TWM522491U - Compound connector - Google Patents

Compound connector Download PDF

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Publication number
TWM522491U
TWM522491U TW104218616U TW104218616U TWM522491U TW M522491 U TWM522491 U TW M522491U TW 104218616 U TW104218616 U TW 104218616U TW 104218616 U TW104218616 U TW 104218616U TW M522491 U TWM522491 U TW M522491U
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Taiwan
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connector
terminal
usb type
connection
terminals
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TW104218616U
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Chinese (zh)
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Yi-Fang Chuang
Nai-Chien Chang
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Niceconn Technology Co Ltd
Yi-Fang Chuang
Nai-Chien Chang
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Application filed by Niceconn Technology Co Ltd, Yi-Fang Chuang, Nai-Chien Chang filed Critical Niceconn Technology Co Ltd
Priority to TW104218616U priority Critical patent/TWM522491U/en
Publication of TWM522491U publication Critical patent/TWM522491U/en

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Description

複合式連接器(四)Composite connector (4)

本創作涉及連接器,尤其涉及由多個連接器組成的複合式連接器。This creation relates to connectors, and more particularly to composite connectors consisting of multiple connectors.

現今電子產業發達,各式電子裝置充斥一般大眾的生活週遭。而為了傳輸控制指令、多媒體資料甚至是電力,絕大部分的電子裝置皆配置有一或多個連接器。Nowadays, the electronics industry is developed, and various electronic devices are filled with the general public's life. In order to transmit control commands, multimedia materials and even power, most electronic devices are equipped with one or more connectors.

現今市面上常見的連接器,係以通用序列匯流排(Universal Serial Bus , USB)連接器為最大宗。一般來說,USB A-Type是應用最為廣泛,也是最為普及的USB介面;USB Micro-B則是較為小型的USB介面,主要應用於智慧型行動裝置和平板電腦等可攜式設備。而為了有效應用於更輕薄、更纖細的設備,近來USB開發組織更進一步提出了USB C-Type的介面。Connectors commonly found on the market today are the largest in terms of Universal Serial Bus (USB) connectors. In general, USB A-Type is the most widely used and most popular USB interface; USB Micro-B is a relatively small USB interface, mainly used in portable devices such as smart mobile devices and tablets. In order to effectively apply to thinner and thinner devices, the USB development organization has recently proposed the USB C-Type interface.

為了節省主機板上的配置空間,絕大多數的電腦設備(桌上型電腦或筆記型電腦)上主要皆配置了複合式連接器。其中,更以兩顆USB Type-A 3.0連接器組合或是USB Type-A 3.0連接器+USB Type-A 2.0連接器組合的複合式連接器為最大宗。In order to save the configuration space on the motherboard, most of the computer devices (desktops or notebooks) are mainly equipped with a composite connector. Among them, the combination of two USB Type-A 3.0 connector combinations or USB Type-A 3.0 connector + USB Type-A 2.0 connector is the largest.

本技術領域的技術之人皆知,USB 3.0連接器的端子數量為九根、USB2.0連接器的端子數量為四根、USB Type-C連接器的端子數量為二十四根。因此,若要更新現有主流的複合式連接器架構,將USB Type-C連接器與USB3.0連接器結合在一起,或是將USB Type-C連接器與USB2.0連接器結合在一起,則電腦設備的主機板上的連接腳位就必須要跟著改變(傳統為9孔+9孔或是9孔+4孔,需改變為9孔+24孔或4孔+24孔)。除此之外,主機板上的線路佈局也必須要進行大幅度的調整。如此一來,將會大幅提高主機板的開發與製造成本。As is known in the art, the number of terminals of the USB 3.0 connector is nine, the number of terminals of the USB 2.0 connector is four, and the number of terminals of the USB Type-C connector is twenty-four. Therefore, to update the existing mainstream composite connector architecture, combine the USB Type-C connector with the USB 3.0 connector, or combine the USB Type-C connector with the USB 2.0 connector. Then the connection pin on the motherboard of the computer equipment must be changed (traditional 9 holes + 9 holes or 9 holes + 4 holes, need to be changed to 9 holes + 24 holes or 4 holes + 24 holes). In addition, the layout of the circuit board on the motherboard must be greatly adjusted. As a result, the development and manufacturing costs of the motherboard will be greatly increased.

本創作的主要目的,在於提供一種複合式連接器,可供主機板以其上的USB Type-A規格的接點直接連接並使用複合式連接器上的USB Type-C連接器。The main purpose of this creation is to provide a composite connector that allows the motherboard to be directly connected to the USB Type-A connector on it and to use the USB Type-C connector on the composite connector.

為了達成上述的目的,本創作的複合式連接器主要包括一絕緣本體、設置於該絕緣本體的一USB Type-C連接器及一USB Type-A連接器、以及連接該USB Type-C連接器的一電路板。該電路板一側連接該USB Type-C連接器的複數連接端子,另一側連接對應USB Type-A規格的複數轉接端子。該電路板上還設置有一連接線路,用以將該USB Type-C連接器藉由該複數連接端子傳輸的訊號傳遞至該複數轉接端子,並藉由該複數轉接端子對外輸出。In order to achieve the above object, the composite connector of the present invention mainly comprises an insulative housing, a USB Type-C connector disposed on the insulative housing, a USB Type-A connector, and a USB Type-C connector. a circuit board. One side of the circuit board is connected to the plurality of connection terminals of the USB Type-C connector, and the other side is connected to a plurality of transfer terminals corresponding to the USB Type-A standard. The circuit board is further provided with a connecting line for transmitting the signal transmitted by the USB Type-C connector through the plurality of connecting terminals to the plurality of switching terminals, and externally outputting through the plurality of switching terminals.

本創作相較於現有技術所能達成的技術功效在於,該複合式連接器可直接連接一外部的主機板上的USB Type-A規格的接點,藉以在不需改變該主機板的電路配置的前提下,直接連接該複合式連接器並使用該USB Type-C連接器,相當便利。The technical effect achieved by the present invention over the prior art is that the composite connector can be directly connected to a USB Type-A specification contact on an external motherboard, so that the circuit configuration of the motherboard is not required to be changed. Under the premise, it is quite convenient to directly connect the composite connector and use the USB Type-C connector.

為能夠更加詳盡的了解本創作之特點與技術內容,請參閱以下所述之說明及附圖,然而所附圖示僅供參考說明之用,而非用來加以限制者。For a more detailed understanding of the features and technical aspects of the present invention, reference should be made to the description and the accompanying drawings.

參閱圖1與圖2,分別為本創作的第一具體實施例的立體分解圖與立體組合圖。如圖所示,本創作揭露了一種複合式連接器(下面簡稱為該連接器1),該連接器1主要包含一絕緣本體10、一第一連接器、一第二連接器及一電路板4。本創作中,該第一連接器主要為一USB Type-C連接器2,而該第二連接器主要為一USB Type-A連接器3,但不加以限定。1 and 2 are respectively an exploded perspective view and a perspective assembled view of a first embodiment of the present invention. As shown in the figure, the present invention discloses a composite connector (hereinafter referred to as the connector 1). The connector 1 mainly includes an insulative housing 10, a first connector, a second connector, and a circuit board. 4. In the present invention, the first connector is mainly a USB Type-C connector 2, and the second connector is mainly a USB Type-A connector 3, but is not limited.

本實施例中,該USB Type-C連接器2主要為USB 3.1 Type-C連接器,其上具有複數連接端子21,並且該複數連接端子21的數量少於二十四根(容後詳述)。該USB Type-A連接器3主要為USB 3.0 Type-A連接器3,並且其上具有九根連接端子。然而,於其他實施例中,該USB Type-A連接器3亦可為具有四根連接端子的USB 2.0 Type-A連接器,不加以限定。In this embodiment, the USB Type-C connector 2 is mainly a USB 3.1 Type-C connector having a plurality of connection terminals 21 thereon, and the number of the plurality of connection terminals 21 is less than twenty-four. ). The USB Type-A connector 3 is mainly a USB 3.0 Type-A connector 3 and has nine connection terminals thereon. However, in other embodiments, the USB Type-A connector 3 can also be a USB 2.0 Type-A connector with four connection terminals, which is not limited.

本創作的目的在於令該USB Type-C連接器2能夠相容使用USB Type-A規格的連接腳位,因此本創作的主要技術方案在於,抽除該USB Type-C連接器2上的部分連接端子(被抽除的連接端子對應USB Type-A規格中沒有使用到的訊號),再藉由被保留下來的該複數連接端子21進行訊號的傳遞。The purpose of this creation is to make the USB Type-C connector 2 compatible with the USB Type-A specification connection pin. Therefore, the main technical solution of this creation is to remove the part of the USB Type-C connector 2. The connection terminal (the extracted connection terminal corresponds to a signal not used in the USB Type-A specification), and the signal is transmitted by the retained plurality of connection terminals 21.

承上所述,若要令該USB Type-C連接器2相容於USB 3.0 Type-A規格的連接腳位,則該複數連接端子21的數量可為九根或十根(包含並聯的兩根電源端子)。若要令該USB Type-C連接器2相容於USB 2.0 Type-A規格的連接腳位,則該複數連接端子21的數量可為四根或六根(包含並聯的兩根電源端子與並聯的兩根接地端子)。As described above, if the USB Type-C connector 2 is compatible with the connection pins of the USB 3.0 Type-A specification, the number of the plurality of connection terminals 21 may be nine or ten (including two in parallel). Root power terminal). To make the USB Type-C connector 2 compatible with the connection pins of the USB 2.0 Type-A specification, the number of the plurality of connection terminals 21 can be four or six (including two power terminals connected in parallel and in parallel) Two grounding terminals).

本實施例中,該USB Type-C連接器2與該USB Type-A連接器3設置於該絕緣本體10,其中,該USB Type-A連接器3鄰近於該USB Type-C連接器2設置,並且較佳係與該USB Type-C連接器2平行設置。該電路板4則與該USB Type-C連接器2及該USB Type-A連接器3垂直設置。更具體地,該絕緣本體10內設置有一容置槽11,本實施例中,該USB Type-C連接器2水平設置於該容置槽11中,而該USB Type-A連接器3水平設置於該USB Type-C連接器2的下方。更具體地,該USB Type-A連接器3水平設置於該絕緣本體10的下方。In this embodiment, the USB Type-C connector 2 and the USB Type-A connector 3 are disposed on the insulative housing 10, wherein the USB Type-A connector 3 is disposed adjacent to the USB Type-C connector 2. And preferably in parallel with the USB Type-C connector 2. The circuit board 4 is disposed perpendicular to the USB Type-C connector 2 and the USB Type-A connector 3. More specifically, the insulative housing 10 is provided with a receiving slot 11 . In this embodiment, the USB Type-C connector 2 is horizontally disposed in the receiving slot 11 , and the USB Type-A connector 3 is horizontally disposed. Below the USB Type-C connector 2. More specifically, the USB Type-A connector 3 is horizontally disposed below the insulative housing 10.

