M438.717 五、新型說明: 【新型所屬之技術領域】 [0001]本創作係與連接器有關,特別有關於内建有近場通訊 (Near Field Communication,NFc)模组的連接器。 【先前技術】 [0002] 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》了輸入控制指令以操控電子裝置,或在多個 電子裝置之間互相傳輸資料’絕大部分的電子裝置皆在 主機板上配置有多個連接器。 [0003] 近年來盛行的各式連接器’例如通用序列匯流排 (Universal Serial Bus,USB)或外部序列高技術配置 (External Serial Advanced TechnologyM438.717 V. New Description: [New Technology Field] [0001] This creation is related to connectors, especially for connectors with built-in Near Field Communication (NFc) modules. [Prior Art] [0002] Nowadays, the electronics industry is developed, and various electronic devices are filled with the general public's life. "There are input control commands to manipulate electronic devices, or to transfer data between multiple electronic devices." The electronic device is configured with a plurality of connectors on the motherboard. [0003] Various types of connectors that have prevailed in recent years, such as Universal Serial Bus (USB) or external serial high technology configuration (External Serial Advanced Technology)
Attachment,e-SATA)等連接器,皆以熱插拔 (plug&play)為基本訴求。藉由熱插拔的特性,當第一 裝置的連接器公頭與第二裝置的連接器母頭互相插接之 後,该二裝置即可立刻建立連結,以傳輸資料,相當便 利° [0004]上述連接器係為電腦的主要輸出入介面,因此大部分設 置於電腦主機板的邊緣,例如主機的前緣或後緣,以利 使用者插接外部裝置。是以,若能將無線傳輸的介面放 置於連接器内部,將能得到絕佳的感應效果。更具體而 ° 某些無線傳輸技術的有效距離較短,例如近場通訊 (Near Field Communication, NFC)技術,是以,讓此 類短距離傳輪技術的傳輸模組隨著連接器設置在主機板 的邊緣’較不會有接收不到訊號的困擾。 10120624^單編號 A0101 1012020678-0 第3頁/共21頁 M438717 [0005] 再者,為配合使用者的不同需求,每一主機板上所配置 的連接器種類及數量皆可能不同,可變性極大。是以, 若能如前文所述’將傳輸模組設置於各式連接器上,則 當電腦主機設置該連接器後,使用者的使用便利性將可 大大地被提昇。 【新型内容】 [0006] 本創作之主要目的,在於提供一種内建NFC模組的連接器 ,可通過連接器上的NFC模組來感測外部的NFC卡片,並 於驗證通過後,控制連接器所連接的外部主機板進行對 應的作動。 [0007] 為達上述目的’本創作主要包括:一絕緣本體、複數連 接端子、一電路板、一NFC模組、一第一輸出端子組及一 第二輸出端子組。複數連接端子設置於絕緣本體上,並 且通過電路板電性連接第一輸出端子組,藉以通過第一 輸出端子組與外部的主機板電性連接。NFC模組設置於電 路板上’並通過電路板與第二輸出端子組電性連接,藉 以通過第二輸出端子組與外部的主機板電性連接。當心匸 模組無線感測外部的NFC卡片並且驗證通過後,即藉由第 二輸出端子組輸出訊號至主機板,以控制主機板進行對 應之作動。 [0008] 本創作相較於先前技術所達成之功效在於,在連接器上 設置NFC模组,並直接在電腦的主機板上設置内建有肝〇 , 模組的該連接器,則該主機板可直接受該NFC模組的控制 。當該NFC模组感測到外部的nfc卡片,並且驗證通過後 ,可直接發出控制命令該主機板,以令該主機板進行對 1012020678-0 1012062#單減細】 第4頁/共21頁 M438717 應的作動,例如開/關機’或啟用(Enable)/限制 (Disable)特定功能等。如此一來,持有該NFC卡片的使 用者’可以使用該NFC卡片來感應該連接器上的NFC模組 ,藉以輕易地觸發電腦主機執行對應功能,進而能有效 提高使用便利性,並同時兼顧電腦的安全性。 【實施方式】 [0009] 為能夠更加詳盡的了解本創作之特點與技術内容,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。 [0010] 首請參閱第一圖,為本創作的一較佳具體實施例的立體 分解圖。如圖所示,本創作的内建近場通訊(Near Field Communication,NFC)模組的連接器1 (下面將簡 稱為該連接器1),主要包括:一絕緣本體21、複數連接 端子22、一電路板3、一 NFC模組31、一第一輸出端子組 41及一第二輸出端子組42。 [0011] 該絕緣本體21的一端面朝前延伸凸設有一舌部211,並且 於該舌部211上開設有複數通槽212 »該複數連接端子22 主要設置於該複數通槽212中,並且該複數連接端子22的 數量對應至該複數通槽212的數量,但不加以限定。該複 數連接端子22分別具有一導接部221及遠離該導接部221 的一焊接部222,該些導接部221露出於該通槽212外, 藉以與外部連接器公頭的端子(圖未標示)電性連接;而 該些焊接部222則於該絕緣本體21的另一端面伸出,以電 性連接位於該絕緣本體21的另一端面的該電路板3 » [0012] 該第一輸出端子組41包括複數端子,該複數端子的 10120624# 單編號 Α0101 第5頁/共21頁 端 1012020678-0 M438717 [0013] 分別電性連接該電路板3,並通過該電路板3與該複數連 接端子22電性連接。並且,該連接器1通過該第一輸出端 子組41的另一端與外部裝置的主機板(如第三圖中所示的 主機板7)電性連接。藉以,當外部連接器的端子與該複 數連接端子22電性連接時,該主機板7可通過該第一輸出 端子組41及該複數連接端子22與該外部連接器連接,進 而互相傳遞資料。 該NFC模組31設置於該電路板3上,並且與該電路板3電性 連接,本實施例中,該NFC模組31雖然設置於該電路板3 上,但並未與該複數連接端子22及該第一輸出端子組41 有電性導接關係。 [0014] [〇〇15] 1〇12〇624夢單磉 該第二輸出端子組42包括複數端子,該複數端子的一端 分別電性連接該電路板3,並通過該電路板3來與該NFC模 組31電性連接》並且,該連接器1通過該第二輸出端子組 42的另一端與該主機板7電性連接《藉此,當該NFC模組 31被觸發後,係產生一控制訊號,並且通過該第二輸出 端子組42將該控制訊號輸出至該主機板7,進而控制該主 機板7進行對應的作動,例如開機、關機、啟用 (Enable)或關閉(Disable) —特定功能等等,視該主機 板7及/或該NFC模組31的設定值而定,不應加以限定。 