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TWM527115U - Improved display port connector module - Google Patents

Improved display port connector module Download PDF

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Publication number
TWM527115U
TWM527115U TW105203291U TW105203291U TWM527115U TW M527115 U TWM527115 U TW M527115U TW 105203291 U TW105203291 U TW 105203291U TW 105203291 U TW105203291 U TW 105203291U TW M527115 U TWM527115 U TW M527115U
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Taiwan
Prior art keywords
processing unit
power
configuration channel
displayport
connector
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TW105203291U
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Chinese (zh)
Inventor
Yi-Fang Chuang
Nai-Chien Chang
Original Assignee
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 TW105203291U priority Critical patent/TWM527115U/en
Publication of TWM527115U publication Critical patent/TWM527115U/en

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Description

改良型顯示埠連接器模組 Improved display 埠 connector module

本創作涉及顯示埠連接器,尤其涉及顯示埠連接器模組。 This creation relates to display 埠 connectors, and more particularly to display 埠 connector modules.

由於通用序列匯流排(Universal Serial Bus,USB)連接器的普及化,幾乎各式電子裝置上皆配置有USB連接器。通過該些USB連接器的使用,電子裝置的使用者可輕鬆地進行資料的傳輸,相當便利。 Due to the popularity of Universal Serial Bus (USB) connectors, USB connectors are deployed on almost all types of electronic devices. Through the use of these USB connectors, the user of the electronic device can easily transfer data, which is quite convenient.

目前時下最廣泛使用的USB連接器規格,以可支援高速傳輸速率(Hi-Speed,480Mbps)的USB 2.0規格與可支援超高速傳輸速率(Super-Speed,5Gpbs)的USB 3.0規格為最大宗。然而,隨著數位資料品質與檔案容量的提昇,前述USB2.0規格與USB3.0規格的傳輸速度已漸漸無法滿足現有使用者的需求。 The most widely used USB connector specifications are currently available in USB 2.0 specifications that support high-speed transfer rates (Hi-Speed, 480Mbps) and USB 3.0 specifications that support Super-Speed (5Gpbs). . However, with the improvement of digital data quality and file capacity, the transmission speed of the aforementioned USB2.0 specification and USB3.0 specification has gradually failed to meet the needs of existing users.

有鑑於此,市場上推出了USB3.1規格,而其中更以USB3.1的Type-C的連接器最受到各界矚目。具體來說,USB Type-C連接器除了以上、下共24根端子的結構克服了傳統USB連接器無法正插或反插的問題外,還可提供高達10Gbps的資料傳輸速度與100W的輸出功率。 In view of this, the USB 3.1 specification has been introduced in the market, and the connector of Type-C which is more USB3.1 has received the most attention. Specifically, in addition to the above and a total of 24 terminal structures, the USB Type-C connector overcomes the problem that the conventional USB connector cannot be inserted or reversed, and can provide data transmission speed of up to 10 Gbps and output power of 100 W. .

如上所述,USB Type-C連接器具備了便利性、高資料傳輸速度與大輸出功率,再加上USB Type-C連接器的體積非常的小,所需佔據的空間並不大。因此,目前許多新款電腦主機或電子裝置皆捨棄了USB2.0連接器與USB3.0連接器,改為採用USB Type-C連接器。由此可看出,USB Type-C連接器將可能成為新一代通用介面的主流。 As mentioned above, the USB Type-C connector has the convenience, high data transfer speed and large output power. In addition, the USB Type-C connector is very small and requires little space. Therefore, many new computer mainframes or electronic devices have abandoned the USB 2.0 connector and the USB 3.0 connector, and instead use the USB Type-C connector. It can be seen that the USB Type-C connector will likely become the mainstream of the new generation of common interfaces.

然而,雖然USB連接器為目前資料傳遞的主流規格,但為了能以最佳的格式來傳遞各種尺寸、類型與頻率的資料,現有大多數的電子裝置仍會在主機板上配置USB連接器以外的連接器,例如用於傳輸高品質影音資料的DisplayPort連接器與HDMI連接器等。 However, although the USB connector is the mainstream specification for current data transmission, in order to transmit data of various sizes, types and frequencies in an optimal format, most existing electronic devices still have a USB connector on the motherboard. Connectors such as DisplayPort connectors and HDMI connectors for transmitting high-quality audio and video materials.

上述該些連接器與USB Type-C連接器的輸出腳位並不相同,例如DisplayPort連接器具有20隻接腳,而HDMI連接器具有19隻接腳。有鑑於此,若製造商要在電子裝置上同時配置USB Type-C連接器、顯示埠(DisplayPort)連接器及HDMI連接器,則至少需在該主機板上保留三個具有不同電路與連接腳位的配置空間。如此一來,將會使得該主機板的製程複雜化,且令該主機板的成本無法下降。 The connectors described above are not the same as the output pins of the USB Type-C connector. For example, the DisplayPort connector has 20 pins, and the HDMI connector has 19 pins. In view of this, if a manufacturer wants to simultaneously configure a USB Type-C connector, a display port (DisplayPort) connector, and an HDMI connector on an electronic device, at least three different circuits and connection pins must be reserved on the motherboard. The configuration space of the bit. As a result, the process of the motherboard will be complicated, and the cost of the motherboard cannot be reduced.

另外,上述該些連接器皆需配合對應的一或多個處理單元來處理對應格式的資料,因此,若要令該電子裝置可同時支援上述多種格式的連接器,則該主機板上還需要同時配置多個處理單元。如此一來,將會嚴重浪費該主機板上寶貴的配置空間。 In addition, the connectors need to cooperate with the corresponding one or more processing units to process the data in the corresponding format. Therefore, if the electronic device can simultaneously support the connectors of the multiple formats, the motherboard needs to be Configure multiple processing units at the same time. As a result, the valuable configuration space on the motherboard will be seriously wasted.

本創作的主要目的,在於提供一種將顯示埠(DisplayPort)連接器與處理DisplayPort訊號所需的所有元件皆整合為一體的顯示埠連接器模組。 The main purpose of this creation is to provide a display port connector module that integrates a display port connector and all components required to process a DisplayPort signal.