如圖1所示,該絕緣本體10具有一前端面101,該USB Type-C連接器2設置於該容置槽11並裸露出該前端面101。本實施例中,該前端面101大小與形狀對應至標準的USB Type-A連接器的接口的大小與形狀。As shown in FIG. 1 , the insulative housing 10 has a front end surface 101 . The USB Type-C connector 2 is disposed in the receiving slot 11 and exposes the front end surface 101 . In this embodiment, the front end face 101 has a size and shape corresponding to the size and shape of the interface of the standard USB Type-A connector.

該連接器1還具有複數轉接端子42。該電路板4的一端電性連接該USB Type-C連接器2的該複數連接端子21,另一端電性連接該複數轉接端子42。本實施例中,該複數轉接端子42的數量主要對應至該USB Type-C連接器2具備的該複數連接端子21的數量,並且該複數轉接端子42的一端分別電性連接該電路板4,另一端分別朝該絕緣本體10的底面延伸。於其他實施例中,該複數轉接端子42的數量較佳可為四根(對應至USB 2.0 Type-A規格)或九根(對應至USB 3.0 Type-A規格),但不加以限定。The connector 1 also has a plurality of transfer terminals 42. One end of the circuit board 4 is electrically connected to the plurality of connection terminals 21 of the USB Type-C connector 2, and the other end is electrically connected to the plurality of connection terminals 42. In this embodiment, the number of the plurality of switching terminals 42 is mainly corresponding to the number of the plurality of connection terminals 21 of the USB Type-C connector 2, and one end of the plurality of switching terminals 42 is electrically connected to the circuit board. 4. The other end extends toward the bottom surface of the insulative housing 10, respectively. In other embodiments, the number of the plurality of transfer terminals 42 may preferably be four (corresponding to the USB 2.0 Type-A specification) or nine (corresponding to the USB 3.0 Type-A specification), but is not limited.

該連接器1還具有一連接線路40,設置於該電路板4上,並且藉由該電路板4電性連接該USB Type-C連接器2的該複數連接端子21及該複數轉接端子42。本實施例中,該連接線路40用於將該USB Type-C連接器2藉由該複數連接端子21傳輸的訊號傳遞至該複數轉接端子42,並且藉由該複數轉接端子42對外傳輸。同樣地,該連接線路40通過該複數轉接端子42接收外部傳來的USB Type-A規格的輸入訊號,並且傳遞至該複數連接端子21後,再藉由該USB Type-C連接器2對外傳輸。The connector 1 further has a connecting line 40 disposed on the circuit board 4, and the plurality of connecting terminals 21 and the plurality of switching terminals 42 of the USB Type-C connector 2 are electrically connected by the circuit board 4. . In this embodiment, the connection line 40 is used to transmit the signal transmitted by the USB Type-C connector 2 through the plurality of connection terminals 21 to the plurality of transfer terminals 42 and is externally transmitted by the plurality of transfer terminals 42. . Similarly, the connection line 40 receives an external input signal of the USB Type-A specification through the plurality of transfer terminals 42 and transmits the input signal to the plurality of connection terminals 21, and then externally through the USB Type-C connector 2 transmission.

該連接器1還具有一處理單元41,電性連接於該電路板4上,並藉由該連接線路40電性連接該USB Type-C連接器2與該複數轉接端子42。本實施例中,該處理單元41主要可為各式保護元件,用以保護該連接器1於訊號傳遞過程中的安全性。The connector 1 further includes a processing unit 41 electrically connected to the circuit board 4, and electrically connected to the USB Type-C connector 2 and the plurality of switching terminals 42 via the connecting line 40. In this embodiment, the processing unit 41 can be mainly used as a protection element to protect the security of the connector 1 during signal transmission.

請同時參閱圖3,為本創作的第一具體實施例的主機板接點示意圖。圖3揭示了一外部電腦設備(圖未標示)所使用的主機板5。該主機板5具有一連接區51,該連接區51包含一第一接孔組511與一第二接孔組512。本實施例中,該第一接孔組511包含九個接孔,該第二接孔組512也包含九個接孔。Please refer to FIG. 3 at the same time, which is a schematic diagram of a motherboard connection of the first embodiment of the present invention. Figure 3 illustrates a motherboard 5 used by an external computer device (not shown). The motherboard 5 has a connection area 51. The connection area 51 includes a first connection hole group 511 and a second connection hole group 512. In this embodiment, the first connection hole group 511 includes nine connection holes, and the second connection hole group 512 also includes nine connection holes.

該連接區51主要用於連接傳統由兩個USB 3.0 Type-A連接器組合而成的複合式連接器,該二USB 3.0 Type-A連接器各自具有九根連接端子,並且分別對應至該第一接孔組511與該第二接孔組512。The connection area 51 is mainly used for connecting a conventional composite connector composed of two USB 3.0 Type-A connectors, each of which has nine connection terminals, and corresponding to the first An access hole group 511 and the second contact hole group 512.

本創作通過該電路板4、該連接線路40及該複數轉接端子42將該USB Type-C連接器2的該複數連接端子21連接至數量少於二十四根且符合USB Type-A規格的該複數轉接端子43(於圖1的實施例中為九根)。藉此,本創作的該連接器1可直接連接該主機板5上的該連接區51(其中該USB Type-A連接器3對應該第一接孔組511,該USB Type-C連接器2對應該第二接孔組512),意即,該主機板5不必改變其上的腳位與電路設計,即可連接本創作的該連接器1並使用該連接器1上的該USB Type-C連接器2,藉此可省去額外的開發與製造成本。The present invention connects the plurality of connection terminals 21 of the USB Type-C connector 2 to the number of less than twenty-four and conforms to the USB Type-A specification through the circuit board 4, the connection line 40, and the plurality of transfer terminals 42. The plurality of transfer terminals 43 (nine in the embodiment of Fig. 1). Thereby, the connector 1 of the present invention can be directly connected to the connection area 51 on the motherboard 5 (where the USB Type-A connector 3 corresponds to the first connection hole group 511, the USB Type-C connector 2 Corresponding to the second socket group 512), that is, the motherboard 5 can be connected to the connector 1 of the present invention without using the pin and circuit design thereon, and the USB Type- on the connector 1 is used. C connector 2, thereby eliminating additional development and manufacturing costs.

接著請參閱圖4,為本創作的第一具體實施例的接腳連接示意圖。圖4揭露如何選擇並將該USB Type-C連接器2的該複數連接端子21連接至對應USB 3.0 Type-A規格的九根該轉接端子42。首先,USB Type-C連接器標準的端子定義如下表一所示: <TABLE border="1" borderColor="#000000" width="_0001"><TBODY><tr><td><b>A1</b></td><td><b>A2</b></td><td><b>A3</b></td><td><b>A4</b></td><td><b>A5</b></td><td><b>A6</b></td><td><b>A7</b></td><td><b>A8</b></td><td><b>A9</b></td><td><b>A10</b></td><td><b>A11</b></td><td><b>A12</b></td></tr><tr><td> GND </td><td> Tx1+ </td><td> Tx1- </td><td> VBUS </td><td> CC1 </td><td> D+ </td><td> D- </td><td> SBU1 </td><td> VBUS </td><td> Rx2- </td><td> Rx2+ </td><td> GND </td></tr><tr><td><b>B12</b></td><td><b>B11</b></td><td><b>B10</b></td><td><b>B9</b></td><td><b>B8</b></td><td><b>B7</b></td><td><b>B6</b></td><td><b>B5</b></td><td><b>B4</b></td><td><b>B3</b></td><td><b>B2</b></td><td><b>B1</b></td></tr><tr><td> GND </td><td> Rx1+ </td><td> Rx1- </td><td> VBUS </td><td> SBU2 </td><td> D- </td><td> D+ </td><td> CC2 </td><td> VBUS </td><td> Tx2- </td><td> Tx2+ </td><td> GND </td></tr></TBODY></TABLE>Next, please refer to FIG. 4 , which is a schematic diagram of the pin connection of the first embodiment of the present invention. FIG. 4 discloses how to select and connect the plurality of connection terminals 21 of the USB Type-C connector 2 to the nine transfer terminals 42 corresponding to the USB 3.0 Type-A specification. First, the standard terminal definitions for the USB Type-C connector are shown in Table 1 below:         <TABLE border="1" borderColor="#000000" width="_0001"><TBODY><tr><td><b>A1</b></td><td><b>A2</b ></td><td><b>A3</b></td><td><b>A4</b></td><td><b>A5</b></td> <td><b>A6</b></td><td><b>A7</b></td><td><b>A8</b></td><td><b >A9</b></td><td><b>A10</b></td><td><b>A11</b></td><td><b>A12</b ></td></tr><tr><td> GND </td><td> Tx1+ </td><td> Tx1- </td><td> VBUS </td><td> CC1 < /td><td> D+ </td><td> D- </td><td> SBU1 </td><td> VBUS </td><td> Rx2- </td><td> Rx2+ < /td><td> GND </td></tr><tr><td><b>B12</b></td><td><b>B11</b></td><td ><b>B10</b></td><td><b>B9</b></td><td><b>B8</b></td><td><b>B7 </b></td><td><b>B6</b></td><td><b>B5</b></td><td><b>B4</b>< /td><td><b>B3</b></td><td><b>B2</b></td><td><b>B1</b></td></ Tr><tr><td> GND </td><td> Rx1+ </td><td> Rx1- </td><td> VBUS </td><td> SBU2 </td><td> D - </td><td> D+ </td><td> CC2 </td><td> VBUS </td><td> Tx2- </td><td> Tx2+ </td><td> GND </td></tr></TBODY></TABLE>

表一Table I

上表一所示者為本技術領域所公知的USB Type-C連接器的端子規範,於此不再贅述。其中,表一的A1至A12為USB Type-C連接器頂面的十二根連接端子的端子定義,而B1至B12為USB Type-C連接器底面的十二根連接端子的端子定義。其中,GND為接地端子、Tx1+與Tx2+為傳輸正端子、Tx1-與Tx2-為傳輸負端子、VBUS為電源端子、D+為正資料端子、D-為負資料端子、Rx1+與Rx2+為接收正端子、Rx1-與Rx2-為接收負端子。另,CC1、CC2、SBU1與SBU2等四根端子與本創作並無直接相關,因此不於此贅述。The terminal specifications of the USB Type-C connector known in the prior art are shown in Table 1 above, and will not be described herein. Among them, A1 to A12 of Table 1 are terminal definitions of twelve connection terminals on the top surface of the USB Type-C connector, and B1 to B12 are terminal definitions of twelve connection terminals on the bottom surface of the USB Type-C connector. Among them, GND is the ground terminal, Tx1+ and Tx2+ are the transmission positive terminals, Tx1- and Tx2- are the transmission negative terminals, VBUS is the power supply terminal, D+ is the positive data terminal, D- is the negative data terminal, and Rx1+ and Rx2+ are the receiving positive terminals. Rx1- and Rx2- are receiving negative terminals. In addition, the four terminals CC1, CC2, SBU1, and SBU2 are not directly related to this creation, so they are not described here.