本實施例中,該第一輸出端子组41係為該複數連接端子 22與該主機板7間的連接橋梁,而該第二輸出端子组42則 為該NFC模組31與該主機板7間的連接橋梁,該第一輸出 端子組41與該第二輸出端子組42雖然共同設置於該連接 窃1内的該電路板3上’但彼此並沒有任何的連接關係。 A〇l〇i 第6頁/共21頁 1012020678-0 M438.717 [0016] 4連接器1更包括—鐵殼5,該鐵殼5用以包覆該絕緣本體 21、該複數連接端子22、該電路板3、該NFC模組31 '該 第一輸出端子组41及該第二輸出端子組42,藉以為該連 接器1提供金屬屏蔽效果。 [_續請同時參閱第二圖及第三圖,分別為本創作的-較佳 具體實施例社體組合圖及剖示圖。言玄連接器Μ藉由該 絕緣本體21及該複數連接端子22 ,共同構成一連接埠2, 藉以插捿外部傳輸線或外部裝置的連接器公頭6 ^本實施 例中,該連接埠2可例如為一通用序列匯流排 (Universal Serial Bus,USB)連接埠,用以插接usb 規格的該連接器公頭6,並且於此一情況下’該複數連接 端子22數量為四根,但不加以限定。該第一輸出端子組 41為该複數連接端子22的傳輸橋梁,因此該第一輸出端 子組41的數量係對應至該複數連接端子22的數量,於本 實施例中為四根。 [0018]如上所述,當外部裝置的連接器公頭6插接該連接器1上 的該連接埠2時,即可通過該複數連接端子22及該第一輸 出端子組41來與該主機板7電性連接,以與該主機板7互 相傳遞資料。 _]該連接器1 +的該NFC模組31主要是用於無線感測外部的 一NFC卡片8,並對該NFC卡片8進行驗證動作。當該NFC 卡片8通過驗證後,該NFC模組31即產生一控制訊號,並 通過該第二輪出端子組42將該控制訊號輸出至該主機板7 ,以令該主機板7進行對應的作動。換言之,若該nfc模 組31感測不到該NFC卡片8,或是該NFC卡片8無法通過驗 10120624#單編號A0101 第7頁/共21頁 1012020678-0 [0020]M438717 證,則該NFC模組31不動作,該主機板7不會收到任何控 制訊號。 該NFC卡片8可由特定的使用者,例如電腦的所有人所持 有。是以,當該電腦配置了本創作的該連接器1時,只有 持有該NFC卡片8的使用者,才能觸發該連接器1中的該 NFC模組31,藉以直接通過該連接器1中的該NFC模組31 來操控該電腦。舉例來說,使用者可使用該NFC卡片8感 應該NFC模組31,藉以直接驅動該電腦開機或關機,更甚 者’可觸發該電腦啟用特定功能、開啟特定網頁,或是 關閉特定功能、或切換成特定頁面等,不加以限定。 [0021] 值得一提的是,該NFC模組31會發出怎樣的控制訊號,係 可視該NFC模組31的設定值,或是該NFC卡片8的内容為 何而定°舉例來說,可設定該NFC模組31固定於被觸發後 ’發出代表開機動作的控制訊號,或是可設計多張不同 的該NFC卡片8 ’並且設定該NFC模組31在感測不同的該 NFC卡片8後’發出代表不同動作的控制訊號等,不應加 以限定。 [0022]Connectors such as Attachment, e-SATA, etc. are all based on plug & play. By the hot plugging feature, after the connector male connector of the first device and the connector female connector of the second device are plugged into each other, the two devices can immediately establish a connection to transmit data, which is quite convenient. [0004] The connector is the main input and output interface of the computer, so most of it is disposed at the edge of the computer motherboard, such as the front edge or the trailing edge of the mainframe, so that the user can plug in the external device. Therefore, if the wireless transmission interface can be placed inside the connector, excellent sensing effect can be obtained. More specifically, some wireless transmission technologies have shorter effective distances, such as Near Field Communication (NFC) technology, so that the transmission module of such short-distance transmission technology is installed on the host with the connector. The edge of the board is less likely to receive no signal. 10120624^Single number A0101 1012020678-0 Page 3 of 21 M438717 [0005] Furthermore, in order to meet the different needs of users, the types and number of connectors configured on each motherboard may be different, and the variability is extremely large. . Therefore, if the transmission module can be placed on various connectors as described above, the user's convenience of use can be greatly improved when the connector is set by the host computer. [New Content] [0006] The main purpose of this creation is to provide a connector with built-in NFC module, which can sense the external NFC card through the NFC module on the connector, and control the connection after the verification is passed. The external motherboard connected to the device performs the corresponding action. [0007] In order to achieve the above object, the present invention mainly comprises: an