CN201425980Y

CN201425980Y - Super-USB 3.4 plug and socket

Info

Publication number: CN201425980Y
Application number: CN2008202130404U
Authority: CN
Inventors: 黄金富
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-10-29
Filing date: 2008-10-29
Publication date: 2010-03-17
Anticipated expiration: 2018-10-29

Abstract

The utility model relates to a Super-USB 3.4 plug and a socket, which comprise a Super-USB 3.4 socket (S) and a Super-USB 3.4 plug (P), wherein a socket metal shell A (C1) is arranged on the Super-USB3.4 socket (S), an insulation substrate A (B1) and an insulation substrate B (B2) are arranged inside the socket metal shell A (C1), the insulation substrate A (B1) and the insulation substrate B (B2) are provided with a plurality of socket electrically-conductive terminals which comprise terminals for joining a USB bus and terminals of a load power source A and a load power source B, and the Super-USB 3.4 plug (P) is also provided with corresponding terminals. Besides the original group of power source terminals of the Super-USB 3.4 plug and the socket USB bus, two groups of electrically-conductive terminals of the load power source are additionally added, so a USB host machine can supply three groups of power sources to USB peripheral devices though the Super-USB 3.4 plug and the socket.

Description

Super-USB 3.4 plug and sockets

[technical field]

The utility model relates to a kind of connector, relates in particular to a kind of Super-USB 3.4 plug and sockets.

[background technology]

Be provided with USB (Universal Serial Bus mostly on the current general personal computer, abbreviate " USB " as), USB is except the bus of swap data that main frames such as computer and external equipment are provided, also can be by USB plug and socket to the external equipment out-put supply, the external equipment that some power consumption are low can pass through the USB wiring, obtain the 5V power supply by usb bus from main frame, but because the standard usb bus can only provide the power supply of 5V voltage and maximum 0.5A electric current, deficiency is dealt with the partly required load power source of USB external equipment, and being one has problem to be solved.

[utility model content]

The purpose of this utility model, be to provide a kind of Super-USB 3.4 plug and sockets, be provided with three groups of power supply terminals, wherein one group of power supply terminal is the original power supply terminal of usb bus, other two groups is the conducting terminal of the load power source additionally set up, can provide many two groups of load power sources by existing USB plug socket, usb host such as computer can be provided to the USB external equipment by these Super-USB 3.4 plug and sockets amount to three groups of power supply supplies.

The purpose of this utility model is to realize like this, adopt a kind of like this Super-USB 3.4 sockets, can be used for transmitting between usb host and the USB external equipment data and the supply of transmission power supply, it is characterized in that, described Super-USB 3.4 sockets (S) are provided with the socket metal shell one (C1) of a square tube shape, the below of the left and right sides of socket metal shell one (C1) partly inwardly concaves, the inner space of socket metal shell one (C1) is provided with insulating base one (B1) and insulating base two (B2), leave the space between insulating base one (B1) and the insulating base two (B2), this locus under socket metal shell one (C1) be provided with a recessed portion first (G1), insulating base one (B1), around the insulating base two (B2) respectively and leave the space that can insert for corresponding plug head counterpart between the inwall of socket metal shell one (C1), be provided with square opening one (H1) in the insulating base one (B1), be provided with 15 socket conducting terminals at the top of square opening one (H1), comprise socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), be provided with 15 socket load power source one terminals (SA) in the bottom of square opening one (H1), be provided with square opening two (H2) in the insulating base two (B2), be provided with 10 socket conducting terminals at the top of square opening two (H2), comprise socket conducting terminal 16 (S16), socket conducting terminal 17 (S17), socket conducting terminal 18 (S18), socket conducting terminal 19 (S19), socket conducting terminal 20 (S20), socket conducting terminal 21 (S21), socket conducting terminal 22 (S22), socket conducting terminal 23 (S23), socket conducting terminal 24 (S24), socket conducting terminal 25 (S25), be provided with 10 socket load power source two-terminals (SB) in the bottom of square opening two (H2), and, insulating base one (B1), insulating base two (B2), each socket conducting terminal, each socket load power source one terminal (SA), each socket load power source two-terminal (SB), socket metal shells one (C1) etc. are fixed on the pre-position of socket by insulating material.

