14 M426857 件與—整合電路。所述如狀件用以提供-訊號路徑,本 器接收第—訊號且偵、測到電子裝置已祕至輸出連i 鈐入、fiT則70件回傳第二訊號至電源供應器。整合電路輪接於 輸入連接㈣輸出連接器之間,用以提供電流路徑。 、 ,本創作另―秘實施例巾,所频測元件伽 接至輸出連接器時,更可產生控制信號,整合電路Z 據控制域而選擇性地導通所述電流路徑。 、 綜上所述,本創作提供的電流傳輸裝置整合了 ucs曰 供應器會辨識所述電子裝置係, 裝置連欠觀’當電源供應11透過本創作之電流傳輸 我置連接包子裝置時,不論電子農置是否 都—律會提供較大額度的充電電流給電子^故二 用本創作之充電效率得以有效提升。 千#置故利 ,下和ΐ他目的、舰和優雜㈣顯易懂 明如下/乍之較佳貫施例’並配合所附圖式,作詳細說 【實施方式】 圖作瞭解本創作,於下文將例舉較佳實施例並配合附 圖作=細_ ’料並非肋限定本創作。 傳輸穿月==方12係繪示依據本創作—示範實施例之電流 得狗表罝之功忐方塊圖。如圖 電源供應H 2與電子打3 ^所;^;:傳難置1祕於 电卞展置j之間,用於將電源供應哭 的充電電流傳輸至電子裝置3。於實 … 俞 ucs晶片或是可《符合ucs相_電 一柳乍 此不限制電源供應器2的種類。另外,電子裝可ί= 6/14 M426857 aa σ、’、’束1卞态'PDA或其他適當的電子產品,只要電子裝置 了,,②本創作在此並不限定電子裝置3是否具備UCS 5二否符5 ucs相關的電流輸出規範。 二繼、見圖2,電流傳輸裝置1可包括輸人連接器1〇 口。in*連接。。12以及通用充電辦法單元】4。在此,輸入連接 f /接電祕應m肋自電祕應n 2接收充電雷 接器12輕接電子裝置3,並用以將充電電流輪入 3。於實務上,以妓$ 1Q可叹_序列匯 二遍λ、迷你通用序列匯流排⑽ni USB)'微型通用序列 二2二。咖)或者其他適於同時傳輸訊號與電流的設備 通用i舰Ί丨2同樣也可以是通用序舰流排(USB)、迷你 U_ini USB)、微型·序舰流排⑽⑽咖) 或者,、他极同時傳輸訊號與電流的設備。當然,於所 姆Γ咖輪嚷111G與輪出連接 同。' 且輸入連接S 10與輸出連接器、12 T-定要相 對二示了一個輸入連接器1〇 …们輸出連知12的例子,但本創作的輪 不僅限於-個。舉例來說,輸出連接器12可二亚 一般具有乡織^接頭,且每個輸出接卿纟°。(hub) t ^ ^ 3 〇 額度)的情況下,於所屬技術領域具有通當 、叹〜^•洲·的 電源供應器2,同時對多個電子裝置3進行充=者可利用一個 通用充電辦法單元】4耦接於輪入連接器= 12之間,主要用以虛擬電子裝置3的⑽ 與輪出連接器 應器2可以使用符合UCS規範之充電带 也,使得電源供 . …次電電子裝置3。 7/14 M426857 於實務上,當電子裝置3連接上輪出連接器12後,通 辦法單元Μ可接收電源供應器2的⑽晶片戶斤傳輸 ^ 號(所述第-訊號用以查詢電子裝置3是否具有U 據以回傳-第二訊號(回傳電子裝置3具有⑽功能)至 應器2,使得電源供應器2接收第二訊號後,可輸出符合⑽ 規範之較大額度的充電電流。 詳細來說’ UCS可規範電源供魅2於各種狀態下可輸 出的充電電流’例如電驗絲2之线狀射分為電源關閉 (版r-D_) '閒置(BusIdle)、正常__)、休眠(s哪㈣) 寺四種狀.4。舉例來說,當電源供應器2處於電源關閉 (P〇wer-Down)狀態’且電源供應器2與電子裝置3互相確切有 ucs的功能時,則電源供應器2可以持續傳輸15〇〇磁的電 流至電子裝置3。相反地,若電源供應器2處於電源關閉 (Pmver-Down)狀態,且電源供應器2與電子|置3益法互相確 認有UCS的魏時,㈣祕㈣2絲法傳輸任何電流至 電子裝置3。 此外’虽電源供應态2處於閒置(BusIdle)狀態,且電源供 應器2與電子裝置3互树認有⑽的功能時,則電源供應 =同樣可以持續傳輸1500mA的電流至電子裝置3。相反地 二若電源供應H 2處湖置(Bus Id〗e)狀態,且電源供應器2與 甩子虞置3热法互相確認有ucs的功能時,則電源供應器2 僅能傳輸I00mA的電流至電子裝置3。再者,當電源供應器2 ,於正常(Normal)狀態,且電源供應器2與電子裝置3互相確 遏有ucs的功能時’則電源供應器2可以傳輸9〇〇mA〜〗 5〇〇mA 的電流至電子裝置3。相反地,若電源供應器2處於正常. (Normal)狀態’且電源供應器2與電子裝置3無法互相確認有 8/14 M426857 ucs的功能時,則電源供應器2僅能傳輸100mA〜500mA的 電流至電子裝置3。 承接上述,當電源供應器2處於休眠(Suspend)狀態,且電 源供應器2與電子裝置3互相確認有UCS的功能時,則電源 供應器2仍可以傳輸1500mA的電流至電子裝置3。相反地, 若電源供應器2處於休眠(Suspend狀態’且電源供應器2與電 子裝置3無法互相確認有UCS的功能時,則電源供應器2僅 能傳輸2.5mA的電流至電子裝置3。顯然地,本創作之電流傳M426857 V. New description: [New technical field] This creation is about a current transmission device, especially a current transmission device with a universal charging method. [Prior Art] In recent years, technology has developed rapidly. 'The variety and output of portable electronic products are also increasing, such as notebook computers, PDAs, digital cameras, and mobile phones. These portable electronic products often It is equipped with a universal serial bus (USB) interface and enables data transfer and charging between USB interfaces via a USB transfer device. Please see Figure 1. You don't know the technical solidification of the 1st 彳 function block diagram. As shown! As shown, the USB transmission device 9 can be used to connect between the negative battery 6 and the mobile phone 8' and the uSB connector 9 in the uSB transmission device 9 | the light-connected laptop 6 '(10) connector in the USB transmission device 9 The mobile phone, and the USB connector 90 and the USB connector are connected to each other through the transmission line 92. When the mobile phone 8 needs to be charged, the brain connection unit 90 of the USB transmission device 9 can receive the charging current from the notebook 6 and enter the mobile phone 8 through the