本創作的另一主要目的,在於提供一種通過USB Type-C介面來與電子裝置的主機板連接,並請求主機板通過USB Type-C介面輸出DisplayPort訊號的顯示埠連接器模組。 Another main purpose of the present invention is to provide a display port connector module that connects to a motherboard of an electronic device through a USB Type-C interface and requests the motherboard to output a DisplayPort signal through a USB Type-C interface.

為了達成上述目的,本創作提供一種包括一顯示埠(DisplayPort)連接器、一第一配置通道處理單元、一第二配置通道處理單元及一電力傳輸控制器單元的顯示埠連接器模組。該DisplayPort連接器的一電源端子連接該電力傳輸控制單元,一偵測端子連接該第一配置通道處理單元。該第二配置通道處理單元連接該電力傳輸控制單元及該第一配置通道處理單元。 In order to achieve the above object, the present invention provides a display port connector module including a display port connector, a first configuration channel processing unit, a second configuration channel processing unit, and a power transmission controller unit. A power terminal of the DisplayPort connector is connected to the power transmission control unit, and a detection terminal is connected to the first configuration channel processing unit. The second configuration channel processing unit is coupled to the power transmission control unit and the first configuration channel processing unit.

當該DisplayPort連接器插接外部的一DisplayPort連接器公頭時,該第一配置通道處理單元輸出一配置通道訊號給該第二配置通道處理單元,令該第二配置通道處理單元認為目前插接的是符合USB Type-C協定中的替換模式的一USB Type-C連接器。藉以,該第二配置通道處理單元控制該電力傳輸控制單元輸出對應的電力,並請求外部來源輸出DisplayPort訊號至該DisplayPort連接器。 When the DisplayPort connector is plugged into an external DisplayPort connector male, the first configuration channel processing unit outputs a configuration channel signal to the second configuration channel processing unit, so that the second configuration channel processing unit considers that the current configuration channel is currently plugged A USB Type-C connector that conforms to the replacement mode in the USB Type-C protocol. Therefore, the second configuration channel processing unit controls the power transmission control unit to output the corresponding power, and requests the external source to output the DisplayPort signal to the DisplayPort connector.

本創作對照相關技術所能達成的技術功效在於,將DisplayPort連接器以及處理DisplayPort訊號所需的所有元件皆整合在單一個該連接器模組之中,有助於製造者將該連接器模組直接設置在各式電子裝置的主機板上,令各式電子裝置配置有DisplayPort連接器並同時具有DisplayPort訊號的傳輸能力。並且,該主機板上不必保留該些元件的配置空間,製造者也不需要另外為該些元件進行電路設計。藉此,可有效簡化該些電子裝置的製程。 The technical effect of this creation can be achieved by integrating the DisplayPort connector and all the components needed to process the DisplayPort signal into a single connector module, which helps the manufacturer to connect the connector module. It is directly installed on the motherboard of various electronic devices, so that various electronic devices are equipped with a DisplayPort connector and have the transmission capability of DisplayPort signals at the same time. Moreover, the configuration space of the components does not have to be reserved on the motherboard, and the manufacturer does not need to additionally design circuits for the components. Thereby, the process of the electronic devices can be effectively simplified.

另外,該連接器模組主要是通過USB Type-C介面來與該主機板進行溝通,並且於插接外部的DisplayPort連接器公頭時,會令該主機板認為目前插接的是符合USB Type-C協定中的替換模式的一USB Type-C連接器公頭,進而輸出DisplayPort訊號。如此一來,該連接器模組在該主機板上可與一般的USB Type-C連接器採用相同的腳位,製造者不需要在該主機板上另外設置該連接器 模組專屬的電路與連接腳位,因此可有效簡化該些電子裝置的製程並降低該主機板的成本。 In addition, the connector module mainly communicates with the motherboard through the USB Type-C interface, and when the external DisplayPort connector male connector is plugged, the motherboard is considered to be currently compatible with the USB Type. A USB Type-C connector male in the replacement mode of the -C protocol, which in turn outputs the DisplayPort signal. In this way, the connector module can use the same pin position on the motherboard as a general USB Type-C connector, and the manufacturer does not need to additionally set the connector on the motherboard. The module-specific circuits and connection pins can effectively simplify the manufacturing process of the electronic devices and reduce the cost of the motherboard.

1‧‧‧顯示埠連接器模組 1‧‧‧Display 埠 Connector Module

10‧‧‧殼體 10‧‧‧shell

11‧‧‧電路板 11‧‧‧ boards

12‧‧‧顯示埠連接器 12‧‧‧Display 埠 connector

13‧‧‧第一配置通道處理單元 13‧‧‧First configuration channel processing unit

14‧‧‧電力傳輸控制單元 14‧‧‧Power transmission control unit

15‧‧‧第二配置通道處理單元 15‧‧‧Second configuration channel processing unit

16‧‧‧第一微處理單元 16‧‧‧First Micro Processing Unit

17‧‧‧第二微處理單元 17‧‧‧Second microprocessor unit

18‧‧‧轉接端子 18‧‧‧Transfer terminal

2‧‧‧主機板 2‧‧‧ motherboard

21‧‧‧連接器 21‧‧‧Connector

22‧‧‧圖形處理單元 22‧‧‧Graphic Processing Unit

23‧‧‧電力單元 23‧‧‧Power unit

3‧‧‧顯示埠裝置 3‧‧‧Display device

S1‧‧‧偵測訊號 S1‧‧‧Detection signal

S2‧‧‧配置通道訊號 S2‧‧‧Configure channel signal

S3‧‧‧供電訊號 S3‧‧‧Power signal

S4‧‧‧資料請求訊號 S4‧‧‧Information request signal

S0‧‧‧控制訊號 S0‧‧‧ control signal

P1‧‧‧第一電力 P1‧‧‧First Power

P2‧‧‧第二電力 P2‧‧‧second power

圖1為本創作的第一具體實施例的立體組合圖。 Figure 1 is a perspective assembled view of a first embodiment of the present invention.