And described socket conducting terminal one (S1) is the terminal that connects power supply ground, i.e. " GND "; Described socket conducting terminal two (S2) is the terminal that connects the data wire positive pole, i.e. " D+ "; Described socket conducting terminal three (S3) is the terminal that connects the data wire negative pole, i.e. " D-"; Described socket conducting terminal four (S4) is the terminal that connects the power supply output cathode, i.e. " VBUS "; Described socket conducting terminal five (S5) is to connect the anodal terminal of power supply input, i.e. " VIN "; Described socket conducting terminal six (S6), socket conducting terminal seven (S7) are the terminals that connects USB_3 Data Receiving line, i.e. " USB_3_RX "; Described socket conducting terminal eight (S8) is the terminal that connects data wire ground, i.e. " USB_3_GND "; Described socket conducting terminal nine (S9), socket conducting terminal ten (S10) are the terminals that connects the USB_3 DOL Data Output Line, i.e. " USB_3_TX "; Described socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14) are to keep the terminal of making other purposes; Described socket conducting terminal 15 (S15) is the terminal that connects the adjustment voltage resistance of load power source one, i.e. " VR1 "; Described socket conducting terminal 16 (S16) is the terminal that connects the adjustment voltage resistance of load power source two, i.e. " VR2 "; Described socket conducting terminal 17 (S17) is the terminal that connects right channel audio signal output, i.e. " Line Out-R "; Described socket conducting terminal 18 (S18) is the terminal that connects left channel audio signal output, i.e. " Line Out-L "; Described socket conducting terminal 19 (S19) is the terminal that connects audio signal wire ground, i.e. " Audio GND "; Described socket conducting terminal 20 (S20) is the terminal that connects the right channel audio signal input, i.e. " Line In-R "; Described socket conducting terminal 21 (S21) is the terminal that connects the left channel audio signal input, i.e. " Line In-L "; Described socket conducting terminal 22 (S22) is the terminal that connects video signal cable ground, i.e. " Video GND "; Described socket conducting terminal 23 (S23) is to connect the compound terminal that connects vision signal output, i.e. " Composite Video Out "; Described socket conducting terminal 24 (S24) is the terminal that connects the output of independent vide signal chroma, i.e. " S-Video Chrominance Out "; Described socket conducting terminal 25 (S25) is the terminal that connects the output of independent vide luminance signals, i.e. " S-VideoLuminance Out "; Described socket load power source one terminal (SA) is the terminal that connects load power source one positive pole; Described socket load power source two-terminal (SB) is the terminal that connects load power source two positive poles; Described socket metal shell one (C1) is the terminal that connects load power source one negative pole and load power source two negative poles.

And, adopt a kind of like this Super-USB 3.4 plugs, can be used for plugging use in pairs with foregoing Super-USB 3.4 sockets, it is characterized in that, described Super-USB 3.4 plugs (P) head is provided with the plug metal shell two (C2) of a square tube shape, the below of the left and right sides of plug metal shell two (C2) partly inwardly concaves, be provided with insulating base three (B3) and insulating base four (B4) in the inner space of plug metal shell two (C2), position between insulating base three (B3) and the insulating base four (B4) under plug metal shell two (C2) be provided with a recessed portion second (G2), be provided with 15 plug conducting terminals at the top of insulating base three (B3), comprise plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), be provided with plug load power source one terminal (PA) in the bottom of insulating base three (B3), be provided with 10 plug conducting terminals at the top of insulating base four (B4), comprise plug conducting terminal 16 (P16), plug conducting terminal 17 (P17), plug conducting terminal 18 (P18), plug conducting terminal 19 (P19), plug conducting terminal 20 (P20), plug conducting terminal 21 (P21), plug conducting terminal 22 (P22), plug conducting terminal 23 (P23), plug conducting terminal 24 (P24), plug conducting terminal 25 (P25), be provided with plug load power source two-terminal (PB) in the bottom of insulating base four (B4), and, insulating base three (B3), insulating base four (B4), each plug conducting terminal, plug load power source one terminal (PA), plug load power source two-terminal (PB), plug metal shells two (C2) etc. are fixed on the pre-position of plug by insulating material.

And described plug conducting terminal one (P1) is the terminal that connects power supply ground, i.e. " GND "; Described plug conducting terminal two (P2) is the terminal that connects the data wire positive pole, i.e. " D+ "; Described plug conducting terminal three (P3) is the terminal that connects the data wire negative pole, i.e. " D-"; Described plug conducting terminal four (P4) is the terminal that connects the power supply output cathode, i.e. " VBUS "; Described plug conducting terminal five (P5) is to connect the anodal terminal of power supply input, i.e. " VIN "; Described plug conducting terminal six (P6), plug conducting terminal seven (P7) are the terminals that connects USB_3 Data Receiving line, i.e. " USB_3_RX "; Described plug conducting terminal eight (P8) is the terminal that connects data wire ground, i.e. " USB_3_GND "; Described plug conducting terminal nine (P9), plug conducting terminal ten (P10) are the terminals that connects the USB_3 DOL Data Output Line, i.e. " USB_3_TX "; Described plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14) are to keep the terminal of making other purposes; Described plug conducting terminal 15 (P15) is the terminal that connects the adjustment voltage resistance of load power source one, i.e. " VR1 "; Described plug conducting terminal 16 (P16) is the terminal that connects the adjustment voltage resistance of load power source two, i.e. " VR2 "; Described plug conducting terminal 17 (P17) is the terminal that connects right channel audio signal output, i.e. " Line Out-R "; Described plug conducting terminal 18 (P18) is the terminal that connects left channel audio signal output, i.e. " Line Out-L "; Described plug conducting terminal 19 (P19) is the terminal that connects audio signal wire ground, i.e. " Audio GND "; Described plug conducting terminal 20 (P20) is the terminal that connects the right channel audio signal input, i.e. " Line In-R "; Described plug conducting terminal 21 (P21) is the terminal that connects the left channel audio signal input, i.e. " Line In-L "; Described plug conducting terminal 22 (P22) is the terminal that connects video signal cable ground, i.e. " Video GND "; Described plug conducting terminal 23 (P23) is to connect the compound terminal that connects vision signal output, i.e. " Composite Video Out "; Described plug conducting terminal 24 (P24) is the terminal that connects the output of independent vide signal chroma, i.e. " S-Video Chrominance Out "; Described plug conducting terminal 25 (P25) is the terminal that connects the output of independent vide luminance signals, i.e. " S-VideoLuminance Out "; Described plug load power source one terminal (PA) is the terminal that connects load power source one positive pole; Described plug load power source two-terminal (PB) is the terminal that connects load power source two positive poles; Described plug metal shell two (C2) is the terminal that connects load power source one negative pole and load power source two negative poles.