本實施例中,該USB Type-C連接器2至少具有九根該連接端子21,包括頂面的第一、第二、第三、第六、第七根連接端子(A1、A2、A3、A6、A7)、底面的第十、第十一、第十二根連接端子(B10、B11、B12)、以及頂面的第四根連接端子(A4)或底面的第九根連接端子(B9)。In this embodiment, the USB Type-C connector 2 has at least nine connection terminals 21, including first, second, third, sixth, and seventh connection terminals of the top surface (A1, A2, A3, A6, A7), the tenth, eleventh, twelfth connection terminals (B10, B11, B12) of the bottom surface, and the fourth connection terminal (A4) of the top surface or the ninth connection terminal of the bottom surface (B9) ).

於此實施例中,該複數轉接端子42的數量為九根,對應至USB 3.0 Type-A規格。該九根轉接端子42主要包括一第一接地端子(GND1)421、一傳輸正端子(Tx+)422、一傳輸負端子(Tx-)423、一電源端子(VBUS)424、一正資料端子(D+)425、一負資料端子(D-)426、一接收負端子(Rx-)427、一接收正端子(Rx+)428及一第二接地端子(GND2)429。In this embodiment, the number of the plurality of transfer terminals 42 is nine, corresponding to the USB 3.0 Type-A specification. The nine adapter terminals 42 mainly include a first ground terminal (GND1) 421, a transmission positive terminal (Tx+) 422, a transmission negative terminal (Tx-) 423, a power supply terminal (VBUS) 424, and a positive data terminal. (D+) 425, a negative data terminal (D-) 426, a receiving negative terminal (Rx-) 427, a receiving positive terminal (Rx+) 428, and a second ground terminal (GND2) 429.

如圖4所示,該九根轉接端子42中,該第一接地端子421連接該USB Type-C連接器2頂面的第一根連接端子(A1);該傳輸正端子422連接該USB Type-C連接器2頂面的第二根連接端子(A2);該傳輸負端子423連接該USB Type-C連接器2頂面的第三根連接端子(A3);該電源端子424連接該USB Type-C連接器2頂面的第四根連接端子(A4)或底面的第九根連接端子(B9);該正資料端子425連接該USB Type-C連接器2頂面的第六根連接端子(A6);該負資料端子426連接該USB Type-C連接器2頂面的第七根連接端子(A7);該接收負端子427連接該USB Type-C連接器2底面的第十根連接端子(B10);該接收正端子428連接該USB Type-C連接器2底面的第十一根連接端子(B11);該第二接地端子429連接該USB Type-C連接器2底面的第十二根連接端子(B12)。As shown in FIG. 4, in the nine transfer terminals 42, the first ground terminal 421 is connected to the first connection terminal (A1) on the top surface of the USB Type-C connector 2; the transmission positive terminal 422 is connected to the USB. a second connection terminal (A2) on the top surface of the Type-C connector 2; the transmission negative terminal 423 is connected to a third connection terminal (A3) on the top surface of the USB Type-C connector 2; the power terminal 424 is connected to the The fourth connection terminal (A4) on the top surface of the USB Type-C connector 2 or the ninth connection terminal (B9) on the bottom surface; the positive data terminal 425 is connected to the sixth root of the top surface of the USB Type-C connector 2 a connection terminal (A6); the negative data terminal 426 is connected to a seventh connection terminal (A7) on the top surface of the USB Type-C connector 2; the reception negative terminal 427 is connected to the tenth of the bottom surface of the USB Type-C connector 2 a root connection terminal (B10); the receiving positive terminal 428 is connected to the eleventh connection terminal (B11) of the bottom surface of the USB Type-C connector 2; the second ground terminal 429 is connected to the bottom surface of the USB Type-C connector 2 Twelfth connection terminal (B12).

通過上述配置,則該主機板5可通過對應USB 3.0 Type-A規格的腳位連接該連接器1,並通過該連接器1上的該USB Type-C連接器2來與外部電子裝置(圖未標示)連接並進行訊號傳遞。惟,於本創作中,該USB Type-C連接器2所傳輸的訊號將會近似於通過標準USB 3.0 Type-A連接器所傳輸的訊號。Through the above configuration, the motherboard 5 can be connected to the connector 1 through the pin corresponding to the USB 3.0 Type-A specification, and the external electronic device is connected through the USB Type-C connector 2 on the connector 1. Not marked) Connect and signal transmission. However, in this creation, the signal transmitted by the USB Type-C connector 2 will approximate the signal transmitted through the standard USB 3.0 Type-A connector.

本技術領域中具有通常知識者皆知,一組標準的USB Type-C連接器可支援至少兩組的USB 3.0 Type-A的訊號傳輸,而圖4所揭露的實施例是採用了該USB Type-C連接器2中的其中一組USB 3.0 Type-A的相關傳輸端子。It is well known in the art that a standard set of USB Type-C connectors can support at least two sets of USB 3.0 Type-A signal transmissions, and the embodiment disclosed in Figure 4 uses the USB Type. - A set of USB 3.0 Type-A related transmission terminals in the -C connector 2.

參閱圖5,為本創作的第二具體實施例的接腳連接示意圖。於圖5的實施例中,該USB Type-C連接器2至少具有不同於第一具體實施例的另外九根該連接端子21,具體來說,包括底面的第一、第二、第三、第六、第七根連接端子(B1、B2、B3、B6、B7)、頂面的第十、第十一、第十二根連接端子(A10、A11、A12)、以及底面的第四根連接端子(B4)或頂面的第九根連接端子(A9)。Referring to FIG. 5, a schematic diagram of a pin connection of a second embodiment of the present invention is shown. In the embodiment of FIG. 5, the USB Type-C connector 2 has at least nine other connection terminals 21 different from the first embodiment, specifically, the first, second, and third portions including the bottom surface. The sixth and seventh connection terminals (B1, B2, B3, B6, B7), the tenth, eleventh and twelfth connection terminals (A10, A11, A12) of the top surface, and the fourth root of the bottom surface Connect the terminal (B4) or the ninth connection terminal (A9) on the top surface.

本實施例中,該九根轉接端子42中的該第一接地端子421連接該USB Type-C連接器2底面的第一根連接端子(B1);該傳輸正端子422連接該USB Type-C連接器2底面的第二根連接端子(B2);該傳輸負端子423連接該USB Type-C連接器2底面的第三根連接端子(B3);該電源端子424連接該USB Type-C連接器2底面的第四根連接端子(B4)或頂面的第九根連接端子(A9);該正資料端子425連接該USB Type-C連接器2底面的第六根連接端子(B6);該負資料端子426連接該USB Type-C連接器2底面的第七根連接端子(B7);該接收負端子427連接該USB Type-C連接器2頂面的第十根連接端子(A10);該接收正端子428連接該USB Type-C連接器2頂面的第十一根連接端子(A11);該第二接地端子429連接該USB Type-C連接器2頂面的第十二根連接端子(A12)。In this embodiment, the first ground terminal 421 of the nine adapter terminals 42 is connected to the first connection terminal (B1) of the bottom surface of the USB Type-C connector 2; the transmission positive terminal 422 is connected to the USB Type- a second connection terminal (B2) on the bottom surface of the C connector 2; the transmission negative terminal 423 is connected to a third connection terminal (B3) on the bottom surface of the USB Type-C connector 2; the power terminal 424 is connected to the USB Type-C a fourth connection terminal (B4) on the bottom surface of the connector 2 or a ninth connection terminal (A9) on the top surface; the positive data terminal 425 is connected to the sixth connection terminal (B6) on the bottom surface of the USB Type-C connector 2 The negative data terminal 426 is connected to the seventh connection terminal (B7) of the bottom surface of the USB Type-C connector 2; the receiving negative terminal 427 is connected to the tenth connection terminal of the top surface of the USB Type-C connector 2 (A10) The receiving positive terminal 428 is connected to the eleventh connecting terminal (A11) on the top surface of the USB Type-C connector 2; the second grounding terminal 429 is connected to the twelfth top surface of the USB Type-C connector 2 Root connection terminal (A12).

如上所述,該USB Type-C連接器2只要具備至少九根的該連接端子21,並符合上述圖4、圖5的端子規範,就可以令本創作的該連接器1適用於圖3所示的該主機板5,藉此省去為了配置該連接器1並使用該USB Type-C連接器2而重新設計該主機板5的腳位與線路所需花費的成本。As described above, the USB Type-C connector 2 can be used in the present invention as long as it has at least nine of the connection terminals 21 and conforms to the terminal specifications of FIGS. 4 and 5 described above. The motherboard 5 is shown, thereby eliminating the cost of reconfiguring the pins and lines of the motherboard 5 in order to configure the connector 1 and use the USB Type-C connector 2.

續請同時參閱圖6與圖7,分別為本創作的第二具體實施例的立體分解圖與側視圖。圖6與圖7揭露了另一型態的複合式連接器(下面簡稱該連接器6)。於第二實施例中,該連接器6主要具有一絕緣本體60、一USB Type-C連接器7、一USB Type-A連接器8、一第一電路板9、一連接線路90、複數第一轉接端子92、一第二電路板94及複數第二轉接端子942。Continuing to refer to FIG. 6 and FIG. 7 simultaneously, respectively, is an exploded perspective view and a side view of a second embodiment of the present invention. 6 and 7 disclose another type of composite connector (hereinafter referred to as the connector 6). In the second embodiment, the connector 6 mainly has an insulative housing 60, a USB Type-C connector 7, a USB Type-A connector 8, a first circuit board 9, a connecting line 90, and a plurality of A switching terminal 92, a second circuit board 94 and a plurality of second switching terminals 942.

該USB Type-C連接器7具有複數連接端子71,並且該USB Type-C連接器7設置於該絕緣本體60。此外,該USB Type-A連接器8可設置於該絕緣本體60上方、該絕緣本體60內或是該絕緣本體60下方,並鄰近於該USB Type-C連接器7設置。The USB Type-C connector 7 has a plurality of connection terminals 71, and the USB Type-C connector 7 is disposed on the insulative housing 60. In addition, the USB Type-A connector 8 can be disposed above the insulative housing 60, within the insulative housing 60, or below the insulative housing 60, and disposed adjacent to the USB Type-C connector 7.

更具體而言,該絕緣本體60具有一容置槽61,本實施例中,該USB Type-C連接器7水平設置於該容置槽61中,該USB Type-A連接器8水平設置於該USB Type-C連接器7的下方,該第一電路板9垂直於該USB Type-C連接器7及該USB Type-A連接器8設置,而該第二電路板94則水平於該USB Type-C連接器7及該USB Type-A連接器8設置。More specifically, the insulative housing 60 has a receiving slot 61. In this embodiment, the USB Type-C connector 7 is horizontally disposed in the receiving slot 61. The USB Type-A connector 8 is horizontally disposed on the Below the USB Type-C connector 7, the first circuit board 9 is disposed perpendicular to the USB Type-C connector 7 and the USB Type-A connector 8, and the second circuit board 94 is horizontal to the USB The Type-C connector 7 and the USB Type-A connector 8 are provided.