圖2為本創作的第一具體實施例的配置示意圖。 FIG. 2 is a schematic diagram of the configuration of the first embodiment of the present invention.

圖3為本創作的第一具體實施例的電路方塊圖。 Figure 3 is a circuit block diagram of a first embodiment of the present invention.

圖4為本創作的第二具體實施例的電路方塊圖。 4 is a circuit block diagram of a second embodiment of the present invention.

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.

首請參閱圖1,為本創作的第一具體實施例的立體組合圖。本創作揭露了一種顯示埠連接器模組1(下面簡稱為該連接器模組1),該連接器模組1主要包括一顯示埠(DisplayPort)連接器12(下面稱為該DisplayPort連接器12),及處理DisplayPort訊號所需的多個處理單元。本實施例中,該些處理單元主要是以積體電路(Integrated Circuit,IC)來實現,並且該DisplayPort連接器12主要以一DisplayPort連接器母頭來實現,但不加以限定。 Referring first to FIG. 1, a perspective assembled view of a first embodiment of the present invention is shown. The present invention discloses a display port connector module 1 (hereinafter simply referred to as the connector module 1). The connector module 1 mainly includes a display port connector 12 (hereinafter referred to as the DisplayPort connector 12). ), and multiple processing units required to process DisplayPort signals. In this embodiment, the processing units are mainly implemented by an integrated circuit (IC), and the DisplayPort connector 12 is mainly implemented by a DisplayPort connector female, but is not limited.

於一實施例中,該連接器模組1主要具有一第一配置通道處理單元13、一電力傳輸控制單元14及一第二配置通道處理單元15,其中該第二配置通道處理單元15電性連接該第一配置通道處理單元13與該電力傳輸控制單元14。該連接器模組1更包括一電路板11,該DisplayPort連接器12、該第一配置 通道處理單元13、該電力傳輸控制單元14及該第二配置通道處理單元15電性連接於該電路板11上,並藉由該電路板11彼此電性連接。並且如圖1所示,本實施例中,該連接器模組1還具有一殼體10,該殼體10包覆該電路板11、該DisplayPort連接器12、該第一配置通道處理單元13、該電力傳輸控制單元14及該第二配置通道處理單元15。 In one embodiment, the connector module 1 has a first configuration channel processing unit 13, a power transmission control unit 14, and a second configuration channel processing unit 15, wherein the second configuration channel processing unit 15 is electrically The first configuration channel processing unit 13 and the power transmission control unit 14 are connected. The connector module 1 further includes a circuit board 11 , the DisplayPort connector 12 , the first configuration The circuit processing unit 13, the power transmission control unit 14, and the second configuration channel processing unit 15 are electrically connected to the circuit board 11 and electrically connected to each other by the circuit board 11. As shown in FIG. 1 , in the embodiment, the connector module 1 further has a housing 10 covering the circuit board 11 , the DisplayPort connector 12 , and the first configuration channel processing unit 13 . The power transmission control unit 14 and the second configuration channel processing unit 15.

於另一實施例中,該連接器模組1還具有一電性連接該第一配置通道處理單元13的一第一微處理單元16,以及電性連接該第二配置通道處理單元15的一第二微處理單元17。更具體地,該第一微處理單元16與該第二微處理單元17皆電性連接於該電路板11上,並通過該電路板11分別電性連接該第一配置通道處理單元13與該第二配置通道處理元15。並且於本實施例中,該殼體10同時包覆該第一微處理單元16及該第二微處理單元17。 In another embodiment, the connector module 1 further includes a first micro processing unit 16 electrically connected to the first configuration channel processing unit 13 and one electrically connected to the second configuration channel processing unit 15 The second micro processing unit 17. More specifically, the first micro processing unit 16 and the second micro processing unit 17 are electrically connected to the circuit board 11 and electrically connected to the first configuration channel processing unit 13 and the circuit board 11 respectively. The second configuration channel processes the element 15. In the embodiment, the housing 10 simultaneously covers the first micro processing unit 16 and the second micro processing unit 17.

該連接器模組1還包括一端電性連接該電路板11的複數轉接端子18,並且該複數轉接端子18的另一端裸露於該殼體10之外。於一實施例中,該複數轉接端子18通過該電路板11電性連接該電力傳輸控制單元14、該第二配置通道處理單元15及該DisplayPort連接器12的部分端子(容後詳述)。 The connector module 1 further includes a plurality of adapter terminals 18 electrically connected to the circuit board 11 at one end, and the other end of the plurality of adapter terminals 18 is exposed outside the housing 10. In an embodiment, the plurality of switching terminals 18 are electrically connected to the power transmission control unit 14, the second configuration channel processing unit 15 and some terminals of the DisplayPort connector 12 through the circuit board 11 (details are detailed later). .

請同時參閱圖2,為本創作的第一具體實施例的配置示意圖。如圖2所示,該連接器模組1通過該複數轉接端子18的另一端電性連接於外部的一電子裝置(圖未標示)的一主機板2上。藉此,該電子裝置可藉由該連接器模組1支援DisplayPort的訊號傳輸功能。 Please refer to FIG. 2 at the same time, which is a schematic diagram of the configuration of the first embodiment of the present invention. As shown in FIG. 2, the other end of the plurality of adapter terminals 18 is electrically connected to a motherboard 2 of an external electronic device (not shown). Thereby, the electronic device can support the signal transmission function of the DisplayPort by the connector module 1.

值得一提的是,本創作中,該連接器模組1主要是採用USB Type-C介面與該主機板2進行溝通。更具體地,該連接器模組1是通過USB Type-C介面的腳位與該主機板2電性連接,但在進行資料傳輸時,該連接器模組1告知 該主機板2該DisplayPort連接器12目前連接的外部連接器為符合USB Type-C協定中的替換模式(Alternate Mode)的USB Type-C連接器,因此該主機板2將會輸出一組DisplayPort訊號給該連接器模組1。如此一來,該連接器模組1雖然藉由USB Type-C介面與該主機板2連接,但仍可通過該DisplayPort連接器12輸出DisplayPort格式的資料。 It is worth mentioning that, in the present creation, the connector module 1 mainly communicates with the motherboard 2 by using a USB Type-C interface. More specifically, the connector module 1 is electrically connected to the motherboard 2 through a USB Type-C interface, but the connector module 1 informs when data transmission is performed. The external connector of the motherboard 2 to which the DisplayPort connector 12 is currently connected is a USB Type-C connector that conforms to the Alternate Mode in the USB Type-C protocol, so the motherboard 2 will output a set of DisplayPort signals. Give the connector module 1. In this way, although the connector module 1 is connected to the motherboard 2 through the USB Type-C interface, the DisplayPort format 12 can still output the data in the DisplayPort format.