So just realized the purpose of this utility model.

The conducting terminal that the utility model has the advantages that two groups of load power sources that usb hosts such as computer can be by extra increase provides to the USB external equipment and amounts to three groups of power supply supplies, make some USB external equipments can establish power supply unit in addition, directly, can save the power supply unit cost is set from the power taking of Super-USB socket.

[description of drawings]

Fig. 1 and Fig. 2 are the three-dimensional schematic illustration of imageization of Super-USB 3.4 sockets (S) of the utility model first embodiment;

Fig. 3 is the A-A cross sectional illustration figure of Fig. 1;

Fig. 4 is the three-dimensional schematic illustration of imageization of Super-USB 3.4 plugs (P) of the utility model first embodiment;

Fig. 5 is the B-B cross sectional illustration figure of Fig. 4;

Fig. 6 is Super-USB 3.4 plugs (P) of the utility model first embodiment and the schematic illustration that Super-USB3.4 socket (S) plugs;

The three-dimensional schematic illustration of the imageization of Super-USB 3.4 plugs (PP) of Fig. 7 the utility model second embodiment;

Fig. 8 is the C-C cross sectional illustration figure of Fig. 7;

Fig. 9 is the schematic illustration that Super-USB 3.4 sockets (S) of Super-USB 3.4 plugs (PP) and first embodiment of the utility model second embodiment plug;

Figure 10 is the D-D cross sectional illustration figure of Fig. 9;

Figure 11 and Figure 12 are the three-dimensional schematic illustration of imageization of Super-USB 3.4 sockets (SS) of the utility model second embodiment;

Figure 13 is the E-E cross sectional illustration figure of Figure 11;

Figure 14 is Super-USB 3.4 plugs (PP) of the utility model second embodiment and the schematic illustration that Super-USB3.4 socket (SS) plugs.

Among the figure, the device that identical digitized representation is identical, parts device, accompanying drawing are schematically, in order to formation of the present utility model and principal character to be described.

[embodiment]

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 and Fig. 2 are the three-dimensional schematic illustration of imageization of Super-USB 3.4 sockets (S) of the utility model first embodiment, Fig. 3 is the A-A cross sectional illustration figure of Fig. 1, Super-USB 3.4 sockets (S) shown in Fig. 1 to Fig. 3 are provided with the socket metal shell one (C1) of a square tube shape, the below of the left and right sides of socket metal shell one (C1) partly inwardly concaves, the inner space of socket metal shell one (C1) is provided with insulating base one (B1) and insulating base two (B2), leave the space between insulating base one (B1) and the insulating base two (B2), this locus under socket metal shell one (C1) be provided with a recessed portion first (G1), insulating base one (B1), around the insulating base two (B2) respectively and leave the space that can insert for corresponding plug head counterpart between the inwall of socket metal shell one (C1), be provided with square opening one (H1) in the insulating base one (B1), be provided with 15 socket conducting terminals at the top of square opening one (H1), comprise socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), be provided with 15 socket load power source one terminals (SA) in the bottom of square opening one (H1), be provided with square opening two (H2) in the insulating base two (B2), be provided with 10 socket conducting terminals at the top of square opening two (H2), comprise socket conducting terminal 16 (S16), socket conducting terminal 17 (S17), socket conducting terminal 18 (S18), socket conducting terminal 19 (S19), socket conducting terminal 20 (S20), socket conducting terminal 21 (S21), socket conducting terminal 22 (S22), socket conducting terminal 23 (S23), socket conducting terminal 24 (S24), socket conducting terminal 25 (S25), be provided with 10 socket load power source two-terminals (SB) in the bottom of square opening two (H2), and, insulating base one (B1), insulating base two (B2), socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), socket conducting terminal 16 (S16), socket conducting terminal 17 (S17), socket conducting terminal 18 (S18), socket conducting terminal 19 (S19), socket conducting terminal 20 (S20), socket conducting terminal 21 (S21), socket conducting terminal 22 (S22), socket conducting terminal 23 (S23), socket conducting terminal 24 (S24), socket conducting terminal 25 (S25), each socket load power source one terminal (SA), each socket load power source two-terminal (SB), socket metal shells one (C1) etc. are fixed on the pre-position of socket by insulating material.