insulative housing, a plurality of connection terminals, a circuit board, an NFC module, a first output terminal group and a second output terminal group. The plurality of connection terminals are disposed on the insulative housing, and are electrically connected to the first output terminal group through the circuit board, thereby electrically connecting to the external host board through the first output terminal group. The NFC module is disposed on the circuit board ′ and electrically connected to the second output terminal group through the circuit board, so as to be electrically connected to the external host board through the second output terminal group. When the module wirelessly senses the external NFC card and passes the verification, it outputs the signal to the motherboard through the second output terminal group to control the motherboard to perform the corresponding operation. [0008] The effect achieved by the present invention over the prior art is that an NFC module is disposed on the connector, and the connector having the built-in liver and module is directly disposed on the motherboard of the computer, and the host is The board can be directly controlled by the NFC module. When the NFC module senses the external nfc card, and the verification is passed, the control board can directly issue a control command to make the motherboard perform the 1012020678-0 1012062# single thinning] page 4 / total 21 pages M438717 should be activated, such as on/off' or enable/disable specific functions. In this way, the user holding the NFC card can use the NFC card to sense the NFC module on the connector, thereby easily triggering the host computer to perform the corresponding function, thereby effectively improving the convenience of use, and at the same time taking into consideration Computer security. [Embodiment] [0009] For a more detailed understanding of the features and technical contents of the present invention, please refer to the following description and the drawings. However, the attached drawings are for illustrative purposes only and are not intended to be limiting. By. [0010] Referring first to the first figure, a perspective exploded view of a preferred embodiment of the present invention. As shown in the figure, the connector 1 (hereinafter referred to as the connector 1) of the built-in near field communication (NFC) module of the present invention mainly includes: an insulative body 21, a plurality of connection terminals 22, A circuit board 3, an NFC module 31, a first output terminal group 41 and a second output terminal group 42. [0011] A tongue portion 211 is protruded from the end surface of the insulative housing 21, and a plurality of through slots 212 are formed in the tongue portion 211. The plurality of connection terminals 22 are mainly disposed in the plurality of through slots 212, and The number of the plurality of connection terminals 22 corresponds to the number of the plurality of through grooves 212, but is not limited. Each of the plurality of connection terminals 22 has a guiding portion 221 and a soldering portion 222 away from the guiding portion 221. The guiding portions 221 are exposed outside the through slot 212, thereby being connected to the external connector male terminal (Fig. The