上述替換模式為USB Type-C協定中的公知技術,於此不再贅述。 The above replacement mode is a well-known technology in the USB Type-C protocol, and details are not described herein again.

通過本創作的該連接器模組1,則該主機板2可採用與一般USB Type-C連接器相同的腳位來連接該連接器模組1,也就是說該連接器模組1與一般USB Type-C連接器可以共用腳位。於一較佳實施例中,該複數轉接端子18的數量為24根,與一般USB Type-C連接器的端子數相同,但不以此為限。如此一來,該主機板2上不需設置專屬於該連接器模組1插接使用的特殊腳位,因而可有效簡化該主機板2的製程,並降低該主機板2的製造成本。 Through the connector module 1 of the present invention, the motherboard 2 can be connected to the connector module 1 by using the same pin as the general USB Type-C connector, that is, the connector module 1 and the general connector module 1 The USB Type-C connector can share the pin. In a preferred embodiment, the number of the plurality of adapter terminals 18 is 24, which is the same as the number of terminals of the general USB Type-C connector, but is not limited thereto. In this way, the special pin position dedicated to the connector module 1 is not required to be disposed on the motherboard 2, thereby effectively simplifying the manufacturing process of the motherboard 2 and reducing the manufacturing cost of the motherboard 2.

回到圖2,該主機板2的一側可設置有複數連接器21,該連接器模組1可設置於該複數連接器21旁,並且該DisplayPort連接器12的開口方向與該複數連接器21的開口方向相同。 Referring back to FIG. 2, one side of the motherboard 2 may be provided with a plurality of connectors 21, the connector module 1 may be disposed beside the plurality of connectors 21, and an opening direction of the DisplayPort connector 12 and the plurality of connectors The opening direction of 21 is the same.

該主機板2上主要設置有一晶片組(PCH)(圖中未示)、一圖形處理單元22(Graphics Processing Unit,GPU)及一電力單元23,其中,該晶片組用以輸出USB訊號,該圖形處理單元22用以輸出DisplayPort訊號,而該電力單元23用以輸出電力。 The motherboard 2 is mainly provided with a chip set (PCH) (not shown), a graphics processing unit (GPU) 22 and a power unit 23, wherein the chipset is configured to output a USB signal. The graphics processing unit 22 is configured to output a DisplayPort signal, and the power unit 23 is configured to output power.

本實施例中,該連接器模組1藉由該複數轉接端子18電性連接該主機板2上的該圖形處理單元22與該電力單元23。藉此,該主機板2可通過該 連接器模組1上的該DisplayPort連接器12與一外部的電子裝置(圖未標示)連接,以進行DisplayPort訊號及電力的傳輸。 In this embodiment, the connector module 1 is electrically connected to the graphics processing unit 22 and the power unit 23 on the motherboard 2 by the plurality of adapter terminals 18. Thereby, the motherboard 2 can pass the The DisplayPort connector 12 on the connector module 1 is connected to an external electronic device (not shown) for transmitting DisplayPort signals and power.

參閱圖3,為本創作的第一具體實施例的電路方塊圖。本實施例中,該DisplayPort連接器12主要具有一電源端子(VBUS)、一偵測端子(Hot Plug)及複數資料端子(Lane0~Lane3/AUX),其中該複數資料端子至少包括一對通道0差分端子(Lane0)、一對通道1差分端子(Lane1)、一對通道2差分端子(Lane2)、一對通道3差分端子(Lane3)及一對附屬通道差分端子(AUX)。 Referring to FIG. 3, a circuit block diagram of a first embodiment of the present invention is shown. In this embodiment, the DisplayPort connector 12 mainly has a power terminal (VBUS), a detection terminal (Hot Plug), and a plurality of data terminals (Lane0~Lane3/AUX), wherein the plurality of data terminals includes at least one pair of channels 0. Differential terminal (Lane0), a pair of channel 1 differential terminals (Lane1), a pair of channel 2 differential terminals (Lane2), a pair of channel 3 differential terminals (Lane3), and a pair of auxiliary channel differential terminals (AUX).

如圖3所示,該電力傳輸控制單元14電性連接該DisplayPort連接器12上的該電源端子。本實施例中,該電力傳輸控制單元14可通過該複數轉接端子18由該主機板2上的該電力單元23取得電力,並依據該第二配置通道處理單元15的控制,輸出對應功率的電力至該電源端子。如此一來,與該DisplayPort連接器12連接的一外部裝置可通過該電源端子取得所需之電力。 As shown in FIG. 3, the power transmission control unit 14 is electrically connected to the power terminal on the DisplayPort connector 12. In this embodiment, the power transmission control unit 14 can obtain power from the power unit 23 on the motherboard 2 through the plurality of switching terminals 18, and output corresponding power according to the control of the second configuration channel processing unit 15. Power to the power terminal. In this way, an external device connected to the DisplayPort connector 12 can obtain the required power through the power terminal.

該DisplayPort連接器12通過該複數資料端子連接該複數轉接端子18,並通過該複數轉接端子18電性連接該主機板2上的該圖形處理單元22。本實施例中,在該DisplayPort連接器12連接了該外部裝置後,該DisplayPort連接器12即可通過該複數轉接端子18由該主機板2上的該圖形處理單元22取得一組DisplayPort訊號。如此一來,與該DisplayPort連接器12連接的該外部裝置可通過該複數資料端子取得該組DisplayPort訊號。 The display port connector 12 is connected to the plurality of switch terminals 18 through the plurality of data terminals, and is electrically connected to the graphics processing unit 22 on the motherboard 2 through the plurality of switch terminals 18. In this embodiment, after the external port is connected to the DisplayPort connector 12, the DisplayPort connector 12 can obtain a set of DisplayPort signals from the graphics processing unit 22 on the motherboard 2 through the plurality of switch terminals 18. In this way, the external device connected to the DisplayPort connector 12 can obtain the set of DisplayPort signals through the plurality of data terminals.