smart connector: Here, if the notebook 6 is in the electric-Dow-like (four) 'traditional', the scale 6 electric transmission device 9 supplies the charging flow to the mobile phone 8. On the other hand, if the pen system nucleus is in the idle (BusIdIe) state, traditionally, the pen 6 can provide current through the USB transmission device 9 and it can be provided when it is traditional. The charging effect cannot reach the general standard. Bao Xian·Limited, so there is a wafer on the market today – a kind of coffee charging s〇1 coffee n, ucs). From the miscellaneous (10) = 4/14 I source supply (such as the pre-tested installation _,. ^ provided that the (10) installation (such as the aforementioned mobile phone) are closed or idle, all can be used to pay electricity / The original supplier, whether it is in the power supply, is charged with a large amount of charging current to the electronic device, so that if I: there are two or two upgrades. However, the current problems faced by the industry ^, the power supply has UCS chip, and the Emperor prepares the UCS chip (for example, the mobile phone has a large amount of mosquito electric power, a, "still can not provide electricity, so the industry needs - a current transmission device for UCS chip, mouth | Go to each. The device with the (10) wafer is connected to the turbulent flow with the current through the current-carrying device; the electric service 11-law will provide a larger [new content] When the power supply is over-powered, if the ucs 1 η device is installed, regardless of the charging current of the electronic device, the pen source device will provide a larger amount of electric power. Transfer from the power supply to the wheel, when the garbage. The hunger transmission device includes the input connection boundary, at least the state, and the sub-use is used to trace the power supply from the thunder. The coupling power supply F詈, m original (, ° ° receiving charging current. The output connection boundary is connected to the emperor Early. The device is used to connect the charging current to the electronic device. It is used to transmit the charging thunder. The universal charging method unit in the bean receives the power, L 'the broken electron 妒罟, ~. After the first signal, the connection status of the electric ten is set, and according to the 猊 钊 钊 钊 钊 电源 电源 ( ( 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四In the exemplary embodiment, the universal charging method unit further includes a 5/14 M426857 device and an integrated circuit. The device is configured to provide a signal path, and the device receives the first signal and detects and detects that the electronic device is secret. The output is connected to i, and the fiT returns 70 signals to the power supply. The integrated circuit is connected between the input connection (4) and the output connector to provide a current path. The measured component is galvanically connected to the output When the connector is connected, a control signal is generated, and the integration circuit Z selectively turns on the current path according to the control domain. In summary, the current transmission device provided by the present invention integrates the ucs曰 supplier to recognize the electronic device. Device system, device connection view 'When the power supply 11 through the creation of the current transmission