soldering portion 222 protrudes from the other end surface of the insulative housing 21 to electrically connect the circuit board 3 located at the other end surface of the insulative housing 21. [0012] An output terminal group 41 includes a plurality of terminals, and the plurality of terminals are 10120624# single number Α 0101 page 5 / 21 pages end 1012020678-0 M438717 [0013] respectively electrically connected to the circuit board 3, and through the circuit board 3 The plurality of connection terminals 22 are electrically connected. And, the connector 1 is electrically connected to the motherboard of the external device (such as the motherboard 7 shown in the third figure) through the other end of the first output terminal group 41. Therefore, when the terminal of the external connector is electrically connected to the plurality of connection terminals 22, the motherboard 7 can be connected to the external connector through the first output terminal group 41 and the plurality of connection terminals 22 to further transfer data to each other. The NFC module 31 is disposed on the circuit board 3 and electrically connected to the circuit board 3. In this embodiment, the NFC module 31 is disposed on the circuit board 3, but is not connected to the plurality of terminals. 22 and the first output terminal group 41 have an electrical conduction relationship. [0014] [〇〇15] 1〇12〇624梦单磉 The second output terminal group 42 includes a plurality of terminals, one end of the plurality of terminals is electrically connected to the circuit board 3, and is connected to the circuit board 3 The NFC module 31 is electrically connected. The connector 1 is electrically connected to the motherboard 7 through the other end of the second output terminal group 42. Thereby, when the NFC module 31 is triggered, a connector 1 is generated. Controlling the signal, and outputting the control signal to the motherboard 7 through the second output terminal group 42, thereby controlling the motherboard 7 to perform corresponding operations, such as powering on, powering off, enabling or disabling - specific The function and the like depend on the setting values of the motherboard 7 and/or the NFC module 31, and should not be limited. In this embodiment, the first output terminal group 41 is a connection bridge between the plurality of connection terminals 22 and the motherboard 7, and the second output terminal group 42 is between the NFC module 31 and the motherboard 7. The connecting bridges, the first output terminal group 41 and the second output terminal group 42 are disposed together on the circuit board 3 in the connection 1 but do not have any connection relationship with each other. A〇l〇i Page 6 of 21 1012020678-0 M438.717 [0016] The connector 1 further includes an iron case 5 for covering the insulative housing 21 and the plurality of connection terminals 22 The circuit board 3, the NFC module 31' the first output terminal group 41 and the second output terminal group 42 are provided with a metal shielding effect for the connector 1. [_Continued to refer to the second and third figures, respectively, for the creation of the preferred embodiment of the social combination diagram and the cross-sectional view. The connector Μ2, by the insulative housing 