該第一配置通道處理單元13電性連接該DisplayPort連接器12的該偵測端子,並藉由該偵測端子判斷該DisplayPort連接器12是否與該外部裝置連接。藉此,該第一配置通道處理單元13可依據判斷結果告知該第二配置通道處理單元15應執行什麼動作。 The first configuration channel processing unit 13 is electrically connected to the detection terminal of the DisplayPort connector 12, and the detection terminal determines whether the DisplayPort connector 12 is connected to the external device. Thereby, the first configuration channel processing unit 13 can inform the second configuration channel processing unit 15 of what action should be performed according to the determination result.

該第二配置通道處理單元15電性連接該第一配置通道處理單元13及該電力傳輸控制單元14,並且該第二配置通道處理單元15還通過該複數轉接端子18電性連接該主機板2的該圖形處理單元22。本實施例中,該第二配置通道處理單元15係依據該第一配置通道處理單元13的判斷結果來控制該電力傳輸控制單元14,並且依據該第一配置通道處理單元13的判斷結果來請求該圖形處理單元22輸出該組DisplayPort訊號。藉以,可令該DisplayPort連接器12輸出適當功率的電力與DisplayPort格式的資料給該外部裝置。 The second configuration channel processing unit 15 is electrically connected to the first configuration channel processing unit 13 and the power transmission control unit 14 , and the second configuration channel processing unit 15 is further electrically connected to the motherboard through the plurality of adapter terminals 18 . The graphics processing unit 22 of 2. In this embodiment, the second configuration channel processing unit 15 controls the power transmission control unit 14 according to the determination result of the first configuration channel processing unit 13, and requests according to the determination result of the first configuration channel processing unit 13. The graphics processing unit 22 outputs the set of DisplayPort signals. Therefore, the DisplayPort connector 12 can output appropriate power and DisplayPort format data to the external device.

該第一微處理單元16電性連接該第一配置通道處理單元13,該第二微處理單元17電性連接該第二配置通道處理單元15,該第一微處理單元16與該第二微處理單元17分別用以控制該第一配置通道處理單元13與該第二配置通道處理單元15的作動。 The first micro processing unit 16 is electrically connected to the first configuration channel processing unit 13, and the second micro processing unit 17 is electrically connected to the second configuration channel processing unit 15, the first micro processing unit 16 and the second micro The processing unit 17 is configured to control the operations of the first configuration channel processing unit 13 and the second configuration channel processing unit 15, respectively.

更具體而言,該第一微處理單元16與該第二微處理單元17分別運行一控制軟體,該些控制軟體被執行後會發出一控制訊號S0(如圖4所示的控制訊號S0),並通過該控制訊號S0分別致能該第一配置通道處理單元13與該第二配置通道處理單元15的一影像功能。在該影像功能被致能後,該第一配置通道處理單元13與該第二配置通道處理單元15可確認目前該連接器模組1要傳輸的為影像資料(更具體地,為DisplayPort格式的影像資料)。惟,上述僅為本創作的一具體實施範例,不加以限定。 More specifically, the first micro processing unit 16 and the second micro processing unit 17 respectively execute a control software, and after the control software is executed, a control signal S0 is sent (such as the control signal S0 shown in FIG. 4). The image function of the first configuration channel processing unit 13 and the second configuration channel processing unit 15 is respectively enabled by the control signal S0. After the image function is enabled, the first configuration channel processing unit 13 and the second configuration channel processing unit 15 can confirm that the connector module 1 is currently transmitting image data (more specifically, in DisplayPort format). video material). However, the above is only a specific embodiment of the present invention and is not limited.

請參閱圖4,為本創作的第二具體實施例的電路方塊圖。圖4的實施例是以該連接器模組1連接外部的一顯示埠(DisplayPort)裝置3(下面稱為該DisplayPort裝置3)為例來舉例說明。於本實施例中,該DisplayPort裝置3指的是具有對應的DisplayPort連接器公頭,藉由該DisplayPort連接器公頭連接該連接 器模組1的該DisplayPort連接器12,並與該連接器模組1互相傳輸DisplayPort訊號的電子裝置,但不加以限定。 Please refer to FIG. 4, which is a circuit block diagram of a second embodiment of the present invention. The embodiment of FIG. 4 is exemplified by a display port device 3 (hereinafter referred to as the DisplayPort device 3) connected to the outside of the connector module 1. In this embodiment, the DisplayPort device 3 refers to a male connector with a corresponding DisplayPort connector, and the male connector of the DisplayPort connector is connected to the connector. The display port connector 12 of the module 1 and the electronic device for transmitting the DisplayPort signal to the connector module 1 are not limited.

當該DisplayPort連接器12連接該DisplayPort裝置3後,該DisplayPort連接器12的該偵測端子被該DisplayPort裝置3上的DisplayPort連接器公頭中對應的偵測端子觸發,進而發出一偵測訊號S1。藉此,該第一配置通道處理單元13可由DisplayPort連接器12的該偵測端子接收該偵測訊號S1。本實施例中,該偵測訊號S1主要指出該DisplayPort裝置3與該DisplayPort連接器12已經連接成功。 After the DisplayPort connector 12 is connected to the DisplayPort device 3, the detection terminal of the DisplayPort connector 12 is triggered by a corresponding detection terminal in the Male connector of the DisplayPort connector on the DisplayPort device 3, and then sends a detection signal S1. . Thereby, the first configuration channel processing unit 13 can receive the detection signal S1 from the detection terminal of the DisplayPort connector 12. In this embodiment, the detection signal S1 mainly indicates that the DisplayPort device 3 and the DisplayPort connector 12 have been successfully connected.