Consult Fig. 4 to Fig. 5, Fig. 4 is the three-dimensional schematic illustration of imageization of Super-USB 3.4 plugs (P) of the utility model first embodiment, Fig. 5 is the B-B cross sectional illustration figure of Fig. 4, Super-USB 3.4 plugs (P) head shown in Fig. 4 to Fig. 5 is provided with the plug metal shell two (C2) of a square tube shape, the below of the left and right sides of plug metal shell two (C2) partly inwardly concaves, be provided with insulating base three (B3) in the inner space of plug metal shell two (C2), insulating base four (B4), position between insulating base three (B3) and the insulating base four (B4) under plug metal shell two (C2) be provided with a recessed portion second (G2), be provided with 15 plug conducting terminals at the top of insulating base three (B3), comprise plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), be provided with plug load power source one terminal (PA) in the bottom of insulating base three (B3), be provided with 10 plug conducting terminals at the top of insulating base four (B4), comprise plug conducting terminal 16 (P16), plug conducting terminal 17 (P17), plug conducting terminal 18 (P18), plug conducting terminal 19 (P19), plug conducting terminal 20 (P20), plug conducting terminal 21 (P21), plug conducting terminal 22 (P22), plug conducting terminal 23 (P23), plug conducting terminal 24 (P24), plug conducting terminal 25 (P25), be provided with plug load power source two-terminal (PB) in the bottom of insulating base four (B4), and, insulating base three (B3), insulating base four (B4), plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), plug conducting terminal 16 (P16), plug conducting terminal 17 (P17), plug conducting terminal 18 (P18), plug conducting terminal 19 (P19), plug conducting terminal 20 (P20), plug conducting terminal 21 (P21), plug conducting terminal 22 (P22), plug conducting terminal 23 (P23), plug conducting terminal 24 (P24), plug conducting terminal 25 (P25), plug load power source one terminal (PA), plug load power source two-terminal (PB), plug metal shells two (C2) etc. are fixed on the pre-position of plug by insulating material.

In addition, Super-USB 3.4 plugs (P) of the utility model first embodiment and each conducting terminal on the Super-USB3.4 socket (S) are defined as follows:

Described socket conducting terminal one (S1) is the terminal that connects power supply ground, i.e. " GND ";

Described socket conducting terminal two (S2) is the terminal that connects the data wire positive pole, i.e. " D+ ";

Described socket conducting terminal three (S3) is the terminal that connects the data wire negative pole, i.e. " D-";

Described socket conducting terminal four (S4) is the terminal that connects the power supply output cathode, i.e. " VBUS ";

Described socket conducting terminal five (S5) is to connect the anodal terminal of power supply input, i.e. " VIN ";

Described socket conducting terminal six (S6), socket conducting terminal seven (S7) are the terminals that connects USB_3 Data Receiving line, i.e. " USB_3_RX ";

Described socket conducting terminal eight (S8) is the terminal that connects data wire ground, i.e. " USB_3_GND ";

Described socket conducting terminal nine (S9), socket conducting terminal ten (S10) are the terminals that connects the USB_3 DOL Data Output Line, i.e. " USB_3_TX ";

Described socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14) are to keep the terminal of making other purposes;

Described socket conducting terminal 15 (S15) is the terminal that connects the adjustment voltage resistance of load power source one, i.e. " VR1 ";

Described socket conducting terminal 16 (S16) is the terminal that connects the adjustment voltage resistance of load power source two, i.e. " VR2 ";

Described socket conducting terminal 17 (S17) is the terminal that connects right channel audio signal output, i.e. " Line Out-R ";

Described socket conducting terminal 18 (S18) is the terminal that connects left channel audio signal output, i.e. " Line Out-L ";

Described socket conducting terminal 19 (S19) is the terminal that connects audio signal wire ground, i.e. " AudioGND ";

Described socket conducting terminal 20 (S20) is the terminal that connects the right channel audio signal input, i.e. " Line In-R ";

Described socket conducting terminal 21 (S21) is the terminal that connects the left channel audio signal input, i.e. " Line In-L ";

Described socket conducting terminal 22 (S22) is the terminal that connects video signal cable ground, i.e. " Video GND ";

Described socket conducting terminal 23 (S23) is to connect the compound terminal that connects vision signal output, i.e. " Composite Video Out ";

Described socket conducting terminal 24 (S24) is the terminal that connects the output of independent vide signal chroma, i.e. " S-Video Chrominance Out ";

Described socket conducting terminal 25 (S25) is the terminal that connects the output of independent vide luminance signals, i.e. " S-Video Luminance Out ";

Described socket load power source one terminal (SA) is the terminal that connects load power source one positive pole;

Described socket load power source two-terminal (SB) is the terminal that connects load power source two positive poles;

Described socket metal shell one (C1) is the terminal that connects load power source one negative pole and load power source two negative poles;

Described plug conducting terminal one (P1) is the terminal that connects power supply ground, i.e. " GND ";

Described plug conducting terminal two (P2) is the terminal that connects the data wire positive pole, i.e. " D+ ";

Described plug conducting terminal three (P3) is the terminal that connects the data wire negative pole, i.e. " D-";

Described plug conducting terminal four (P4) is the terminal that connects the power supply output cathode, i.e. " VBUS ";

Described plug conducting terminal five (P5) is to connect the anodal terminal of power supply input, i.e. " VIN ";

Described plug conducting terminal six (P6), plug conducting terminal seven (P7) are the terminals that connects USB_3 Data Receiving line, i.e. " USB_3_RX ";

Described plug conducting terminal eight (P8) is the terminal that connects data wire ground, i.e. " USB_3_GND ";

Described plug conducting terminal nine (P9), plug conducting terminal ten (P10) are the terminals that connects the USB_3 DOL Data Output Line, i.e. " USB_3_TX ";

Described plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14) are to keep the terminal of making other purposes;

Described plug conducting terminal 15 (P15) is the terminal that connects the adjustment voltage resistance of load power source one, i.e. " VR1 ";

Described plug conducting terminal 16 (P16) is the terminal that connects the adjustment voltage resistance of load power source two, i.e. " VR2 ";