I connected the buccal device, regardless of whether the electronic farm is not - the law will provide a larger amount of charging current to the electronic ^ two use this creation The charging efficiency can be effectively improved. The implementation of the method is as follows: The drawings are intended to be illustrative of the present invention, and the preferred embodiments are exemplified below and in conjunction with the accompanying drawings. Transmission through the month == square 12 is a block diagram showing the power of the dog according to the present creation-exemplary embodiment. As shown in the figure, the power supply H 2 and the electronic device are used to transmit the charge current to the electronic device 3 between the power supply and the j. Yu Shi ... Yu ucs chip can be "conforms to ucs phase _ electricity a liu 乍 This does not limit the type of power supply 2 . In addition, the electronic device can be ί=6/14 M426857 aa σ, ', ' bundle 1 state PDA or other suitable electronic products, as long as the electronic device, 2 creations here does not limit whether the electronic device 3 has UCS 5 2 No 5 ucs related current output specifications. Second, see Fig. 2, the current transfer device 1 can include an input connector 1 port. In* connection. . 12 and the universal charging method unit] 4. Here, the input connection f / power supply secret rib ribs from the electric secret should be n 2 receiving charging connector 12 lightly connected to the electronic device 3, and used to charge the charging current into 3. In practice, to 妓 $ 1Q sigh _ sequence sink two times λ, mini universal sequence bus (10) ni USB) 'micro universal sequence two two two.咖) or other equipment suitable for transmitting signals and currents at the same time, the general i ship 2 can also be a general-purpose ship (USB), mini U_ini USB), micro-order ship (10) (10) coffee) or, he A device that transmits signals and currents at the same time. Of course, the 111G of the Γ Γ Γ 与 is the same as the wheeled connection. 'And the input connection S 10 and the output connector, 12 T-definitely show an input connector 1 〇 ...the output of the example of the 12, but the wheel of the creation is not limited to -. For example, the output connector 12 can have a woven connector and each output is 纟. In the case of (hub) t ^ ^ 3 〇 ) , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The method unit 4 is coupled between the wheel-in connector = 12, and is mainly used for the virtual electronic device 3 (10) and the wheel-out connector device 2 can use the UCS-compliant charging band, so that the power supply is provided. Electronic device 3. 7/14 M426857 In practice, when the electronic device 3 is connected to the upper wheeled connector 12, the method unit 接收 can receive the (10) chip transfer signal of the power supply 2 (the first signal is used to query the electronic device) 3 whether there is U data to return - the second signal (the return electronic device 3 has (10) function) to the device 2, so that the power supply 2 receives the second signal, can output a larger amount of charging current according to the (10) specification In detail, 'UCS can regulate the charging current that can be output in various states of the power supply'. For example, the linear line of the electric test wire 2 is divided into the power supply (version r-D_) 'BusIdle', normal __ ), dormancy (s which (four)) Temple four shapes. 