該第一配置通道處理單元13接收該偵測訊號S1後,即依據該偵測訊號S1產生對應的一配置通道訊號S2,並傳輸該配置通道訊號S2至該第二配置通道處理單元15。 After receiving the detection signal S1, the first configuration channel processing unit 13 generates a corresponding configuration channel signal S2 according to the detection signal S1, and transmits the configuration channel signal S2 to the second configuration channel processing unit 15.

該第二配置通道處理單元15接收該配置通道訊號S2後,即依據該配置通道訊號S2的內容產生對應的一供電訊號S3與一資料請求訊號S4。接著,該第二配置通道處理單元15傳輸該供電訊號S3至該電力傳輸控制單元14,並傳輸該資料請求訊號S4至該圖形處理單元22。 After receiving the configuration channel signal S2, the second configuration channel processing unit 15 generates a corresponding power supply signal S3 and a data request signal S4 according to the content of the configuration channel signal S2. Then, the second configuration channel processing unit 15 transmits the power supply signal S3 to the power transmission control unit 14, and transmits the data request signal S4 to the graphics processing unit 22.

值得一提的是,本創作中該第一配置通道處理單元13與該第二配置通道處理單元15之間的連接,主要是模擬成通過兩個實體的USB Type-C連接器來連接而成。具體地,在標準的USB Type-C運用中,該第一配置通道處理單元13應該通過一第一USB Type-C連接器上的配置通道(Configuration Channel,CC)端子來輸出該配置通道訊號S2,而該第二配置通道處理單元15應該通過對應的一第二USB Type-C連接器上的配置通道端子來接收該配置通道訊號S2。在該配置通道訊號S2成功在該第一配置通道處理單元13與該第二配置通道處理單元 15之間傳遞後(表示CC端子已被觸發),該第一配置通道處理單元13與該第二配置通道處理單元15可認定該二USB Type-C連接器已經連接成功。 It is worth mentioning that the connection between the first configuration channel processing unit 13 and the second configuration channel processing unit 15 in the present invention is mainly simulated by connecting two physical USB Type-C connectors. . Specifically, in a standard USB Type-C operation, the first configuration channel processing unit 13 should output the configuration channel signal S2 through a configuration channel (CC) terminal on a first USB Type-C connector. The second configuration channel processing unit 15 should receive the configuration channel signal S2 through a configuration channel terminal on a corresponding second USB Type-C connector. The configuration channel signal S2 succeeds in the first configuration channel processing unit 13 and the second configuration channel processing unit After the transfer between the 15 (indicating that the CC terminal has been triggered), the first configuration channel processing unit 13 and the second configuration channel processing unit 15 can determine that the two USB Type-C connectors have been successfully connected.

本創作主要是將USB Type-C介面視為一種傳輸格式(例如PCI與PCI-E),並且省略上述該二USB Type-C連接器的設置,令該第一配置通道處理單元13與該第二配置通道處理單元15直接電性連接。因此,於本創作中,在該DisplayPort裝置3連接該DisplayPort連接器12之前(即,該偵測訊號S1產生前),該配置通道訊號S2無法在該第一配置通道處理單元13與該第二配置通道處理單元15之間傳遞,因此該第一配置通道處理單元13與該第二配置通道處理單元15之間的連接可被視為是斷除的(即,模擬為上述該二USB Type-C連接器未成功連接之前的狀態)。惟,以上所述僅為本創作的一較佳具體實施例,不應以此為限。 This creation mainly regards the USB Type-C interface as a transmission format (for example, PCI and PCI-E), and omits the setting of the two USB Type-C connectors described above, so that the first configuration channel processing unit 13 and the first The second configuration channel processing unit 15 is directly electrically connected. Therefore, in the present creation, before the DisplayPort device 3 is connected to the DisplayPort connector 12 (ie, before the detection signal S1 is generated), the configuration channel signal S2 cannot be in the first configuration channel processing unit 13 and the second The configuration is communicated between the channel processing units 15, so that the connection between the first configuration channel processing unit 13 and the second configuration channel processing unit 15 can be considered to be broken (ie, simulated as the above two USB Type- The C connector did not successfully connect to the previous state). However, the above description is only a preferred embodiment of the present invention and should not be limited thereto.

該電力傳輸控制單元14藉由該複數轉接端子18連接該主機板2上的該電力單元23,並由該電力單元23接收一第一電力P1。本實施例中,該電力傳輸控制單元14依據該供電訊號S3將該第一電力P1轉換為該DisplayPort裝置3所需的一第二電力P2,並且將該第二電力P2輸出至該DisplayPort連接器12的該電源端子。 The power transmission control unit 14 is connected to the power unit 23 on the motherboard 2 via the plurality of switching terminals 18, and receives a first power P1 from the power unit 23. In this embodiment, the power transmission control unit 14 converts the first power P1 into a second power P2 required by the DisplayPort device 3 according to the power supply signal S3, and outputs the second power P2 to the DisplayPort connector. 12 of the power terminal.

於一實施例中,該第二電力P2主要具有3.3伏特的輸出電壓,符合一般DisplayPort連接器的輸出標準。 In one embodiment, the second power P2 has an output voltage of 3.3 volts, which conforms to the output standard of a general DisplayPort connector.

於另一實施例中,該電力傳輸控制單元14主要為可支援USB電力傳輸(Power Delivery,PD)標準的控制單元,並且該第二電力P2主要為10瓦(5伏特/2安培)、18瓦(12伏特/1.5安培)、36瓦(12伏特/3安培)、60瓦(20伏特/3安培)或100瓦(20伏特/5安培)的輸出電力,依據該DisplayPort裝置3的特殊需求而定。 於一實施例中,該DisplayPort裝置3對於電力的需求可記載於該偵測訊號S1或該配置通道訊號S2中,但不加以限定。 In another embodiment, the power transmission control unit 14 is mainly a control unit that can support a USB Power Delivery (PD) standard, and the second power P2 is mainly 10 watts (5 volts / 2 amps), 18 Output power of watts (12 volts / 1.5 amps), 36 watts (12 volts / 3 amps), 60 watts (20 volts / 3 amps) or 100 watts (20 volts / 5 amps), depending on the specific needs of the DisplayPort device 3 And set. In one embodiment, the power requirement of the DisplayPort device 3 can be described in the detection signal S1 or the configuration channel signal S2, but is not limited.