Described plug conducting terminal 17 (P17) is the terminal that connects right channel audio signal output, i.e. " Line Out-R ";

Described plug conducting terminal 18 (P18) is the terminal that connects left channel audio signal output, i.e. " Line Out-L ";

Described plug conducting terminal 19 (P19) is the terminal that connects audio signal wire ground, i.e. " AudioGND ";

Described plug conducting terminal 20 (P20) is the terminal that connects the right channel audio signal input, i.e. " Line In-R ";

Described plug conducting terminal 21 (P21) is the terminal that connects the left channel audio signal input, i.e. " Line In-L ";

Described plug conducting terminal 22 (P22) is the terminal that connects video signal cable ground, i.e. " Video GND ";

Described plug conducting terminal 23 (P23) is to connect the compound terminal that connects vision signal output, i.e. " Composite Video Out ";

Described plug conducting terminal 24 (P24) is the terminal that connects the output of independent vide signal chroma, i.e. " S-Video Chrominance Out ";

Described plug conducting terminal 25 (P25) is the terminal that connects the output of independent vide luminance signals, i.e. " S-Video Luminance Out ";

Described plug load power source one terminal (PA) is the terminal that connects load power source one positive pole;

Described plug load power source two-terminal (PB) is the terminal that connects load power source two positive poles;

Described plug metal shell two (C2) is the terminal that connects load power source one negative pole and load power source two negative poles.

Be provided with two groups of load power source terminals altogether on Super-USB 3.4 plugs (P) of the utility model first embodiment and Super-USB 3.4 sockets (S), usb host provides two groups of independently load power sources by these two groups of load power source terminals.If the utility model first embodiment only need to be applied to the occasion of one group of load power source, as long as change the wherein definition of part terminal, two groups of load power source terminals are merged, more high current capacity can be provided, these terminals comprise socket conducting terminal 16 (S16), plug conducting terminal 16 (P16), plug load power source two-terminal (PB), socket load power source two-terminal (SB), socket metal shell one (C1), plug metal shell two (C2) etc., and they are defined as follows:

Described socket conducting terminal 16 (S16) is to keep the terminal of making other purposes;

Described socket load power source two-terminal (SB) is the terminal that connects load power source one positive pole;

Described socket metal shell one (C1) is the terminal that connects load power source one negative pole;

Described plug conducting terminal 16 (P16) is to keep the terminal of making other purposes;

Described plug load power source two-terminal (PB) is the terminal that connects load power source one positive pole;

Described plug metal shell two (C2) is the terminal that connects load power source one negative pole.

Consult Fig. 6, Fig. 6 is Super-USB 3.4 plugs (P) of the utility model first embodiment and the schematic illustration that Super-USB 3.4 sockets (S) plug, when Super-USB 3.4 plugs (P) and Super-USB 3.4 sockets (S) when plugging, each terminal on Super-USB 3.4 plugs (P) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (S) and is connected, and their annexation is as follows:

Plug conducting terminal one (P1) is connected with socket conducting terminal one (S1) circuitry phase;

Plug conducting terminal two (P2) is connected with socket conducting terminal two (S2) circuitry phase;

Plug conducting terminal three (P3) is connected with socket conducting terminal three (S3) circuitry phase;

Plug conducting terminal four (P4) is connected with socket conducting terminal four (S4) circuitry phase;

Plug conducting terminal five (P5) is connected with socket conducting terminal five (S5) circuitry phase;

Plug conducting terminal six (P6) is connected with socket conducting terminal six (S6) circuitry phase;

Plug conducting terminal seven (P7) is connected with socket conducting terminal seven (S7) circuitry phase;

Plug conducting terminal eight (P8) is connected with socket conducting terminal eight (S8) circuitry phase;

Plug conducting terminal nine (P9) is connected with socket conducting terminal nine (S9) circuitry phase;

Plug conducting terminal ten (P10) is connected with socket conducting terminal ten (S10) circuitry phase;

Plug conducting terminal 11 (P11) is connected with socket conducting terminal 11 (S11) circuitry phase;

Plug conducting terminal 12 (P12) is connected with socket conducting terminal 12 (S12) circuitry phase;

Plug conducting terminal 13 (P13) is connected with socket conducting terminal 13 (S13) circuitry phase;

Plug conducting terminal 14 (P14) is connected with socket conducting terminal 14 (S14) circuitry phase;

Plug conducting terminal 15 (P15) is connected with socket conducting terminal 15 (S15) circuitry phase;

Plug conducting terminal 16 (P16) is connected with socket conducting terminal 16 (S16) circuitry phase;

Plug conducting terminal 17 (P17) is connected with socket conducting terminal 17 (S17) circuitry phase;

Plug conducting terminal 18 (P18) is connected with socket conducting terminal 18 (S18) circuitry phase;

Plug conducting terminal 19 (P19) is connected with socket conducting terminal 19 (S19) circuitry phase;

Plug conducting terminal 20 (P20) is connected with socket conducting terminal 20 (S20) circuitry phase;

Plug conducting terminal 21 (P21) is connected with socket conducting terminal 21 (S21) circuitry phase;

Plug conducting terminal 22 (P22) is connected with socket conducting terminal 22 (S22) circuitry phase;

Plug conducting terminal 23 (P23) is connected with socket conducting terminal 23 (S23) circuitry phase;

Plug conducting terminal 24 (P24) is connected with socket conducting terminal 24 (S24) circuitry phase;

Plug conducting terminal 25 (P25) is connected with socket conducting terminal 25 (S25) circuitry phase;

Plug load power source one terminal (PA) is connected with socket load power source one terminal (SA) circuitry phase;

Plug load power source two-terminal (PB) is connected with socket load power source two-terminal (SB) circuitry phase;

Plug metal shell two (C2) is connected with socket metal shell one (C1) circuitry phase.