21 and the plurality of connection terminals 22, together form a connector 埠2, thereby inserting an external transmission line or a connector male connector of the external device. In this embodiment, the connector 埠2 can be For example, a universal serial bus (USB) port is used to plug the connector male connector 6 of the usb specification, and in this case, the number of the plurality of connection terminals 22 is four, but not Limited. The first output terminal group 41 is a transmission bridge of the plurality of connection terminals 22. Therefore, the number of the first output terminal groups 41 corresponds to the number of the plurality of connection terminals 22, which is four in this embodiment. [0018] As described above, when the connector male connector 6 of the external device is plugged into the connector 2 on the connector 1, the host can be connected to the host through the plurality of connection terminals 22 and the first output terminal group 41. The board 7 is electrically connected to transfer data to and from the motherboard 7. The NFC module 31 of the connector 1 + is mainly used for wirelessly sensing an external NFC card 8 and performing a verification operation on the NFC card 8. After the NFC card 8 is verified, the NFC module 31 generates a control signal, and outputs the control signal to the motherboard 7 through the second round-out terminal group 42 to make the motherboard 7 correspond. Actuate. In other words, if the nfc module 31 does not sense the NFC card 8, or the NFC card 8 fails to pass the 10120624# single number A0101 page 7 / 21 page 1012020678-0 [0020] M438717 certificate, then the NFC Module 31 does not operate and the motherboard 7 does not receive any control signals. The NFC card 8 can be held by a particular user, such as the owner of the computer. Therefore, when the computer is configured with the connector 1 of the present creation, only the user holding the NFC card 8 can trigger the NFC module 31 in the connector 1 to directly pass through the connector 1. The NFC module 31 controls the computer. For example, the user can use the NFC card 8 to sense the NFC module 31, thereby directly driving the computer to turn on or off, or even triggering the computer to enable a specific function, opening a specific webpage, or turning off a specific function, Or switch to a specific page, etc., without limitation. [0021] It is worth mentioning that the control signal sent by the NFC module 31 can be determined according to the setting value of the NFC module 31 or the content of the NFC card 8. For example, it can be set. The NFC module 31 is fixed to be triggered to generate a control signal representing the booting action, or to design a plurality of different NFC cards 8' and set the NFC module 31 to sense different NFC cards 8' Sending control signals representing different actions should not be limited. [0022]