4. For example, when the power supply 2 is in the P〇wer-Down state and the power supply 2 and the electronic device 3 have exactly the function of ucs, the power supply 2 can continuously transmit 15 magnetic waves. Current to the electronic device 3. Conversely, if the power supply 2 is in the Pmver-Down state, and the power supply 2 and the electronic device are mutually confirmed to have the UCS, the (4) 2 wire method transmits any current to the electronic device 3 . Further, when the power supply state 2 is in the BusIdle state, and the power supply 2 and the electronic device 3 recognize the function of (10), the power supply = the same can continuously transmit the current of 1500 mA to the electronic device 3. Conversely, if the power supply H 2 is in the state of Bus Id (e), and the power supply 2 and the switch 3 are mutually confirmed to have the function of ucs, the power supply 2 can only transmit I00mA. Current to the electronic device 3. Furthermore, when the power supply 2 is in the normal state, and the power supply 2 and the electronic device 3 mutually suppress the function of the ucs, then the power supply 2 can transmit 9 mA to 5 〇〇 The current of mA is to the electronic device 3. Conversely, if the power supply 2 is in the normal state and the power supply 2 and the electronic device 3 cannot mutually confirm the function of 8/14 M426857 ucs, the power supply 2 can only transmit 100 mA to 500 mA. Current to the electronic device 3. In the above, when the power supply 2 is in a Suspend state, and the power supply 2 and the electronic device 3 mutually confirm the function of the UCS, the power supply 2 can still transmit 1500 mA of current to the electronic device 3. Conversely, if the power supply 2 is in a dormant state (Suspend state) and the power supply 2 and the electronic device 3 cannot mutually confirm the function of the UCS, the power supply 2 can only transmit a current of 2.5 mA to the electronic device 3. Obviously Earth, the current of this creation
輸裝置1由於可以虛擬電子裝置3具有UCS功能,故當電源 供應益2也有UCS功能時,不論電源供應器2處於何種系統 狀態,本創作都可以大幅提升電源供應器2對電子裝置3的充 電效率。Since the virtual device 3 can have the UCS function, when the power supply 2 also has the UCS function, regardless of the system state of the power supply 2, the present invention can greatly enhance the power supply 2 to the electronic device 3. Charging efficiency.
關於通用充電辦法單元14的特徵,更請進一步參見圖3 ,圖3.係繪示依據本創作另一實施例之電流傳輸裝置之功能方 塊圖。如圖3所示’所述通用充電辦法單元14更包括一偵測 元,140與-整合電路142。偵測元件14〇分別麵接於輸入連 接器〗〇、輸出連接器12與整合電路142, 輪裝置卜統供絲2㈣電子裝置3⑽概傳 ^ SR。整合電路M2主要是提供了電驗應器2以及電子 ^置3之間電流傳遞的電流路徑iR。在此’偵測元件刚可 應3=師細綱,心雜树並回傳對 之第從,細7^⑽接絲_供應器2 ,之後’可透過與電子裝置3之間的訊號 ,狄確_子4置3的連接狀態(為 命 裝置前,電源供應器2即送出、、ώ ^禾連接到电子 兄电电流,而產生安全上的疑慮 9/14 )據以回傳第二訊號(答覆訊號),而電源供應器2收到第二$ 認電子打3有ucs的功能。此外,在偵測& 电子裝置3的連接狀態的過程中,同樣可以使用類似 上述查詢與答覆的方式,以確認電子裝置3已經連接 ;、 接器12。 侧Φ遷 凊繼續芩見圖3,本創作之整合電路142除了可以單純地 做為=個導體以導通電流之外’更可以在電流傳導的路經上包 括繼電器、功率電晶體或場效電晶體,使得整合電路〗42可^ 叉控於偵測元件⑽。於實務上,當電源供應器2與電子裝置 3互相確認有Ucs的功能而開始傳輸充電電流後,若電子裝 ^ 3被使用者移除或意外脫落,*不她接至輸出連接器^ 時’本創作之偵測元件140可以立刻產生控制訊號。至整合 電路142,而整合電路142即可依據控制訊號以以切斷H 路倥IR ’以排除安全上的顧慮。本創作並不限定整合電路I" 必須具有關舰,實社躺元件丨4〇 #然也 電子裝置3連婦常_況、給電秘魅2,使得電源供應器 2不再輸出充電電流。 一" 上述的電流倾裝置丨於實務上料觀除了可以是一條 傳輸線的微之外,更扣是—麵以連接傳輸線之轉接頭的 形狀。請—併參見圖4A至圖4C,圖4A鱗示依據本創作一 實施例之搭配傳輸線的電流傳輸裝置之功能方塊圖,圖犯係 繪示依據本創作另-實關之搭配傳輸線的電流傳輸裝置之 功能方塊® ’圖4C⑽示依據本創作再—實施例之搭配傳輸 線的電流傳輸襄置之功能方塊圖。