Be respectively equipped with " VR1 " terminal of the resistance that is used to connect the output voltage of adjusting load power source one on Super-USB 3.4 plug and sockets in this manual and adjust " VR2 " terminal of resistance of the output voltage of load power source two, be adopt my invention " by the method for power consumption equipment control power supply equipment output supply voltage (Chinese patent application number: 200810216416.1) ", be a resistance that is used to adjust output voltage to be set regulate the voltage that usb host is exported to the load power source of USB external equipment on the USB external equipment, make it to meet the demand of USB external equipment, the particulars of relevant this method can be consulted the specification of this patent application.

General USB plug socket is divided into A type and Type B two, and the USB socket operated by rotary motion of A type is on usb host, and Type B socket operated by rotary motion generally is to USB external equipment supply bus power source by usb host on the USB external equipment.Set up the anodal terminal " VIN " of power supply input on Super-USB 3.4 plug and sockets of the present utility model, when two USB devices are connected, " VBUS " terminal of USB device is connected with " VIN " terminal of another USB device, need only wherein capable outside output bus power supply of USB device, do not have a USB device of the outside output bus power supply of ability, just can from the other side who is connected, obtain bus power source.As for load power source, after two USB devices are connected, a USB device as USB external equipment angie type, by usb bus notice another USB device output loading power supply, again by giving the USB external equipment as the outside output loading power supply of the USB device of usb host angie type as the usb host angie type.Super-USB 3.4 plug and sockets of the present utility model are particularly suitable for the USB device that some possess dual angie type, and more need not be divided into A type and Type B two, and usb host and USB external equipment all can adopt Super-USB 3.4 sockets of the present utility model.

Consult Fig. 7 to Fig. 8, the three-dimensional schematic illustration of the imageization of Super-USB 3.4 plugs (PP) of Fig. 7 the utility model second embodiment, Fig. 8 is the C-C cross sectional illustration figure of Fig. 7, Super-USB 3.4 plugs (PP) of second embodiment are compared with Super-USB 3.4 plugs (P) of first embodiment, main difference is that Super-USB 3.4 plugs (PP) of second embodiment amount to and have only 15 plug conducting terminals and plug load power source one terminal, Super-USB3.4 plug (P) than first embodiment has lacked 10 plug conducting terminals and a plug load power source two-terminal, and Super-USB 3.4 plugs (PP) of second embodiment are particularly suitable for some application that only need one group of load power supply.Continue to consult Fig. 7 to Fig. 8, Super-USB 3.4 plugs (PP) head shown in Fig. 7 to Fig. 8 is provided with the plug metal shell three (C3) of a square tube shape, the below of the left and right sides of plug metal shell three (C3) partly inwardly concaves, be provided with insulating base five (B5) in the inner space of plug metal shell three (C3), be provided with 15 plug conducting terminals at the top of insulating base five (B5), comprise plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), be provided with plug load power source one terminal (PA) in the bottom of insulating base five (B5), and, insulating base five (B5), plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), plug load power source one terminal (PA), plug metal shells three (C3) etc. are fixed on the pre-position of plug by insulating material.

Continue to consult Fig. 7 to Fig. 8, each terminal on Super-USB 3.4 plugs (PP) of second embodiment shown in Fig. 7 to Fig. 8 is defined as follows:

Described plug metal shell three (C3) is the terminal that connects load power source one negative pole.

Consult Fig. 9 and Figure 10, Fig. 9 is the schematic illustration that Super-USB 3.4 sockets (S) of Super-USB 3.4 plugs (PP) and first embodiment of the utility model second embodiment plug, Figure 10 is the D-D cross sectional illustration figure of Fig. 9, when Super-USB 3.4 sockets (S) of the Super-USB of second embodiment, 3.4 plugs (PP) and first embodiment when plugging, the Super-USB of second embodiment

Connect 3.4 each terminal on the plug (PP) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (S) of first embodiment, their annexation is as follows:

Plug metal shell three (C3) is connected with socket metal shell one (C1) circuitry phase.

Continue to consult Fig. 9 and Figure 10, Super-USB 3.4 plugs (PP) of second embodiment shown in the figure are inserted into the left part of Super-USB 3.4 sockets (S) of first embodiment, the recessed portion first (G1) of the below, right side of Super-USB 3.4 plugs (PP) of second embodiment and Super-USB 3.4 sockets (S) of first embodiment matches, limited the position of Super-USB 3.4 plugs (PP) in the Super-USB of first embodiment, 3.4 sockets (S) of second embodiment by this recessed portion first (G1), Super-USB 3.4 sockets (S) of first embodiment both can plug with Super-USB 3.4 plugs (P) of first embodiment, also can plug with Super-USB 3.4 plugs (PP) of second embodiment.