該絕緣本體60具有一前端面601,該USB Type-C連接器7設置於該容置槽61中且裸露出該前端面601。該前端面601的大小與形狀對應至標準USB Type-A連接器的接口的大小與形狀。The insulative housing 60 has a front end surface 601. The USB Type-C connector 7 is disposed in the receiving slot 61 and exposes the front end surface 601. The size and shape of the front end face 601 corresponds to the size and shape of the interface of the standard USB Type-A connector.

該第一電路板9的一端電性連接該複數第一轉接端子92,另一端設置有複數第一接點93。該複數第一轉接端子92的數量主要可對應至該USB Type-C連接器7具備的該複數連接端子71的數量。然而,於其他實施例中,該複數第一轉接端子92的數量較佳可直接設定為四根(對應至USB 2.0 Type-A規格)或九根(對應至USB 3.0 Type-A的規格),不加以限定。One end of the first circuit board 9 is electrically connected to the plurality of first switching terminals 92, and the other end is provided with a plurality of first contacts 93. The number of the plurality of first transfer terminals 92 can mainly correspond to the number of the plurality of connection terminals 71 provided in the USB Type-C connector 7. However, in other embodiments, the number of the plurality of first switching terminals 92 can be directly set to four (corresponding to USB 2.0 Type-A specifications) or nine (corresponding to USB 3.0 Type-A specifications). , not limited.

該第二電路板94的一端設置有複數第二接點941,而另一端電性連接複數第二轉接端子942的一端。如圖6所示,該第二電路板94通過該複數第二接點941電性連接該USB Type-C連接器7的該複數連接端子71,並通過該複數第二轉接端子942的另一端電性連接該第一電路板9的該複數第一接點93。One end of the second circuit board 94 is provided with a plurality of second contacts 941, and the other end is electrically connected to one end of the plurality of second switching terminals 942. As shown in FIG. 6, the second circuit board 94 is electrically connected to the plurality of connection terminals 71 of the USB Type-C connector 7 through the plurality of second contacts 941, and passes through the plurality of second adapter terminals 942. One end is electrically connected to the plurality of first contacts 93 of the first circuit board 9.

本實施例中,該複數第一接點93、該複數第二接點941及該複數第二轉接端子942的數量分別對應至該USB Type-C連接器7的該複數連接端子71的數量。於另一實施例中,該複數第一接點93的數量可為九個,該複數第二接點941的數量可為九個,而該複數第二轉接端子942的數量為九根,意即,僅連接該複數連接端子71中與USB 3.0 Type-A規格相關的九根端子(該複數連接端子71的數量為九根)。In this embodiment, the number of the plurality of first contacts 93, the plurality of second contacts 941, and the plurality of second switching terminals 942 respectively correspond to the number of the plurality of connection terminals 71 of the USB Type-C connector 7. . In another embodiment, the number of the plurality of first contacts 93 may be nine, the number of the plurality of second contacts 941 may be nine, and the number of the plurality of second transfer terminals 942 is nine. That is, only nine terminals related to the USB 3.0 Type-A specification in the plurality of connection terminals 71 are connected (the number of the plurality of connection terminals 71 is nine).

於又一實施例中,該複數第一接點93的數量可為四個,該複數第二接點941的數量可為四個,而該複數第二轉接端子942的數量為四根,意即,僅連接該複數連接端子71中與USB 2.0 Type-A規格相關的四根端子(該複數連接端子71的數量為四根)。惟,上述僅為本創作的另一具體實施例,不加以限定。In another embodiment, the number of the plurality of first contacts 93 may be four, the number of the plurality of second contacts 941 may be four, and the number of the plurality of second transfer terminals 942 is four. That is, only four terminals related to the USB 2.0 Type-A specification in the plurality of connection terminals 71 are connected (the number of the plurality of connection terminals 71 is four). However, the above is only another specific embodiment of the present creation, and is not limited.

該連接線路90設置於該第一電路板9上,並且通過該第一電路板9電性連接該複數第一轉接端子92及該複數第一接點93。該連接線路90通過該複數第一接點93、該複數第二轉接端子942、該第二電路板94、該複數第二接點941及該複數連接端子71與該USB Type-C連接器7電性連接。藉此,該處理單元91可以將該USB Type-C連接器7藉由該複數連接端子71傳輸的訊號傳遞至該複數第一轉接端子92,並藉由該複數第一轉接端子92(較佳為九根)對外傳輸,反之亦然。The connecting circuit 90 is disposed on the first circuit board 9 and electrically connected to the plurality of first switching terminals 92 and the plurality of first contacts 93 through the first circuit board 9. The connection line 90 passes through the plurality of first contacts 93, the plurality of second transfer terminals 942, the second circuit board 94, the plurality of second contacts 941, and the plurality of connection terminals 71 and the USB Type-C connector 7 electrical connection. Thereby, the processing unit 91 can transmit the signal transmitted by the USB Type-C connector 7 through the plurality of connection terminals 71 to the plurality of first switching terminals 92, and by the plurality of first switching terminals 92 ( Preferably, nine are transmitted externally and vice versa.

該連接器6還具有一處理單元91,電性連接於該電路板9上,並藉由該連接線路90該電性連接該複數第一接點93與該複數第一轉接端子92。本實施例中,該處理單元91主要可為各式保護元件,用以保護該連接器6於訊號傳遞過程中的安全性。The connector 6 further has a processing unit 91 electrically connected to the circuit board 9 and electrically connected to the plurality of first contacts 93 and the plurality of first switching terminals 92 via the connection line 90. In this embodiment, the processing unit 91 can be mainly used as a protection element to protect the security of the connector 6 during signal transmission.

第二實施例的該連接器6與前述第一實施例的該連接器1的差異在於,該USB Type-C連接器7的該複數連接端子71的長度較短(即,已經過標準的端子截切製程),而前述該USB Type-C連接器2的該複數連接端子21的長度較長(即,未經過標準的端子截切製程)。The connector 6 of the second embodiment differs from the connector 1 of the first embodiment described above in that the length of the plurality of connection terminals 71 of the USB Type-C connector 7 is short (ie, the standard terminal has passed) The cutting process is performed, and the length of the plurality of connection terminals 21 of the USB Type-C connector 2 is long (that is, the standard terminal cutting process is not performed).

如上所述,於製造第一實施例的該連接器1時,需請該USB Type-C連接器2的製造商修改製程,省略該端子截切製程,但可以不必額外設置該第二電路板94與該複數第二轉接端子942,因此可降低製造成本。As described above, when manufacturing the connector 1 of the first embodiment, the manufacturer of the USB Type-C connector 2 needs to modify the process, omitting the terminal cutting process, but it is not necessary to additionally set the second circuit board. 94 and the plurality of second transfer terminals 942 can thus reduce manufacturing costs.

另,於製造第二實施例的該連接器6時,可以直接購買並使用製造廠已製造完成的標準的該USB Type-C連接器7,因此可有效縮短該連接器6的採購流程及製程時間。In addition, when the connector 6 of the second embodiment is manufactured, the standard USB Type-C connector 7 which has been manufactured by the manufacturer can be directly purchased and used, so that the procurement process and process of the connector 6 can be effectively shortened. time.

請同時參閱圖8、圖9及圖10,分別為本創作的第二具體實施例、第三具體實施例及第四具體實施例的主機板接點示意圖。圖8揭露了該主機板5上可包含另一連接區52,該連接區52包含一第一接孔組521與一第二接孔組522。本實施例中,該第一接孔組521包含四個接孔,該第二接孔組522包含九個接孔。Please refer to FIG. 8 , FIG. 9 and FIG. 10 , which are schematic diagrams of the motherboard contacts of the second embodiment, the third embodiment and the fourth embodiment of the present invention. FIG. 8 discloses that the motherboard 5 can include another connection area 52. The connection area 52 includes a first connection group 521 and a second connection group 522. In this embodiment, the first connection hole group 521 includes four connection holes, and the second connection hole group 522 includes nine connection holes.

具體而言,該連接區52主要用於連接傳統由一個USB 2.0 Type-A連接器與一個USB 3.0 Type-A連接器組合而成的複合式連接器,其中該USB 2.0 Type-A連接器對應至該第一接孔組521中的四個接孔而該USB 3.0 Type-A連接器對應至該第二接孔組522中的九個接孔。本實施例中,該連接器1、6採用的該USB Type-A連接器3、8可為具有四根連接端子的USB 2.0 Type-A連接器。藉以,該連接器1、6可直接通過該連接區52連接該主機板5。Specifically, the connection area 52 is mainly used for connecting a conventional composite connector composed of a USB 2.0 Type-A connector and a USB 3.0 Type-A connector, wherein the USB 2.0 Type-A connector corresponds to To the four vias in the first via set 521 and the USB 3.0 Type-A connector corresponds to the nine vias in the second via set 522. In this embodiment, the USB Type-A connectors 3, 8 used in the connectors 1, 6 may be USB 2.0 Type-A connectors having four connection terminals. Therefore, the connectors 1, 6 can be directly connected to the motherboard 5 through the connection area 52.

圖9揭露了該主機板5上可包含又一連接區53,該連接區53包含一第一接孔組531與一第二接孔組532。本實施例中,該第一接孔組531包含九個接孔,該第二接孔組532包含四個接孔。圖10揭露了該主機板5上可包含再一連接區54,該連接區54包含一第一接孔組541與一第二接孔組542。本實施例中,該第一接孔組541包含四個接孔,該第二接孔組542也包含四個接孔。FIG. 9 discloses that the motherboard 5 can include a further connection area 53 . The connection area 53 includes a first connection group 531 and a second connection group 532 . In this embodiment, the first connection hole group 531 includes nine connection holes, and the second connection hole group 532 includes four connection holes. FIG. 10 discloses that the motherboard 5 can include a further connection region 54 . The connection region 54 includes a first connection hole group 541 and a second connection hole group 542 . In this embodiment, the first connection hole group 541 includes four connection holes, and the second connection hole group 542 also includes four connection holes.