續清參閱第四圓,為本創作的一較佳具體實施例的連接 器電路方塊圖。如圖所示,該連接器1主要包括由該絕緣 本體21及該複數連接端子22構成的該連接槔2、該電路板 3,以及設置於該電路板3上的該NFC模組31、該第一輸出 如子組41及忒第二輪出端子组42。該連接埠2通過該電路 板3連接第輪出端子組41 ’該NFC模組31通過該電路 板3連接該第二^端子組42,並且該連接^分別通過 λ第輸出端子組41及該第二輸出端子組42電性連接外 10120624^^^^* 1012020678-0 部裝置的該主機板7,以與該主機板7傳遞-般資料及該 控制訊號。 剛f該連接器公頭6_該連接埠2時,料過該連接淳2與 邊第-輪出端子組41來電性連接該主機板7 ,進而與該主 機板7互相傳輸資料。而當該NFC模組31感測到該NFC卡 以並且驗證通過時,該NFC模组31係產生該控制訊號, 並通過該第二輸出端子組42來將該控制訊號輸出至該主 機板7 β由第四圖可明顯看出,該連接器i内部區分兩條 ® 通道,一條為連接器的資料傳輸通道,另一條為該NFC模 組31的控制訊號傳輸通道,並且兩條通道係為獨立的。 [〇〇24]本實施例中,係以該NFC模組31感測該NFC卡片8為例, 然而該NFC模組31只需感測得到要進行驗證的NFC訊號即 可’其感測物不必然為卡片形式,不應加以限定。 [0025] 參閱第五圖,為本創作的另一較佳具體實施例的剖視圖 。如圖所示,該NFC模組31内部主要包括一NFC晶片311 • 、一記憶單元312及一傳輸天線313 ’其中該NFC晶片311 電性連接該記憶單元312及該傳輸天線313 »該NFC模組 31通過該傳輸天線313來感測外部的該NFC卡片8,並且 於成功感測之後’接收該NFC卡片8所傳來的卡片資訊w 。接著’該傳輸天線313將所接收的該卡片資訊81傳送至 s亥NFC晶片311,以由該NFC晶片311來對該卡片資訊η進 行驗證動作。 [0026]更具體而言,該記憶單元312中係儲存有符合驗證條件的 至少一驗證資訊3121,該NFC晶片311對該卡片資訊81進 行驗證動作時,主要是將該卡片資訊81與該至少一驗$ 10120624#單編號A0101 第9頁/共21頁 、 1012020678-0 M438717 資訊3121進行比對,藉以判斷該卡片資訊81是否符合預 先設定的驗證條件。若該卡片資訊81通過驗證,表示該 NFC卡片8被允許使用,因而該NFC模組31於比對通過後 ,產生並輸出對應的該控制訊號;換句話說,若該卡片 資訊81無法通過驗證,表示該NFC卡片8不被允許使用, 因而該NFC模組31不會進行任何動作,該主機板7也不會 接收到任何的控制訊號。 [0027] 最後請參閱第六圖,為本創作的另一較佳具體實施例的 剖視圖。本實施例主要揭露了另一連接器Γ ,該連接器 < Γ具有與該連接器1相同的該電路板3、該NFC模組31、 該第一輸出端子組41及該第二輸出端子組42,並且具有 與該連接器1不同的絕緣本體91及複數連接端子92。 [0028] 該絕緣本體91内部具有一容置空間911,並且該複數連接 端子92設置於該容置空間911中。該複數連接端子92分別 具有一導接端921及遠離該導接部921的一焊接部922, 該些導接部921分別裸露於該容置空間911外,以與外部 裝置的連接器公頭6電性連接;該些焊接部922則凸伸出 < 該絕緣本體91外,以電性連接該電路板3。該連接器1’ 與該連接器1最大的差異在於,該絕緣本體91上不具備第 一圖中的該舌部211,該絕緣本體91係與該複數連接端子 92共同構成一個不具備舌部的連接埠9,例如為一RJ-45 連接埠,但不加以限定》於本實施例中,若該連接埠9為 RJ-45連接埠,則該複數連接端子92的數量為八根,該第 一輸出端子組41的數量為十根。 [0029] 該複數連接端子92通過該電路板3與該第一輸出端子組41 1012062#^^^ A〇101 ^ 10 1 / ^ 21 I 1012020678-0 M438717 電性連接,並通過該第一輪出端子組41電性連接該主機 板7。當一網路線插接該連接璋9時,係可通過該複數連 接端子92與該第一輸出端子組41與該主機板7連接,以互 相傳遞資料。該連接器Γ上的該NFC模組31則通過該第 二輪出端子組42電性連接該主機板7,當該NFC模组31感 測外部的該NFC卡片8並驗證通過後,即產生該控制訊號 ’並藉由該第二輸出子組42輸出至該主機板7。若該NFC 模組31未感測該NFC卡片8,或該NFC卡片8無法通過驗證 ’則該NFC模組31不動作’該主機板7不會接收到任何的 控制訊號。 [0030] 以上所述者’僅為本創作之一較佳實施例之具體說明, 非用以倚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内。 【圖式簡單說明】 [〇〇31] 第一圖為本創作的一較佳具體實施例的立體分解圖。 第二圖為本創作的一較佳具體實施例的立體組合圖。 第三圖為本創作的一較佳具體實施例的剖視圖。 第四圖為本創作的一較佳具體實施例的連接器電路方塊 圖。 第五圖為本創作的一較佳具體實施例的NFC模組電路方塊 圖。 第六圖為本創作的另一較佳具體實施例的剖視圖。 【主要元件符號說明】 _] 1、1’…連接器 [Ο,] 2、9.··連接蟑 1012020678-0 10120624#單編號A〇l〇l 第Π頁/共21頁 M438717 [0034] 21、91…絕緣本體 [0035] 211…舌部 [0036] 212…通槽 [0037] 22、92…連接端子 [0038] 221、921…導接部 [0039] 222、922…焊接部 [0040] 3…電路板 [0041] 31*"NFC 模組 [0042] 31卜-NFC晶片 [0043] 31 2…記憶單元 [0044] 3121…驗證資訊 [0045] 313…傳輸天線 [0046] 41…第一輸出端子組 < [0047] 42···第二輸出端子組 [0048] 5…鐵殼 [0049] 6…連接器公頭: [0050] 7…主機板 [0051] 8…NFC卡片 [0052] 81…卡片資訊 [0053] 911…容置空間 10120624^·單编號 Α(Πί)1 ί 12 1 / # 21 I 1012020678-0Referring to the fourth circle, a block diagram of the connector circuit of a preferred embodiment of the present invention is shown. As shown in the figure, the connector 1 mainly includes the connection body 2 and the circuit board 3 formed by the insulative housing 21 and the plurality of connection terminals 22, and the NFC module 31 disposed on the circuit board 3, The first outputs are a sub-group 41 and a second round-out terminal set 42. The connection port 2 is connected to the first wheel terminal group 41 through the circuit board 3. The NFC module 31 is connected to the second terminal group 42 through the circuit board 3, and the connection is respectively passed through the λ output terminal group 41 and the The second output terminal group 42 is electrically connected to the motherboard 7 of the external 10120624^^^^* 1012020678-0 device to transmit the general information and the control signal to the motherboard 7. Immediately after the connector male 6_ is