如圖4A所示,若本創作之 電流傳輸裝置1搭轉· 4G時,傳财4G可_於輸入連 接益10與電源供應器2之間,且輸出連接器12直接減電子 10/14 M426857 3二=如圖=所示,若本創作之電流㈣裝置1搭 =專1 42日:’㈣線42可織於輪出連接器丨2與電子步 且)之严曰’且輪入連接器】〇直接麵接電源供應器^ 、 合u==Af圖4B可知’本創作可看成-種整 細:二:的傳輸線。另外’如圖4C所示, 流傳輸裝置1搭配兩條傳輪線(傳輪線奶, ;4〇與傳輸線42可分別_接於輸人連接器】 之間以及輪出連接器π與電子裝置3之門」 此,本創作可看成—種具有⑽晶片的轉接頭=糟 的兩端都可叫财接聽線。 、此^妾頭 上所!1,本創作提供的電流傳輪裝置整合了 UCS曰片 曰1片源供應时辨酬述電子裝置係—種具有UCS :=t置。,能的運用上來說,本創作的電流傳 此轉輸線軸以者是—蝴_形狀。藉 ,不1t透過本創作之電_魏置連接電子裝置時 供較二度的“=3=7源供_-律會提 得以有^ 為子裝置,故㈣創作之充電效率 於上ί 2&較佳實施例已揭露如上,本創作並不受限 離太邊二 何减麟領域巾具知識者,在不脫 【圖式簡m當以後附之中請專利範圍所界定者為準。 =::=_傳輸裝置的功能方塊圖。 能方塊圖Γ鉢創作—示範實施例之電流傳輸裝置之功 11/14 M426857 圖3係繪示依據本創作另一實施例之電流傳輸裝置之功能 方塊圖。 圖4A係繪示依據本創作一實施例之搭配傳輸線的電流傳 輸裝置之功能方塊圖。 圖4B係繪示依據本創作另一實施例之搭配傳輸線的電流 傳輸裝置之功能方塊圖。 圖4C係繪示依據本創作再一實施例之搭配傳輸線的電流 傳輸裝置之功能方塊圖。 【主要元件符號說明】 2:電源供應器 10 :輸入連接器 14 :通用充電辦法單元 142 :整合電路 8 :手機 90、94 : USB連接器 IR :電流路徑 1 :電流傳輸裝置 3 :電子裝置 12 :輸出連接器 M0 :偵測元件 40、42 :傳輸線 6 :筆電 9 : USB傳輸裝置 92 :傳輸線 SR :訊號路徑 CS :控制訊號 12/14-With regard to the features of the universal charging method unit 14, please refer to FIG. 3 for further reference. FIG. 3 is a functional block diagram of a current transmission device according to another embodiment of the present invention. As shown in FIG. 3, the universal charging method unit 14 further includes a detecting unit 140 and an integrating circuit 142. The detecting component 14 is respectively connected to the input connector 〇, the output connector 12 and the integrated circuit 142, and the wheel device 2 (4) electronic device 3 (10) is transmitted. The integrated circuit M2 mainly provides a current path iR for current transfer between the electrical tester 2 and the electronic device 3. Here, the 'detection component can just be 3= division, the heart is mixed and the back is passed, the thin 7^(10) is connected to the supply 2, and then the signal between the electronic device 3 and the electronic device 3 is Di _ _ 4 4 connection state (before the device, the power supply 2 is sent out, ώ ^ Wo connected to the electronic brother electric current, and generate safety concerns 9/14) according to the return of the second The signal (answer signal), while the power supply 2 receives the second $ recognize the electronic hit 3 has ucs function. In addition, in the process of detecting the connection state of the & electronic device 3, a manner similar to the above query and reply can be used to confirm that the electronic device 3 has been connected; The lateral Φ migration continues as shown in Fig. 3. The integrated circuit 142 of the present invention can be used as a conductor instead of a current, and can include a relay, a power transistor or a field effect current on the current conduction path. The crystal allows the integrated circuit 42 to be forked to the detecting element (10). In practice, when the power supply 2 and the electronic device 3 mutually confirm the function of the Ucs and start to transmit the charging current, if the electronic device is removed by the user or accidentally dropped, *not connected to the output connector ^ The detection component 140 of the present invention can immediately generate a control signal. To the integrated circuit 142, the integrated circuit 142 can be based on the control signal to cut off the H path IR ' to eliminate security concerns. This creation does not limit the integrated circuit I" must have a ship, the real thing lying on the 丨4〇 #然也, the electronic device 3 even the woman, the power supply 2, so that the power supply 