具體而言,該連接區53主要用於連接傳統由一個USB 3.0 Type-A連接器與一個USB 2.0 Type-A連接器組合而成的複合式連接器,其中該USB 3.0 Type-C連接器對應至該第一接孔組531中的九個接孔而該USB 2.0 Type-A連接器對應至該第二接孔組532中的四個接孔。另外,該連接區54主要用於連接傳統由兩個USB 2.0 Type-A連接器組合而成的複合式連接器,其中該二USB 2.0 Type-A連接器分別對應至該二接孔組541、542。Specifically, the connection area 53 is mainly used to connect a composite connector conventionally composed of a USB 3.0 Type-A connector and a USB 2.0 Type-A connector, wherein the USB 3.0 Type-C connector corresponds to To the nine of the first set of holes 531, the USB 2.0 Type-A connector corresponds to the four of the second set of holes 532. In addition, the connection area 54 is mainly used to connect a composite connector that is traditionally composed of two USB 2.0 Type-A connectors, wherein the two USB 2.0 Type-A connectors respectively correspond to the two hole group 541, 542.

承上所述,若要連接該主機板5上的該連接區53或54,則無論該USB Type-A連接器3、8為具有四根連接端子的USB 2.0 Type-A連接器或具有九根連接端子的USB 3.0 Type-A連接器,該USB Type-C連接器2、7都必須將其上的該複數連接端子21、71轉換為符合USB 2.0 Type-A規格的四根輸出端子(即,該複數轉接端子42或該複數第一轉接端子92的數量為四根)。As described above, if the connection area 53 or 54 on the motherboard 5 is to be connected, the USB Type-A connector 3, 8 is a USB 2.0 Type-A connector having four connection terminals or has nine The USB 3.0 Type-A connector of the root connection terminal, the USB Type-C connector 2, 7 must convert the plurality of connection terminals 21, 71 thereon to four output terminals conforming to the USB 2.0 Type-A specification ( That is, the number of the plurality of transfer terminals 42 or the plurality of first transfer terminals 92 is four).

值得一提的是,由於要令該USB Type-C連接器2、7的輸出符合USB 2.0 Type-A的規格,因此本實施例中,該複數連接端子21、71的數量至多可為四根或六根(包含並聯的兩根電源端子與並聯的兩根接地端子),而其他的連接端子可以被抽除。It is worth mentioning that, in order to make the output of the USB Type-C connector 2, 7 conform to the specifications of the USB 2.0 Type-A, the number of the plurality of connection terminals 21, 71 can be up to four in this embodiment. Or six (including two power terminals connected in parallel and two ground terminals in parallel), and other connection terminals can be removed.

參閱圖11,為本創作的第三具體實施例的接腳連接示意圖。圖11所揭露者可應用於上述第一實施例中的該連接器1與第二實施例中的該連接器6,為方便說明,下面將以該連接器1為例來進行說明。Referring to FIG. 11, a schematic diagram of a pin connection of a third embodiment of the present invention is shown. The connector disclosed in FIG. 11 can be applied to the connector 1 in the first embodiment and the connector 6 in the second embodiment. For convenience of description, the connector 1 will be described below as an example.

於圖11的實施例中,該USB Type-C連接器2至少具有四根該連接端子21,包括頂面的第六、第七根連接端子(A6、A7)、頂面的第四根連接端子(A4)或底面的第九根連接端子(B9)、以及頂面的第一根連接端子(A1)或底面的第十二根連接端子(B12)。In the embodiment of FIG. 11, the USB Type-C connector 2 has at least four connection terminals 21, including sixth and seventh connection terminals (A6, A7) of the top surface, and a fourth connection of the top surface. The terminal (A4) or the ninth connection terminal (B9) of the bottom surface, and the first connection terminal (A1) of the top surface or the twelfth connection terminal (B12) of the bottom surface.

如圖11所示,本實施例中,該連接器1的該複數轉接端子42的數量可為四根,包括該第一接地端子421、該電源端子424、該正資料端子425及該負資料端子426。其中,該第一接地端子421連接該USB Type-C連接器2頂面的第一根連接端子(A1)或底面的第十二根連接端子(B12);該電源端子424連接該USB Type-C連接器2頂面的第四根連接端子(A4)或底面的第九根連接端子(B9);該正資料端子425連接該USB Type-C連接器2頂面的第六根端子(A6);該負資料端子426連接該USB Type-C連接器2頂面的第七根端子(A7)。As shown in FIG. 11 , in the embodiment, the number of the plurality of adapter terminals 42 of the connector 1 can be four, including the first ground terminal 421 , the power terminal 424 , the positive data terminal 425 , and the negative Data terminal 426. The first ground terminal 421 is connected to the first connection terminal (A1) on the top surface of the USB Type-C connector 2 or the twelfth connection terminal (B12) on the bottom surface; the power terminal 424 is connected to the USB Type- a fourth connection terminal (A4) on the top surface of the C connector 2 or a ninth connection terminal (B9) on the bottom surface; the positive data terminal 425 is connected to the sixth terminal on the top surface of the USB Type-C connector 2 (A6) The negative data terminal 426 is connected to the seventh terminal (A7) of the top surface of the USB Type-C connector 2.

再請參閱圖12,為本創作的第四具體實施例的接腳連接示意圖。於圖12的實施例中,該USB Type-C連接器2至少具有不同於第三具體實施例的另外四根該連接端子21,包括底面的第一根連接端子(B1)或頂面的第十二根連接端子(A12)、底面的第四根連接端子(B4)或頂面的第九根連接端子(A4)、底面的第六根連接端子(B6)及底面的第七根連接端子(B7)。Referring to FIG. 12 again, it is a schematic diagram of the pin connection of the fourth embodiment of the present invention. In the embodiment of FIG. 12, the USB Type-C connector 2 has at least four other connection terminals 21 different from the third embodiment, including the first connection terminal (B1) or the top surface of the bottom surface. Twelve connection terminals (A12), fourth connection terminal (B4) on the bottom surface, ninth connection terminal (A4) on the top surface, sixth connection terminal (B6) on the bottom surface, and seventh connection terminal on the bottom surface (B7).

本實施例中,該四根轉接端子42中的該第一接地端子421連接該USB Type-C連接器2底面的第一根連接端子(B1)或頂面的第十二根連接端子(A12);該電源端子424連接該USB Type-C連接器2底面的第四根連接端子(B4)或頂面的第九根連接端子(A9);該正資料端子425連接該USB Type-C連接器2底面的第六根連接端子(B6);該負資料端子426連接該USB Type-C連接器2底面的第七根連接端子(B7)。In this embodiment, the first ground terminal 421 of the four adapter terminals 42 is connected to the first connection terminal (B1) of the bottom surface of the USB Type-C connector 2 or the twelfth connection terminal of the top surface ( A12); the power terminal 424 is connected to the fourth connection terminal (B4) of the bottom surface of the USB Type-C connector 2 or the ninth connection terminal (A9) of the top surface; the positive data terminal 425 is connected to the USB Type-C The sixth connection terminal (B6) on the bottom surface of the connector 2; the negative data terminal 426 is connected to the seventh connection terminal (B7) on the bottom surface of the USB Type-C connector 2.

如上所述,該USB Type-C連接器2只要具備至少四根的該連接端子21,並符合上述圖11、圖12的端子規範,就可以令本創作的該連接器1適用於圖9、圖10所示的該主機板5,藉此省去為了連接該連接器1並使用該USB Type-C連接器2而重新設計該主機板5的腳位與線路所需花費的成本。As described above, the USB Type-C connector 2 can have the connector 1 of the present invention applied to FIG. 9 as long as it has at least four connection terminals 21 and conforms to the terminal specifications of FIGS. 11 and 12 described above. The motherboard 5 shown in FIG. 10 thereby omits the cost of redesigning the pins and lines of the motherboard 5 in order to connect the connector 1 and use the USB Type-C connector 2.

通過本創作,該主機板5可通過其上既有的USB 2.0 Type-A規格的腳位或USB 3.0 Type-A規格的腳位來直接連接本創作的該連接器1、6,以直接使用該連接器1、6上的該USB Type-C連接器2、7與該USB Type-A連接器3、8,相當便利。Through this creation, the motherboard 5 can be directly connected to the connector 1, 6 of the present invention through the existing USB 2.0 Type-A specification pin or the USB 3.0 Type-A specification pin for direct use. The USB Type-C connectors 2, 7 on the connectors 1, 6 and the USB Type-A connectors 3, 8 are quite convenient.

續請參閱圖13、圖14及圖15,分別為本創作的第三具體實施例的立體分解圖、立體組合圖與側視圖。圖13至圖15揭露了又一種型態的複合式連接器1’(下面簡稱為該連接器1’)。該連接器1’具有與第一具體實施例的該連接器1相同的該絕緣本體10、該USB Type-C連接器2、該USB Type-A連接器3、該電路板4、該連接線路40及該複數轉接端子42,差異在於,該連接器1’的該電路板4是呈水平設置。Continuing to refer to FIG. 13, FIG. 14, and FIG. 15, which are respectively an exploded perspective view, a perspective assembled view and a side view of a third embodiment of the present invention. Fig. 13 through Fig. 15 disclose yet another type of composite connector 1' (hereinafter simply referred to as the connector 1'). The connector 1' has the same insulating body 10 as the connector 1 of the first embodiment, the USB Type-C connector 2, the USB Type-A connector 3, the circuit board 4, and the connecting line 40 and the plurality of transfer terminals 42 differ in that the circuit board 4 of the connector 1' is horizontally disposed.

具體而言,於第三具體實施例中,該USB Type-C連接器2與該電路板4皆水平設置於該絕緣本體10的該容置槽11中,且該USB Type-C連接器2裸露出該絕緣本體10的該前端面101。該USB Type-A連接器3鄰近於該USB Type-C連接器2設置,並且較佳是水平設置於該電路板4的下方。更具體而言,該電路板4水平設置於該USB Type-C連接器2下方,該USB Type-C連接器2的複數連接端子21係朝下彎折延伸,並電性連接該電路板4,而電性連接了該USB Type-C連接器2的該電路板4設置於該容置槽11中。Specifically, in the third embodiment, the USB Type-C connector 2 and the circuit board 4 are horizontally disposed in the receiving slot 11 of the insulative housing 10, and the USB Type-C connector 2 is The front end face 101 of the insulative housing 10 is exposed. The USB Type-A connector 3 is disposed adjacent to the USB Type-C connector 2, and is preferably disposed horizontally below the circuit board 4. More specifically, the circuit board 4 is horizontally disposed under the USB Type-C connector 2, and the plurality of connection terminals 21 of the USB Type-C connector 2 are bent downwardly and electrically connected to the circuit board 4. The circuit board 4 electrically connected to the USB Type-C connector 2 is disposed in the receiving slot 11.