值得一提的是,該電力傳輸控制單元14接收該供電訊號S3後,還可依據該供電訊號S3將該第一電力P1轉換為一第三電力P3,並傳輸至該第二配置通道處理單元15。並且,該第二配置通道處理單元15可再將該第三電力P3傳輸至該第一配置通道處理單元13。本實施例中,該第三電力P3主要為USB Type-C協定中的一配置電力(Vconn)。於一實施例中,該第三電力P3為6瓦(5伏特/1.2安培)的配置電力(Vconn),但不加以限定。該配置電力為USB Type-C協定中的公知技術,於此不再贅述。 It is to be noted that after the power transmission control unit 14 receives the power supply signal S3, the first power P1 can be converted into a third power P3 according to the power supply signal S3, and transmitted to the second configuration channel processing unit. 15. Moreover, the second configuration channel processing unit 15 can further transmit the third power P3 to the first configuration channel processing unit 13. In this embodiment, the third power P3 is mainly a configured power (Vconn) in the USB Type-C protocol. In one embodiment, the third power P3 is 6 watts (5 volts / 1.2 amps) of configured power (Vconn), but is not limited. This configuration power is a well-known technique in the USB Type-C protocol and will not be described here.

該第二配置通道處理單元15藉由該複數轉接端子18連接該主機板2上的該圖形處理單元22,並且傳輸該資料請求訊號S4至該圖形處理單元22,以請求該圖形處理單元22輸出該組DisplayPort訊號。 The second configuration channel processing unit 15 is connected to the graphics processing unit 22 on the motherboard 2 by the plurality of switching terminals 18, and transmits the data request signal S4 to the graphics processing unit 22 to request the graphics processing unit 22 Output the set of DisplayPort signals.

更具體地,如前文所述,該第二配置通道處理單元15接收該配置通道訊號S2後,可依據該配置通道訊號S2判斷該DisplayPort裝置3上的連接器為符合USB Type-C協定中的替換模式的USB Type-C連接器,並據此產生該資料請求訊號S4。因此,該圖形處理單元22接收了該資料請求訊號S4後,即依據該第二配置通道處理單元15的請求輸出該組DisplayPort訊號至該DisplayPort連接器12上的該複數資料端子。 More specifically, as described above, after receiving the configuration channel signal S2, the second configuration channel processing unit 15 can determine that the connector on the DisplayPort device 3 is in accordance with the USB Type-C protocol according to the configuration channel signal S2. The USB Type-C connector of the mode is replaced, and the data request signal S4 is generated accordingly. Therefore, after receiving the data request signal S4, the graphics processing unit 22 outputs the set of DisplayPort signals to the complex data terminal on the DisplayPort connector 12 according to the request of the second configuration channel processing unit 15.

通過該連接器模組1上的該第一配置通道處理單元13、該電力傳輸控制單元14、第二配置通道處理單元15及該DisplayPort連接器12,該主機板2可經由USB Type-C介面與該DisplayPort裝置3傳輸DisplayPort資料與該第二電力P2。 Through the first configuration channel processing unit 13, the power transmission control unit 14, the second configuration channel processing unit 15, and the DisplayPort connector 12 on the connector module 1, the motherboard 2 can be connected via a USB Type-C interface. The DisplayPort device 3 transmits the DisplayPort data and the second power P2.

本創作的該連接器模組1通過上述結構與電路設計,可將該DisplayPort連接器12與所有相關元件皆整合於單一該電路板11上,並且藉由USB Type-C介面與該主機板2傳輸DisplayPort資料。藉此,不但可便於製造者快速令該主機板2支援DisplayPort格式的資料傳輸,並且有利於該主機板2的製程簡化與成本的降低。 Through the above structure and circuit design, the connector module 1 of the present invention can integrate the DisplayPort connector 12 and all related components on a single circuit board 11 and interface with the motherboard through the USB Type-C interface. Transfer DisplayPort data. Thereby, not only the manufacturer can be quickly made to support the data transmission of the DisplayPort format by the motherboard 2, but also the process simplification and cost reduction of the motherboard 2 are facilitated.

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‧‧‧顯示埠連接器模組 1‧‧‧Display 埠 Connector Module

12‧‧‧顯示埠連接器 12‧‧‧Display 埠 connector

13‧‧‧第一配置通道處理單元 13‧‧‧First configuration channel processing unit

14‧‧‧電力傳輸控制單元 14‧‧‧Power transmission control unit

15‧‧‧第二配置通道處理單元 15‧‧‧Second configuration channel processing unit

16‧‧‧第一微處理單元 16‧‧‧First Micro Processing Unit

17‧‧‧第二微處理單元 17‧‧‧Second microprocessor unit

2‧‧‧主機板 2‧‧‧ motherboard

22‧‧‧圖形處理單元 22‧‧‧Graphic Processing Unit

23‧‧‧電力單元 23‧‧‧Power unit

Claims (10)