connected to the port 2, the connection port 2 and the side-wheel terminal group 41 are electrically connected to the motherboard 7, and the data is transmitted to the host board 7. When the NFC module 31 senses the NFC card and passes the verification, the NFC module 31 generates the control signal, and outputs the control signal to the motherboard 7 through the second output terminal group 42. As can be seen from the fourth figure, the connector i internally distinguishes two ® channels, one is the data transmission channel of the connector, and the other is the control signal transmission channel of the NFC module 31, and the two channels are independent. [〇〇24] In this embodiment, the NFC module 31 is used as an example to sense the NFC card 8. However, the NFC module 31 only needs to sense the NFC signal to be verified. It is not necessarily a card form and should not be limited. [0025] Referring to the fifth drawing, a cross-sectional view of another preferred embodiment of the present invention is shown. As shown in the figure, the NFC module 31 mainly includes an NFC chip 311, a memory unit 312, and a transmission antenna 313 '. The NFC chip 311 is electrically connected to the memory unit 312 and the transmission antenna 313. The group 31 senses the external NFC card 8 through the transmission antenna 313, and 'receives the card information w transmitted from the NFC card 8 after successful sensing. Then, the transmission antenna 313 transmits the received card information 81 to the NAND NFC chip 311 to perform verification operation on the card information η by the NFC wafer 311. More specifically, the memory unit 312 stores at least one verification information 3121 that meets the verification condition. When the NFC chip 311 performs the verification operation on the card information 81, the card information 81 is mainly related to the card information 81. A test $ 10120624 #单号 A0101 Page 9 of 21, 1012020678-0 M438717 Information 3121 is compared to determine whether the card information 81 meets the pre-set verification conditions. If the card information 81 is verified, it indicates that the NFC card 8 is allowed to be used, and thus the NFC module 31 generates and outputs the corresponding control signal after the comparison is passed; in other words, if the card information 81 fails to pass the verification. , indicating that the NFC card 8 is not allowed to be used, so the NFC module 31 does not perform any action, and the motherboard 7 does not receive any control signals. [0027] Finally, please refer to the sixth drawing, which is a cross-sectional view of another preferred embodiment of the present invention. This embodiment mainly discloses another connector Γ having the same circuit board 3 as the connector 1, the NFC module 31, the first output terminal group 41 and the second output terminal. The group 42 has a different insulating body 91 and a plurality of connecting terminals 92 than the connector 1. The inside of the insulative housing 91 has an accommodating space 911, and the plurality of connecting terminals 92 are disposed in the accommodating space 911. Each of the plurality of connection terminals 92 has a guiding end 921 and a soldering portion 922 away from the guiding portion 921. The guiding portions 921 are respectively exposed outside the receiving space 911 to connect the connector male body with the external device. 