該複數轉接端子42的一端分別電性連接該電路板4,另一端朝該絕緣本體10的底面延伸。並且,本實施例中該連接器1’還包括一固定件12,該固定件12由下往上組接於該絕緣本體10。具體地,該固定件12上開設有複數端子槽121,當該固定件12與該絕緣本體10組接時,該複數轉接端子42與該USB Type-A連接器3上的複數端子恰容置於該複數端子槽121中。其中,該複數端子槽121的數量較佳對應至該複數轉接端子42的數量與該USB Type-A連接器3的端子數量的總合,但不加以限定。One end of the plurality of switching terminals 42 is electrically connected to the circuit board 4, and the other end extends toward the bottom surface of the insulative housing 10. Moreover, in the embodiment, the connector 1' further includes a fixing member 12, and the fixing member 12 is assembled to the insulative housing 10 from the bottom to the top. Specifically, the fixing member 12 is provided with a plurality of terminal slots 121. When the fixing member 12 is assembled with the insulating body 10, the plurality of switching terminals 42 and the plurality of terminals on the USB Type-A connector 3 are suitable. It is placed in the plurality of terminal slots 121. The number of the plurality of terminal slots 121 preferably corresponds to the sum of the number of the plurality of switching terminals 42 and the number of terminals of the USB Type-A connector 3, but is not limited.

通過上述第三具體實施例的型態,可有效縮小該連接器1’整體的體積。With the above-described third embodiment, the overall volume of the connector 1' can be effectively reduced.

參閱圖16,為本創作的第四具體實施例的立體組合圖。圖14揭露了一組合式連接器100,該組合式連接器100主要具有一本體1001,該本體1001上設置有至少一電連接器1002(本實施例中以一RJ-45連接器為例),並且該電連接器1002下方具有一容置空間1003。Referring to Figure 16, a perspective view of a fourth embodiment of the present invention is shown. FIG. 14 illustrates a modular connector 100. The modular connector 100 has a main body 1001. The main body 1001 is provided with at least one electrical connector 1002 (in this embodiment, an RJ-45 connector is taken as an example). And an accommodating space 1003 is disposed under the electrical connector 1002.

一般來說,該容置空間1003係用以組接由兩個標準的USB Type-A連接器所組成的複合式連接器。如此一來,該組合式連接器1000可包含三個標準的電連接器。Generally, the accommodating space 1003 is used to assemble a composite connector composed of two standard USB Type-A connectors. As such, the modular connector 1000 can include three standard electrical connectors.

如上所述,本創作的該複合式連接器1、6、1'(以該複合式連接器1'為例)是由該USB Type-C連接器2與該USB Type-A連接器3所組成,而該USB Type-C連接器2又裸露於大小與形狀皆對應至USB Type-A連接器的接口的大小與形狀的該前端面101。因此,本創作的該複合式連接器1'的整體形狀與體積可對應至由兩個標準的USB Type-A連接器所組成的複合式連接器的形狀與體積,並且恰可設置於該容置空間1003中。As described above, the composite connector 1, 6, 1' (for example, the composite connector 1') of the present invention is composed of the USB Type-C connector 2 and the USB Type-A connector 3. The USB Type-C connector 2 is again exposed to the front end face 101 of a size and shape corresponding to the size of the interface of the USB Type-A connector. Therefore, the overall shape and volume of the composite connector 1' of the present invention can correspond to the shape and volume of the composite connector composed of two standard USB Type-A connectors, and can be set in the capacity. Placed in space 1003.

通過本創作的技術方案,即使使用者要製造由兩個以上的電連接器所組成的該組合式連接器100,亦不需改變該本體1001的形狀與構造,實相當便利。With the technical solution of the present invention, even if the user wants to manufacture the modular connector 100 composed of two or more electrical connectors, it is not necessary to change the shape and configuration of the body 1001, which is quite convenient.

以上所述者,僅為本創作之一較佳實施例之具體說明,非用以侷限本創作之專利範圍,其他任何等效變換均應俱屬後述之申請專利範圍內。The above is only a specific description of a preferred embodiment of the present invention, and is not intended to limit the scope of the patents of the present invention, and any other equivalent transformations are within the scope of the patent application described below.

1、1’、6‧‧‧連接器1, 1', 6‧‧‧ connectors

10、60‧‧‧絕緣本體10, 60‧‧‧Insulated body

101…601‧‧‧前端面101...601‧‧‧ front end face

11、61‧‧‧容置槽11, 61‧‧‧ accommodating slots

12‧‧‧固定件12‧‧‧Fixed parts

121‧‧‧端子槽121‧‧‧Terminal slot

2、7‧‧‧USB Type-C連接器2, 7‧‧‧USB Type-C connector

21、71‧‧‧連接端子21, 71‧‧‧ connection terminals

3、8‧‧‧USB Type-A連接器3, 8‧‧‧USB Type-A connector

4‧‧‧電路板4‧‧‧ boards

40、90‧‧‧連接線路40, 90‧‧‧ Connection lines

41‧‧‧處理單元41‧‧‧Processing unit

42‧‧‧轉接端子42‧‧‧Transfer terminal

421‧‧‧第一接地端子421‧‧‧First grounding terminal

422‧‧‧傳輸正端子422‧‧‧Transmission positive terminal

423‧‧‧傳輸負端子423‧‧‧Transmission negative terminal

424‧‧‧電源端子424‧‧‧Power terminal

425‧‧‧正資料端子425‧‧‧正数据终端

426‧‧‧負資料端子426‧‧‧negative data terminal

427‧‧‧接收負端子427‧‧‧ receiving negative terminal

428‧‧‧接收正端子428‧‧‧ receiving positive terminal

429‧‧‧第二接地端子429‧‧‧Second ground terminal

5‧‧‧主機板5‧‧‧ motherboard

51、52、53、54‧‧‧連接區51, 52, 53, 54‧‧‧ Connection area

511、521、531、541‧‧‧第一接孔組511, 521, 531, 541‧‧‧ first hole set

512、522、532、542‧‧‧第二接孔組512, 522, 532, 542‧‧‧ second hole set

9‧‧‧第一電路板9‧‧‧First board

91‧‧‧處理單元91‧‧‧Processing unit

92‧‧‧第一轉接端子92‧‧‧First adapter terminal

93‧‧‧第一接點93‧‧‧First contact

94‧‧‧第二電路板94‧‧‧Second circuit board

941‧‧‧第二接點941‧‧‧second junction

942‧‧‧第二轉接端子942‧‧‧Second transfer terminal

1000‧‧‧組合式連接器1000‧‧‧Combined connector

1001‧‧‧本體1001‧‧‧ Ontology

1002‧‧‧電連接器1002‧‧‧Electrical connector

1003‧‧‧容置空間1003‧‧‧ accommodating space

圖1為本創作的第一具體實施例的立體分解圖。Figure 1 is an exploded perspective view of a first embodiment of the present invention.

圖2為本創作的第一具體實施例的立體組合圖。Figure 2 is a perspective assembled view of a first embodiment of the present invention.

圖3為本創作的第一具體實施例的主機板接點示意圖。FIG. 3 is a schematic diagram of a motherboard connection of the first embodiment of the present invention.

圖4為本創作的第一具體實施例的接腳連接示意圖。Figure 4 is a schematic view showing the pin connection of the first embodiment of the present invention.

圖5為本創作的第二具體實施例的接腳連接示意圖。FIG. 5 is a schematic diagram of the pin connection of the second embodiment of the present invention.

圖6為本創作的第二具體實施例的立體分解圖。Figure 6 is an exploded perspective view of a second embodiment of the present invention.

圖7為本創作的第二具體實施例的側視圖。Figure 7 is a side elevational view of a second embodiment of the creation.

圖8為本創作的第二具體實施例的主機板接點示意圖。FIG. 8 is a schematic diagram of a motherboard contact of the second embodiment of the present invention.

圖9為本創作的第三具體實施例的主機板接點示意圖。FIG. 9 is a schematic diagram of a motherboard connection of a third embodiment of the present invention.

圖10為本創作的第四具體實施例的主機板接點示意圖。FIG. 10 is a schematic diagram of a motherboard contact of the fourth embodiment of the present invention.

圖11為本創作的第三具體實施例的接腳連接示意圖。Figure 11 is a schematic view showing the pin connection of the third embodiment of the present invention.

圖12為本創作的第四具體實施例的接腳連接示意圖。Figure 12 is a schematic view showing the pin connection of the fourth embodiment of the present invention.

圖13為本創作的第三具體實施例的立體分解圖。Figure 13 is an exploded perspective view of a third embodiment of the present invention.

圖14為本創作的第三具體實施例的立體組合圖。Figure 14 is a perspective assembled view of a third embodiment of the present invention.

圖15為本創作的第三具體實施例的側視圖。Figure 15 is a side elevational view of a third embodiment of the present invention.

圖16為本創作的第四具體實施例的立體組合圖。Figure 16 is a perspective assembled view of a fourth embodiment of the present invention.

1‧‧‧連接器 1‧‧‧Connector

10‧‧‧絕緣本體 10‧‧‧Insulated body

101‧‧‧前端面 101‧‧‧ front end

11‧‧‧容置槽 11‧‧‧ accommodating slots

2‧‧‧USB Type-C連接器 2‧‧‧USB Type-C connector

21‧‧‧連接端子 21‧‧‧Connecting terminal

3‧‧‧USB Type-A連接器 3‧‧‧USB Type-A connector

4‧‧‧電路板 4‧‧‧ boards

40‧‧‧連接線路 40‧‧‧Connected lines

41‧‧‧處理單元 41‧‧‧Processing unit

42‧‧‧轉接端子 42‧‧‧Transfer terminal

Claims (28)