一種顯示埠連接器模組,包括:一顯示埠(DisplayPort)連接器,具有一電源端子、一偵測端子及複數資料端子;一電力傳輸控制單元,電性連接該電源端子,依據一供電訊號將一第一電力轉換為一第二電力並輸出至該電源端子;一第一配置通道處理單元,電性連接該偵測端子,由該偵測端子接收一偵測訊號,依據該偵測訊號產生並輸出一配置通道訊號;一第二配置通道處理單元,電性連接該電力傳輸控制單元及該第一配置通道單元,由該第一配置通道單元接收該配置通道訊號,依據該配置通道訊號產生並輸出該供電訊號及令一外部的主機板輸出一組DisplayPort訊號至該複數資料端子的一資料請求訊號。 A display connector module includes: a display port connector having a power terminal, a detecting terminal and a plurality of data terminals; a power transmission control unit electrically connected to the power terminal, according to a power supply signal Converting a first power into a second power and outputting it to the power terminal; a first configuration channel processing unit electrically connecting the detecting terminal, and receiving, by the detecting terminal, a detecting signal according to the detecting signal Generating and outputting a configuration channel signal; a second configuration channel processing unit electrically connecting the power transmission control unit and the first configuration channel unit, and receiving, by the first configuration channel unit, the configuration channel signal, according to the configuration channel signal Generating and outputting the power supply signal and causing an external motherboard to output a set of DisplayPort signals to a data request signal of the plurality of data terminals. 如請求項1所述的顯示埠連接器模組,其中更包括一電路板,該DisplayPort連接器、該第一配置通道處理單元、該第二配置通道處理單元及該電力傳輸控制單元電性連接於該電路板上。 The display port connector module of claim 1, further comprising a circuit board, the display port connector, the first configuration channel processing unit, the second configuration channel processing unit, and the power transmission control unit being electrically connected On the board. 如請求項2所述的顯示埠連接器模組,其中更包括複數轉接端子,分別電性連接於該電路板上,並通過該電路板電性連接該電力傳輸控制單元、該第二配置通道處理單元及該DisplayPort連接器的該複數資料端子,該複數轉接端子由該主機板接收該第一電力並傳輸至該電力傳輸控制單元,傳輸該資料請求訊號至該主機板,並由該主機板接收該組DisplayPort訊號並傳輸至該DisplayPort連接器的該複數資料端子。 The display port connector module of claim 2, further comprising a plurality of transfer terminals electrically connected to the circuit board, and electrically connecting the power transmission control unit, the second configuration through the circuit board a channel processing unit and the plurality of data terminals of the DisplayPort connector, the plurality of switching terminals receiving the first power from the motherboard and transmitting the power to the power transmission control unit, transmitting the data request signal to the motherboard, and The motherboard receives the set of DisplayPort signals and transmits the complex data terminals to the DisplayPort connector. 如請求項3所述的顯示埠連接器模組,其中該第一配置通道處理單元於該DisplayPort連接器連接一外部的DisplayPort連接器公頭時接收該偵測訊號,並且該第二配置通道處理單元依據該配置通道訊號判斷該DisplayPort連接器公頭為符合USB Type-C協定中的替換模式(Alternate Mode)的一USB Type-C連接器。 The display port connector module of claim 3, wherein the first configuration channel processing unit receives the detection signal when the DisplayPort connector is connected to an external DisplayPort connector male, and the second configuration channel is processed. The unit determines, according to the configured channel signal, that the DisplayPort connector male is a USB Type-C connector that conforms to the Alternate Mode in the USB Type-C protocol. 如請求項4所述的顯示埠連接器模組,其中該電力傳輸控制單元依據該供電訊號將該第一電力轉換為一第三電力並傳輸至該第二配置通道處理單元,並且該第二配置通道處理單元傳輸該第三電力至該第一配置通道處理單元。 The display port connector module of claim 4, wherein the power transmission control unit converts the first power into a third power according to the power supply signal and transmits the same to the second configuration channel processing unit, and the second The configuration channel processing unit transmits the third power to the first configuration channel processing unit. 如請求項5所述的顯示埠連接器模組,其中該第三電力為6瓦(5伏特/1.2安培)的一配置電力(Vconn)。 The display port connector module of claim 5, wherein the third power is a configuration power (Vconn) of 6 watts (5 volts / 1.2 amps). 如請求項4所述的顯示埠連接器模組,其中該電力傳輸控制單元支援USB電力傳輸(Power Delivery,PD)標準,並且該第二電力為10瓦(5伏特/2安培)、18瓦(12伏特/1.5安培)、36瓦(12伏特/3安培)、60瓦(20伏特/3安培)或100瓦(20伏特/5安培)的輸出電力。 The display port connector module of claim 4, wherein the power transmission control unit supports a USB Power Delivery (PD) standard, and the second power is 10 watts (5 volts / 2 amps), 18 watts. Output power (12 volts / 1.5 amps), 36 watts (12 volts / 3 amps), 60 watts (20 volts / 3 amps) or 100 watts (20 volts / 5 amps). 如請求項4所述的顯示埠連接器模組,其中更包括一第一微處理單元,電性連接該第一配置通道處理單元,用於控制該第一配置通道處理單元的作動。 The display port connector module of claim 4, further comprising a first micro processing unit electrically connected to the first configuration channel processing unit for controlling the operation of the first configuration channel processing unit. 如請求項8所述的顯示埠連接器模組,其中更包括一第二微處理單元,電性連接該第二配置通道處理單元,用於控制該第二配置通道處理單元的作動。 The display port connector module of claim 8, further comprising a second micro processing unit electrically connected to the second configuration channel processing unit for controlling the operation of the second configuration channel processing unit. 如請求項4所述的顯示埠連接器模組,其中該組DisplayPort訊號至少包括一對通道0差分訊號(Lane0)、一對通道1差分訊號(Lane1)、一對通道2差分訊號(Lane2)、一對通道3差分訊號(Lane3)及一對附屬通道差分訊號(AUX),該複數資料端子包括一對通道0差分端子、一對通道1差分端子、一對通道2差分端子、一對通道3差分端子及二附屬通道差分端子。 The display port connector module of claim 4, wherein the set of DisplayPort signals comprises at least a pair of channel 0 differential signals (Lane0), a pair of channel 1 differential signals (Lane1), and a pair of channel 2 differential signals (Lane2) a pair of channel 3 differential signals (Lane3) and a pair of auxiliary channel differential signals (AUX), the plurality of data terminals including a pair of channel 0 differential terminals, a pair of channel 1 differential terminals, a pair of channel 2 differential terminals, a pair of channels 3 differential terminals and two auxiliary channel differential terminals.
TW105203291U 2016-03-10 2016-03-10 Improved display port connector module TWM527115U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI730428B (en) * 2019-09-27 2021-06-11 瑞昱半導體股份有限公司 Payload mapper and payload mapping method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI730428B (en) * 2019-09-27 2021-06-11 瑞昱半導體股份有限公司 Payload mapper and payload mapping method
US11252372B2 (en) 2019-09-27 2022-02-15 Realtek Semiconductor Corporation Payload mapper and payload mapping method

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