2 no longer outputs the charging current. The above-mentioned current dip device is in the form of a connector for connecting the transmission line, in addition to being a microscopic transmission line. Please refer to FIG. 4A to FIG. 4C. FIG. 4A is a functional block diagram of a current transmission device with a transmission line according to an embodiment of the present invention, and the figure shows the current transmission of the transmission line according to the present invention. Functional Blocks of the Device® 'Fig. 4C(10) shows a functional block diagram of the current transfer device of the transmission line in accordance with the present invention. As shown in FIG. 4A, if the current transmission device 1 of the present invention laps 4G, the wealth transfer 4G can be between the input connection benefit 10 and the power supply 2, and the output connector 12 directly reduces the electrons 10/14 M426857. 3 2 = as shown in Figure =, if the current of the creation (four) device 1 ride = 1 1 42: '(4) line 42 can be woven in the wheel connector 丨 2 and the electronic step and) strict and 'wheeled connection 〇 〇 directly connected to the power supply ^, u == Af Figure 4B can be seen 'this creation can be seen as a kind of fine: two: the transmission line. In addition, as shown in FIG. 4C, the stream transmission device 1 is matched with two transmission lines (transfer line milk; 4 〇 and transmission line 42 can be respectively connected to the input connector) and the connector π and the electronic connector The door of the device 3", this creation can be seen as a kind of adapter with (10) wafer = both ends of the bad can be called the financial listening line. This is the top of the head! 1, the current delivery device provided by the present creation Integrating UCS 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC UC Borrowing, not 1t through the creation of the electricity _ Wei connected to the electronic device for the second degree of "= 3 = 7 source for _- law will be able to have ^ for the sub-device, so (4) the creation of charging efficiency in ί 2 & The preferred embodiment has been disclosed as above, and the creation is not limited to those who are knowledgeable from the side of the Taibian II Helining field, and the definition of the scope of the patent is subject to the provisions of the patent. =::== Functional block diagram of the transmission device. Can be created in a block diagram - the power of the current transmission device of the exemplary embodiment 11/14 M426857 3 is a functional block diagram of a current transmission device according to another embodiment of the present invention. FIG. 4A is a functional block diagram of a current transmission device with a transmission line according to an embodiment of the present invention. FIG. 4C is a functional block diagram of a current transmission device with a transmission line according to still another embodiment of the present invention. [Main component symbol description] 2: Power supply Provider 10: Input connector 14: Universal charging method unit 142: Integrated circuit 8: Mobile phone 90, 94: USB connector IR: Current path 1: Current transmission device 3: Electronic device 12: Output connector M0: Detection element 40, 42: Transmission line 6: Notebook 9: USB transmission device 92: Transmission line SR: Signal path CS: Control signal 12/14-