Consult Figure 11 to Figure 13, Figure 11 and Figure 12 are the three-dimensional schematic illustration of imageization of the Super-USB3.4 socket (SS) of the utility model second embodiment, Figure 13 is the E-E cross sectional illustration figure of Figure 11, Super-USB 3.4 sockets (SS) of second embodiment are compared with Super-USB 3.4 sockets (S) of first embodiment, main difference is that Super-USB 3.4 sockets (SS) of second embodiment amount to and have only 15 socket conducting terminals and socket load power source one terminal, Super-USB 3.4 sockets (S) than first embodiment have lacked 10 socket conducting terminals and a socket load power source two-terminal, can reduce the volume of socket like this.Continue to consult Figure 11 to Figure 13, Super-USB 3.4 sockets (SS) shown in Figure 11 to Figure 13 are provided with the socket metal shell four (C4) of a square tube shape, the below of the left and right sides of socket metal shell four (C4) partly inwardly concaves, the inner space of socket metal shell four (C4) is provided with insulating base six (B6), around the insulating base six (B6) respectively and leave the space that can insert for corresponding plug head counterpart between the inwall of socket metal shell four (C4), be provided with square opening three (H3) in the insulating base six (B6), be provided with 15 socket conducting terminals at the top of square opening three (H3), comprise socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), be provided with 15 socket load power source one terminals (SA) in the bottom of square opening three (H3), and, insulating base six (B6), socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), each socket load power source one terminal (SA), socket metal shells four (C4) etc. are fixed on the pre-position of socket by insulating material.

In addition, each conducting terminal on Super-USB 3.4 sockets (SS) of the utility model second embodiment is defined as follows:

Described socket metal shell four (C4) is the terminal that connects load power source one negative pole.

Consult Figure 14, Figure 14 is Super-USB 3.4 plugs (PP) of the utility model second embodiment and the schematic illustration that Super-USB 3.4 sockets (SS) plug, when Super-USB 3.4 plugs (PP) and Super-USB 3.4 sockets (SS) when plugging, each terminal on Super-USB 3.4 plugs (PP) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (SS) and is connected, and their annexation is as follows:

Plug metal shell three (C3) is connected with socket metal shell four (C4) circuitry phase.

Continue to consult Fig. 7 to Fig. 8 and Figure 11 to Figure 14, Super-USB 3.4 sockets (SS) of second embodiment plug with Super-USB 3.4 plugs (PP) of second embodiment only, can not plug with Super-USB 3.4 plugs (P) of first embodiment.

In addition; Super-USB 3.4 plug and sockets of the present utility model can be applicable to the USB standard of each different editions such as USB1.0, USB1.1, USB2.0, USB3.0; all can realize the purpose of this utility model well, all be to belong to protection range of the present utility model.

Below described Super-USB 3.4 plug and sockets of the present utility model in detail, Super-USB 3.4 plug and sockets of the present utility model have been taken into account data communication and load power supply simultaneously, and its enforcement can bring good benefit.

Claims

1. Super-USB 3.4 sockets, can be used for transmitting between usb host and the USB external equipment data and the supply of transmission power supply, it is characterized in that, described Super-USB 3.4 sockets (S) are provided with the socket metal shell one (C1) of a square tube shape, the below of the left and right sides of socket metal shell one (C1) partly inwardly concaves, the inner space of socket metal shell one (C1) is provided with insulating base one (B1) and insulating base two (B2), leave the space between insulating base one (B1) and the insulating base two (B2), this locus under socket metal shell one (C1) be provided with a recessed portion first (G1), insulating base one (B1), around the insulating base two (B2) respectively and leave the space that can insert for corresponding plug head counterpart between the inwall of socket metal shell one (C1), be provided with square opening one (H1) in the insulating base one (B1), be provided with 15 socket conducting terminals at the top of square opening one (H1), comprise socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), be provided with 15 socket load power source one terminals (SA) in the bottom of square opening one (H1), be provided with square opening two (H2) in the insulating base two (B2), be provided with 10 socket conducting terminals at the top of square opening two (H2), comprise socket conducting terminal 16 (S16), socket conducting terminal 17 (S17), socket conducting terminal 18 (S18), socket conducting terminal 19 (S19), socket conducting terminal 20 (S20), socket conducting terminal 21 (S21), socket conducting terminal 22 (S22), socket conducting terminal 23 (S23), socket conducting terminal 24 (S24), socket conducting terminal 25 (S25), be provided with 10 socket load power source two-terminals (SB) in the bottom of square opening two (H2), and, insulating base one (B1), insulating base two (B2), each socket conducting terminal, each socket load power source one terminal (SA), each socket load power source two-terminal (SB), socket metal shell one (C1) is fixed on the pre-position of socket by insulating material.

2. Super-USB 3.4 sockets as claimed in claim 1 is characterized in that,

Described socket metal shell one (C1) is the terminal that connects load power source one negative pole and load power source two negative poles.

3. Super-USB 3.4 sockets as claimed in claim 1 is characterized in that,

Described socket load power source one terminal (SA), socket load power source two-terminal (SB) are the terminals that connects load power source one positive pole;

Described socket metal shell one (C1) is the terminal that connects load power source one negative pole.