6 electrically connected; the soldering portions 922 are protruded < outside the insulating body 91 to electrically connect the circuit board 3. The maximum difference between the connector 1' and the connector 1 is that the insulative housing 91 does not have the tongue portion 211 in the first figure. The insulative housing 91 and the plurality of connection terminals 92 together form a tongue. The connection port 9 is, for example, an RJ-45 port, but is not limited. In this embodiment, if the port 9 is an RJ-45 port, the number of the plurality of connection terminals 92 is eight. The number of the first output terminal groups 41 is ten. [0029] The plurality of connection terminals 92 are electrically connected to the first output terminal group 41 1012062 #^^^ A 〇 101 ^ 10 1 / ^ 21 I 1012020678-0 M438717 through the circuit board 3, and pass the first round The output terminal group 41 is electrically connected to the motherboard 7. When the network port is plugged into the port 9, the plurality of connection terminals 92 and the first output terminal group 41 are connected to the motherboard 7 to transfer data to each other. The NFC module 31 on the connector is electrically connected to the motherboard 7 through the second wheel terminal group 42. When the NFC module 31 senses the external NFC card 8 and passes the verification, the NFC module 31 is generated. The control signal ' is output to the motherboard 7 by the second output subgroup 42. If the NFC card 31 does not sense the NFC card 8, or the NFC card 8 fails to pass the verification 'the NFC module 31 does not operate', the motherboard 7 will not receive any control signals. [0030] The above description 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. BRIEF DESCRIPTION OF THE DRAWINGS [0031] The first figure is an exploded perspective view of a preferred embodiment of the present invention. The second figure is a perspective assembled view of a preferred embodiment of the creation. The third figure is a cross-sectional view of a preferred embodiment of the creation. The fourth figure is a block diagram of a connector circuit of a preferred embodiment of the present invention. Figure 5 is a block diagram of an NFC module circuit in accordance with a preferred embodiment of the present invention. Figure 6 is a cross-sectional view of another preferred embodiment of the creation. [Main component symbol description] _] 1, 1'... connector [Ο,] 2, 9···Connection 蟑1012020678-0 10120624#单号A〇l〇l Page/Total 21 pages M438717 [0034] 21, 91... Insulation body [0035] 211... Tongue [0036] 212... Channel [0037] 22, 92... Connection terminal [0038] 221, 921... Guide [0039] 222, 922... Weld [0040] ] 3...Circuit board [0041] 31*"NFC module [0042] 31-NFC chip [0043] 31 2...memory unit [0044] 3121... verification information [0045] 313... transmission antenna [0046] 41... First output terminal group < [0047] 42···second output terminal group [0048] 5... iron case [0049] 6... connector male: [0050] 7... motherboard [0051] 8... NFC card [0052] 81...Card Information [0053] 911...Accommodation Space 10120624^·Single Number Α(Πί)1 ί 12 1 / # 21 I 1012020678-0