一種複合式連接器,包括: 一絕緣本體; 一USB Type-C連接器,設置於該絕緣本體,具有複數連接端子,並且該複數連接端子的數量少於二十四根; 一USB Type-A連接器,鄰近於該USB Type-C連接器設置; 一第一電路板,一端電性連接複數第一轉接端子,另一端設置有複數接點,其中該複數第一轉接端子對應至USB Type-A規格; 一第二電路板,一端電性連接該USB Type-C連接器的該複數連接端子,另一端電性連接複數第二轉接端子的一端,並且該複數第二轉接端子的另一端分別電性連接該第一電路板上的該複數接點;及 一連接線路,設置於該第一電路板並且電性連接該複數接點及該複數第一轉接端子,將該USB Type-C連接器藉由該複數連接端子傳輸的訊號傳遞至該複數第一轉接端子,並藉由該複數第一轉接端子對外傳輸。A composite connector includes: an insulative housing; a USB Type-C connector disposed on the insulative housing, having a plurality of connection terminals, and the number of the plurality of connection terminals is less than twenty-four; a USB Type-A a connector adjacent to the USB Type-C connector; a first circuit board, one end electrically connected to the plurality of first switching terminals, and the other end is provided with a plurality of contacts, wherein the plurality of first switching terminals correspond to the USB a second circuit board, one end of which is electrically connected to the plurality of connection terminals of the USB Type-C connector, and the other end of which is electrically connected to one end of the plurality of second switching terminals, and the plurality of second switching terminals The other end is electrically connected to the plurality of contacts on the first circuit board; and a connecting circuit is disposed on the first circuit board and electrically connected to the plurality of contacts and the plurality of first switching terminals, The signal transmitted by the USB Type-C connector through the plurality of connection terminals is transmitted to the plurality of first switching terminals, and is externally transmitted by the plurality of first switching terminals. 如請求項1所述的複合式連接器,其中該複數連接端子的數量為四根、六根、九根或十根。The composite connector of claim 1, wherein the number of the plurality of connection terminals is four, six, nine or ten. 如請求項2所述的複合式連接器,其中該複數第一轉接端子的數量對應至該複數連接端子的數量。The composite connector of claim 2, wherein the number of the plurality of first switching terminals corresponds to the number of the plurality of connection terminals. 如請求項1所述的複合式連接器,其中該複數第一轉接端子的數量為九根,並且包括一第一接地端子(GND)、一電源端子(VBUS)、一正資料端子(D+)、一負資料端子(D-)、一傳輸正端子(Tx+)、一傳輸負端子(Tx-)、一接收正端子(Rx+)、一接收負端子(Rx-)及一第二接地端子。The composite connector of claim 1, wherein the number of the plurality of first switching terminals is nine, and includes a first ground terminal (GND), a power terminal (VBUS), and a positive data terminal (D+). ), a negative data terminal (D-), a transmission positive terminal (Tx+), a transmission negative terminal (Tx-), a receiving positive terminal (Rx+), a receiving negative terminal (Rx-), and a second ground terminal . 如請求項4所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路、該第一電路板、該複數第二轉接端子及該第二電路板連接該USB Type-C連接器,其中第一接地端子連接該USB Type-C連接器頂面的第一根連接端子、該電源端子連接該USB Type-C連接器頂面的第四連接端子或底面的第九根連接端子,該正資料端子連接該USB Type-C連接器頂面的第六根端子,該負資料端子連接該USB Type-C連接器頂面的第七根連接端子,該傳輸正端子連接該USB Type-C連接器頂面的第二根連接端子,該傳輸負端子連接該USB Type-C連接器頂面的第三根連接端子,該接收正端子連接該USB Type-C連接器底面的第十一根連接端子,該接收負端子連接該USB Type-C連接器底面的第十根連接端子,該第二接地端子連接該USB Type-C連接器底面的第十二根連接端子。The composite connector of claim 4, wherein the plurality of first switching terminals respectively connect the USB Type through the connection line, the first circuit board, the plurality of second switching terminals, and the second circuit board. a C connector, wherein the first ground terminal is connected to the first connection terminal of the top surface of the USB Type-C connector, and the power terminal is connected to the fourth connection terminal of the top surface of the USB Type-C connector or the ninth of the bottom surface a connection terminal, the positive data terminal is connected to a sixth terminal of a top surface of the USB Type-C connector, and the negative data terminal is connected to a seventh connection terminal of a top surface of the USB Type-C connector, and the transmission positive terminal is connected to the a second connection terminal on the top surface of the USB Type-C connector, the transmission negative terminal is connected to a third connection terminal on the top surface of the USB Type-C connector, and the receiving positive terminal is connected to the bottom surface of the USB Type-C connector The eleventh connection terminal is connected to the tenth connection terminal on the bottom surface of the USB Type-C connector, and the second ground terminal is connected to the twelfth connection terminal on the bottom surface of the USB Type-C connector. 如請求項4所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路、該第一電路板、該複數第二轉接端子及該第二電路板連接該USB Type-C連接器,其中第一接地端子連接該USB Type-C連接器底面的第一根連接端子、該電源端子連接該USB Type-C連接器底面的第四連接端子或頂面的第九根連接端子,該正資料端子連接該USB Type-C連接器底面的第六根端子,該負資料端子連接該USB Type-C連接器底面的第七根連接端子,該傳輸正端子連接該USB Type-C連接器底面的第二根連接端子,該傳輸負端子連接該USB Type-C連接器底面的第三根連接端子,該接收正端子連接該USB Type-C連接器頂面的第十一根連接端子,該接收負端子連接該USB Type-C連接器頂面的第十根連接端子,該第二接地端子連接該USB Type-C連接器頂面的第十二根連接端子。The composite connector of claim 4, wherein the plurality of first switching terminals respectively connect the USB Type through the connection line, the first circuit board, the plurality of second switching terminals, and the second circuit board. a C connector, wherein the first ground terminal is connected to the first connection terminal of the bottom surface of the USB Type-C connector, the power terminal is connected to the fourth connection terminal of the bottom surface of the USB Type-C connector or the ninth connection of the top surface a terminal, the positive data terminal is connected to a sixth terminal of the bottom surface of the USB Type-C connector, and the negative data terminal is connected to a seventh connection terminal of the bottom surface of the USB Type-C connector, and the transmission positive terminal is connected to the USB Type- a second connection terminal on the bottom surface of the C connector, the transmission negative terminal is connected to a third connection terminal on the bottom surface of the USB Type-C connector, and the reception positive terminal is connected to the eleventh top surface of the USB Type-C connector a connection terminal, the receiving negative terminal is connected to the tenth connection terminal on the top surface of the USB Type-C connector, and the second ground terminal is connected to the twelfth connection terminal on the top surface of the USB Type-C connector. 如請求項1所述的複合式連接器,其中該複數第一轉接端子的數量為四根,並且包括一電源端子(VBUS)、一正資料端子(D+)、一負資料端子(D-)及一接地端子(GND)。The composite connector of claim 1, wherein the number of the plurality of first switching terminals is four, and includes a power terminal (VBUS), a positive data terminal (D+), and a negative data terminal (D- ) and a ground terminal (GND). 如請求項7所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路、該第一電路板、該複數第二轉接端子及該第二電路板連接該USB Type-C連接器,其中該電源端子連接該USB Type-C連接器頂面的第四根連接端子或底面的第九根連接端子,該正資料端子連接該USB Type-C連接器頂面的第六根連接端子,該負資料端子連接該USB Type-C連接器頂面的第七根連接端子,該接地端子連接該USB Type-C連接器頂面的第一根連接端子或底面的第十二根連接端子。The composite connector of claim 7, wherein the plurality of first switching terminals respectively connect the USB Type through the connection line, the first circuit board, the plurality of second switching terminals, and the second circuit board. a C connector, wherein the power terminal is connected to a fourth connection terminal on the top surface of the USB Type-C connector or a ninth connection terminal on the bottom surface, and the positive data terminal is connected to the sixth surface of the top surface of the USB Type-C connector a root connection terminal, the negative data terminal is connected to a seventh connection terminal of the top surface of the USB Type-C connector, and the ground terminal is connected to the first connection terminal of the top surface of the USB Type-C connector or the twelfth bottom surface of the bottom surface Root connection terminal. 如請求項7所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路、該第一電路板、該複數第二轉接端子及該第二電路板連接該USB Type-C連接器,其中該電源端子連接該USB Type-C連接器底面的第四根連接端子或頂面的第九根連接端子,該正資料端子連接該USB Type-C連接器底面的第六根連接端子,該負資料端子連接該USB Type-C連接器底面的第七根連接端子,該接地端子連接該USB Type-C連接器底面的第一根連接端子或頂面的第十二根連接端子。The composite connector of claim 7, wherein the plurality of first switching terminals respectively connect the USB Type through the connection line, the first circuit board, the plurality of second switching terminals, and the second circuit board. a C connector, wherein the power terminal is connected to a fourth connection terminal on the bottom surface of the USB Type-C connector or a ninth connection terminal on the top surface, and the positive data terminal is connected to the sixth root of the bottom surface of the USB Type-C connector a connection terminal, the negative data terminal is connected to a seventh connection terminal on the bottom surface of the USB Type-C connector, and the ground terminal is connected to the first connection terminal on the bottom surface of the USB Type-C connector or the twelfth connection on the top surface of the top surface Terminal. 如請求項1-9中任一項所述的複合式連接器,其中更包括一處理單元,電性連接於該第一電路板,並且通過該連接線路電性連接該複數第一轉接端子及該複數接點。The composite connector of any one of claims 1-9, further comprising a processing unit electrically connected to the first circuit board, and electrically connecting the plurality of first switching terminals through the connecting line And the plural contacts. 如請求項1-9中任一項所述的複合式連接器,其中該絕緣本體具有一容置槽,該USB Type-C連接器水平設置於該容置槽,該USB Type-A連接器水平設置於該USB Type-C器下方,該第一電路板垂直於該USB Type-C連接器及該USB Type-A連接器設置,該第二電路板水平於該USB Type-C連接器及該USB Type-A連接器設置。The composite connector of any one of the preceding claims, wherein the insulative housing has a receiving slot, the USB Type-C connector is horizontally disposed in the receiving slot, the USB Type-A connector Horizontally disposed under the USB Type-C, the first circuit board is disposed perpendicular to the USB Type-C connector and the USB Type-A connector, and the second circuit board is horizontal to the USB Type-C connector and The USB Type-A connector is set. 如請求項11所述的複合式連接器,其中該絕緣本體具有一前端面,該USB Type-C連接器設置於該容置槽並裸露出該前端面,並且該前端面的大小與形狀對應至標準USB Type-A連接器的接口的大小與形狀。The composite connector of claim 11, wherein the insulative housing has a front end surface, the USB Type-C connector is disposed in the receiving slot and exposes the front end surface, and the front end surface has a size and shape corresponding to The size and shape of the interface to the standard USB Type-A connector. 一種複合式連接器,包括: 一絕緣本體; 一USB Type-C連接器,水平設置於該絕緣本體,具有複數連接端子,其中該複數連接端子的數量少於二十四根; 一USB Type-A連接器,鄰近於該USB Type-C連接器設置; 一第一電路板,一端電性連接該USB Type-C連接器的該複數連接端子; 複數第一轉接端子,一端分別電性連接該第一電路板的另一端,另一端朝該絕緣本體的底面延伸,其中該複數第一轉接端子對應至USB Type-A規格;及 一連接線路,設置於該第一電路板並且電性連接該複數連接端子及該複數第一轉接端子,將該USB Type-C連接器藉由該複數連接端子傳輸的訊號傳遞至該複數第一轉接端子,並藉由該複數第一轉接端子對外傳輸。A composite connector includes: an insulative housing; a USB Type-C connector disposed horizontally on the insulative housing, having a plurality of connection terminals, wherein the number of the plurality of connection terminals is less than twenty-four; a USB Type- An A connector is disposed adjacent to the USB Type-C connector; a first circuit board having one end electrically connected to the plurality of connection terminals of the USB Type-C connector; and a plurality of first switching terminals electrically connected at one end The other end of the first circuit board extends toward the bottom surface of the insulative housing, wherein the plurality of first switching terminals correspond to a USB Type-A specification; and a connecting line is disposed on the first circuit board and electrically Connecting the plurality of connection terminals and the plurality of first transfer terminals, and transmitting the signal transmitted by the USB Type-C connector through the plurality of connection terminals to the plurality of first transfer terminals, and using the plurality of first transfer terminals The terminal is transmitted externally. 如請求項13所述的複合式連接器,其中該複數連接端子的數量為四根、六根、九根或十根。The composite connector of claim 13, wherein the number of the plurality of connection terminals is four, six, nine or ten. 如請求項14所述的複合式連接器,其中該複數第一轉接端子的數量對應至該複數連接端子的數量。The composite connector of claim 14, wherein the number of the plurality of first switching terminals corresponds to the number of the plurality of connection terminals. 如請求項13所述的複合式連接器,其中該複數第一轉接端子的數量為九根,並且包括一第一接地端子(GND)、一電源端子(VBUS)、一正資料端子(D+)、一負資料端子(D-)、一傳輸正端子(Tx+)、一傳輸負端子(Tx-)、一接收正端子(Rx+)、一接收負端子(Rx-)及一第二接地端子。The composite connector of claim 13, wherein the number of the plurality of first switching terminals is nine, and includes a first ground terminal (GND), a power terminal (VBUS), and a positive data terminal (D+). ), a negative data terminal (D-), a transmission positive terminal (Tx+), a transmission negative terminal (Tx-), a receiving positive terminal (Rx+), a receiving negative terminal (Rx-), and a second ground terminal . 如請求項16所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路與該第一電路板連接該USB Type-C連接器,其中該第一接地端子(GND)連接該USB Type-C連接器頂面的第一根連接端子、該電源端子連接該USB Type-C連接器頂面的第四根連接端子或底面的第九根連接端子,該正資料端子連接該USB Type-C連接器頂面的第六根連接端子,該負資料端子連接該USB Type-C連接器頂面的第七根連接端子,該傳輸正端子連接該USB Type-C連接器頂面的第二根連接端子,該傳輸負端子連接該USB Type-C連接器頂面的第三根連接端子,該接收正端子連接該USB Type-C連接器底面的第十一根連接端子,該接收負端子連接該USB Type-C連接器底面的第十根連接端子,該第二接地端子連接該USB Type-C連接器底面的第十二根連接端子。The composite connector of claim 16, wherein the plurality of first switching terminals respectively connect the USB Type-C connector to the first circuit board through the connection line, wherein the first ground terminal (GND) is connected a first connection terminal on a top surface of the USB Type-C connector, the power connection terminal is connected to a fourth connection terminal on a top surface of the USB Type-C connector or a ninth connection terminal on a bottom surface, and the positive data terminal is connected to the a sixth connection terminal on the top surface of the USB Type-C connector, the negative data terminal is connected to the seventh connection terminal on the top surface of the USB Type-C connector, and the transmission positive terminal is connected to the top surface of the USB Type-C connector a second connection terminal, the transmission negative terminal is connected to a third connection terminal on a top surface of the USB Type-C connector, and the reception positive terminal is connected to an eleventh connection terminal on a bottom surface of the USB Type-C connector, The receiving negative terminal is connected to the tenth connecting terminal on the bottom surface of the USB Type-C connector, and the second ground terminal is connected to the twelfth connecting terminal on the bottom surface of the USB Type-C connector. 如請求項16所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路與該第一電路板連接該USB Type-C連接器,其中該第一接地端子(GND)連接該USB Type-C連接器底面的第一根連接端子、該電源端子連接該USB Type-C連接器底面的第四根連接端子或頂面的第九根連接端子,該正資料端子連接該USB Type-C連接器底面的第六根連接端子,該負資料端子連接該USB Type-C連接器底面的第七根連接端子,該傳輸正端子連接該USB Type-C連接器底面的第二根連接端子,該傳輸負端子連接該USB Type-C連接器底面的第三根連接端子,該接收正端子連接該USB Type-C連接器頂面的第十一根連接端子,該接收負端子連接該USB Type-C連接器頂面的第十根連接端子,該第二接地端子連接該USB Type-C連接器頂面的第十二根連接端子。The composite connector of claim 16, wherein the plurality of first switching terminals respectively connect the USB Type-C connector to the first circuit board through the connection line, wherein the first ground terminal (GND) is connected a first connection terminal on the bottom surface of the USB Type-C connector, the power connection terminal is connected to a fourth connection terminal on the bottom surface of the USB Type-C connector or a ninth connection terminal on the top surface, and the positive data terminal is connected to the USB a sixth connection terminal on the bottom surface of the Type-C connector, the negative data terminal is connected to the seventh connection terminal on the bottom surface of the USB Type-C connector, and the transmission positive terminal is connected to the second root of the bottom surface of the USB Type-C connector a connection terminal, the transmission negative terminal is connected to a third connection terminal on the bottom surface of the USB Type-C connector, and the reception positive terminal is connected to the eleventh connection terminal on the top surface of the USB Type-C connector, and the receiving negative terminal is connected The tenth connection terminal on the top surface of the USB Type-C connector, and the second ground terminal is connected to the twelfth connection terminal on the top surface of the USB Type-C connector. 如請求項13所述的複合式連接器,其中該複數第一轉接端子的數量為四根,並且包括一電源端子(VBUS)、一正資料端子(D+)、一負資料端子(D-)及一接地端子(GND)。The composite connector of claim 13, wherein the number of the plurality of first switching terminals is four, and includes a power terminal (VBUS), a positive data terminal (D+), and a negative data terminal (D- ) and a ground terminal (GND). 如請求項19所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路與該第一電路板連接該USB Type-C連接器,其中該電源端子連接該USB Type-C連接器頂面的第四根連接端子或底面的第九根連接端子,該正資料端子連接該USB Type-C連接器頂面的第六根連接端子,該負資料端子連接該USB Type-C連接器頂面的第七根連接端子,該接地端子連接該USB Type-C連接器頂面的第一根連接端子或底面的第十二根連接端子。The composite connector of claim 19, wherein the plurality of first switching terminals respectively connect the USB Type-C connector to the first circuit board through the connection line, wherein the power terminal is connected to the USB Type-C a fourth connection terminal on the top surface of the connector or a ninth connection terminal on the bottom surface, the positive data terminal is connected to the sixth connection terminal on the top surface of the USB Type-C connector, and the negative data terminal is connected to the USB Type-C a seventh connection terminal on the top surface of the connector, the ground terminal being connected to the first connection terminal on the top surface of the USB Type-C connector or the twelfth connection terminal on the bottom surface. 如請求項19所述的複合式連接器,其中該複數第一轉接端子分別通過該連接線路與該第一電路板連接該USB Type-C連接器,其中該電源端子連接該USB Type-C連接器底面的第四根連接端子或頂面的第九根連接端子,該正資料端子連接該USB Type-C連接器底面的第六根連接端子,該負資料端子連接該USB Type-C連接器底面的第七根連接端子,該接地端子連接該USB Type-C連接器底面的第一根連接端子或頂面的第十二根連接端子。The composite connector of claim 19, wherein the plurality of first switching terminals respectively connect the USB Type-C connector to the first circuit board through the connection line, wherein the power terminal is connected to the USB Type-C a fourth connection terminal on the bottom surface of the connector or a ninth connection terminal on the top surface, the positive data terminal is connected to the sixth connection terminal on the bottom surface of the USB Type-C connector, and the negative data terminal is connected to the USB Type-C connection The seventh connection terminal on the bottom surface of the device, the ground terminal is connected to the first connection terminal on the bottom surface of the USB Type-C connector or the twelfth connection terminal on the top surface. 如請求項13-21中任一項所述的複合式連接器,其中更包括一處理單元,電性連接於該第一電路板,並且通過該連接線路電性連接該複數第一轉接端子及該USB Type-C連接器。The composite connector of any one of claims 13-21, further comprising a processing unit electrically connected to the first circuit board, and electrically connecting the plurality of first switching terminals through the connecting line And the USB Type-C connector. 如請求項13-21中任一項所述的複合式連接器,其中該絕緣本體具有一容置槽,該USB Type-C連接器水平設置於該容置槽中,該第一電路板水平設置於該USB Type-C連接器下方,該USB Type-A連接器水平設置於該第一電路板下方。The composite connector of any one of the preceding claims, wherein the insulative housing has a receiving slot, the USB Type-C connector is horizontally disposed in the receiving slot, the first circuit board is horizontally It is disposed under the USB Type-C connector, and the USB Type-A connector is horizontally disposed under the first circuit board. 如請求項23所述的複合式連接器,其中該絕緣本體具有一前端面,該USB Type-C連接器設置於該容置槽並裸露出該前端面,並且該前端面的大小與形狀對應至標準USB Type-A連接器的接口的大小與形狀。The composite connector of claim 23, wherein the insulative housing has a front end surface, the USB Type-C connector is disposed in the receiving slot and exposes the front end surface, and the front end surface corresponds in size and shape The size and shape of the interface to the standard USB Type-A connector. 如請求項24所述的複合式連接器,其中更包括一固定件,由下往上組接於該絕緣本體,該固定件設置有複數端子槽,該複數端子槽容置該複數轉接端子及該USB Type-A連接器的複數端子。The composite connector of claim 24, further comprising a fixing member connected to the insulative housing from bottom to top, the fixing member is provided with a plurality of terminal slots, the plurality of terminal slots receiving the plurality of switching terminals And the multiple terminals of the USB Type-A connector. 如請求項13-21中任一項所述的複合式連接器,其中該第一電路板的一端具有複數第一接點,並且該複合式連接器還包括: 一第二電路板,一端電性連接該USB Type-C連接器的該複數連接端子,另一端具有複數第二接點;及 複數第二轉接端子,一端分別電性連接該複數第一接點,另一端分別電性連接該複數第二接點。The composite connector of any one of claims 13-21, wherein one end of the first circuit board has a plurality of first contacts, and the composite connector further comprises: a second circuit board, one end of which is electrically The plurality of connection terminals are connected to the USB Type-C connector, and the other end has a plurality of second contacts; and the plurality of second adapter terminals are electrically connected to the plurality of first contacts respectively, and the other ends are respectively electrically connected The plural second contact. 如請求項26所述的複合式連接器,其中該複數第一接點的數量為四個或九個、該複數第二接點的數量為四個或九個、該複數第二轉接端子的數量為四根或九根。The composite connector of claim 26, wherein the number of the plurality of first contacts is four or nine, the number of the plurality of second contacts is four or nine, and the plurality of second switching terminals The number is four or nine. 如請求項26所述的複合式連接器,其中該絕緣本體具有一容置槽,該USB Type-C連接器水平設置於該容置槽,該USB Type-A連接器水平設置於該USB Type-C連接器下方,該第一電路板垂直於該USB Type-C連接器及該USB Type-A連接器設置,該第二電路板水平於該USB Type-C連接器及該USB Type-A連接器設置。The composite connector of claim 26, wherein the insulative housing has a receiving slot, the USB Type-C connector is horizontally disposed in the receiving slot, and the USB Type-A connector is horizontally disposed on the USB Type Under the -C connector, the first circuit board is disposed perpendicular to the USB Type-C connector and the USB Type-A connector, the second circuit board is horizontal to the USB Type-C connector and the USB Type-A Connector settings.
TW104218616U 2015-11-19 2015-11-19 Compound connector TWM522491U (en)

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