4. Super-USB 3.4 plugs, can be used for plugging use in pairs with each described Super-USB 3.4 sockets of claim 1 to 3, it is characterized in that, described Super-USB3.4 plug (P) head is provided with the plug metal shell two (C2) of a square tube shape, the below of the left and right sides of plug metal shell two (C2) partly inwardly concaves, be provided with insulating base three (B3) and insulating base four (B4) in the inner space of plug metal shell two (C2), position between insulating base three (B3) and the insulating base four (B4) under plug metal shell two (C2) be provided with a recessed portion second (G2), be provided with 15 plug conducting terminals at the top of insulating base three (B3), comprise plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), be provided with plug load power source one terminal (PA) in the bottom of insulating base three (B3), be provided with 10 plug conducting terminals at the top of insulating base four (B4), comprise plug conducting terminal 16 (P16), plug conducting terminal 17 (P17), plug conducting terminal 18 (P18), plug conducting terminal 19 (P19), plug conducting terminal 20 (P20), plug conducting terminal 21 (P21), plug conducting terminal 22 (P22), plug conducting terminal 23 (P23), plug conducting terminal 24 (P24), plug conducting terminal 25 (P25), be provided with plug load power source two-terminal (PB) in the bottom of insulating base four (B4), and, insulating base three (B3), insulating base four (B4), each plug conducting terminal, plug load power source one terminal (PA), plug load power source two-terminal (PB), plug metal shell two (C2) is fixed on the pre-position of plug by insulating material.

5. Super-USB 3.4 plugs as claimed in claim 4 is characterized in that,

6. Super-USB 3.4 plugs as claimed in claim 4 is characterized in that,

Described plug load power source one terminal (PA), plug load power source two-terminal (PB) are the terminals that connects load power source one positive pole;

7. as claim 4 or 5 or 6 described Super-USB 3.4 plugs, it is characterized in that, when described Super-USB 3.4 plugs (P) and Super-USB 3.4 sockets (S) when plugging, each terminal on Super-USB 3.4 plugs (P) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (S) and is connected, and their annexation is as follows:

Plug conducting terminal seven (P 7) is connected with socket conducting terminal seven (S7) circuitry phase;

8. Super-USB 3.4 plugs, can be used for plugging use in pairs with each described Super-USB 3.4 sockets of claim 1 to 3, it is characterized in that, described Super-USB3.4 plug (PP) head is provided with the plug metal shell three (C3) of a square tube shape, the below of the left and right sides of plug metal shell three (C3) partly inwardly concaves, be provided with insulating base five (B5) in the inner space of plug metal shell three (C3), be provided with 15 a plugs conducting terminal at the top of insulating base five (B5), comprise plug conducting terminal one (P1), plug conducting terminal two (P2), plug conducting terminal three (P3), plug conducting terminal four (P4), plug conducting terminal five (P5), plug conducting terminal six (P6), plug conducting terminal seven (P7), plug conducting terminal eight (P8), plug conducting terminal nine (P9), plug conducting terminal ten (P10), plug conducting terminal 11 (P11), plug conducting terminal 12 (P12), plug conducting terminal 13 (P13), plug conducting terminal 14 (P14), plug conducting terminal 15 (P15), be provided with plug load power source one terminal (PA) in the bottom of insulating base five (B5), and, insulating base five (B5), each plug conducting terminal, plug load power source one terminal (PA), plug metal shell three (C3) is fixed on the pre-position of plug by insulating material.

9. Super-USB 3.4 plugs as claimed in claim 8 is characterized in that,

10. Super-USB 3.4 plugs as claimed in claim 8 or 9, it is characterized in that, when described Super-USB 3.4 plugs (PP) and Super-USB 3.4 sockets (S) when plugging, each terminal on the Super-USB3.4 plug (PP) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (S) and is connected, and their annexation is as follows:

11. Super-USB 3.4 sockets, can be used for plugging use in pairs with each described Super-USB 3.4 plugs of claim 8 to 9, it is characterized in that, described Super-USB3.4 socket (SS) is provided with the socket metal shell four (C4) of a square tube shape, the below of the left and right sides of socket metal shell four (C4) partly inwardly concaves, the inner space of socket metal shell four (C4) is provided with insulating base six (B6), around the insulating base six (B6) respectively and leave the space that can insert for corresponding plug head counterpart between the inwall of socket metal shell four (C4), be provided with square opening three (H3) in the insulating base six (B6), be provided with 15 socket conducting terminals at the top of square opening three (H3), comprise socket conducting terminal one (S1), socket conducting terminal two (S2), socket conducting terminal three (S3), socket conducting terminal four (S4), socket conducting terminal five (S5), socket conducting terminal six (S6), socket conducting terminal seven (S7), socket conducting terminal eight (S8), socket conducting terminal nine (S9), socket conducting terminal ten (S10), socket conducting terminal 11 (S11), socket conducting terminal 12 (S12), socket conducting terminal 13 (S13), socket conducting terminal 14 (S14), socket conducting terminal 15 (S15), be provided with 15 socket load power source one terminals (SA) in the bottom of square opening three (H3), and, insulating base six (B6), each conducting terminal, each socket load power source one terminal (SA), socket metal shell four (C4) is fixed on the pre-position of socket by insulating material.

12. Super-USB 3.4 sockets as claimed in claim 11 is characterized in that,

13. as claim 11 or 12 described Super-USB 3.4 sockets, it is characterized in that, when described Super-USB 3.4 sockets (SS) and Super-USB 3.4 plugs (PP) when plugging, each terminal on Super-USB 3.4 plugs (PP) is gone up corresponding terminal circuitry phase with Super-USB 3.4 sockets (SS) and is connected, and their annexation is as follows: