CN205029144U - USBType -C conversion module - Google Patents

Abstract

The utility model discloses a USBType -C conversion module has USB type -C connector, VGA connector, configuration channel the control unit, microprocessing unit and signal translation unit. Signal translation unit connects a plurality of data terminal of USB type -C connector and a plurality of data terminal of VGA connector respectively. Configuration channel the control unit connects the configuration channel terminal of USB type -C connector. Microprocessing unit connection configuration channel the control unit, that connects signal translation unit simultaneously listens the foot position. When external device was connected to the VGA connector, microprocessing unit control arrangement channel the control unit was with request USB type -C connector output displayPort signal to the displayPort signal is exported via the VGA connector converted into the VGA signal by signal translation unit after again.

Description

USB Type-C modular converter

Technical field

The utility model relates to modular converter, particularly relates to a kind of USBType-C modular converter.

Background technology

Due to the universalness of USB (UniversalSerialBus, USB) connector, almost various electronic installation is all configured with USB connector.By the use of those USB connector, the user of electronic installation can carry out the transmission of data like a cork, quite convenient.

Current the most widely used USB connector specification at present, so that high transmission speeds (Hi-Speed can be supported, USB2.0 specification 480Mbps) with can support that the USB3.0 specification of ultrahigh speed transmission rate (Super-Speed, 5Gpbs) is for the most large.But along with the lifting of digital data quality and file size, the transmission speed of aforementioned USB2.0 specification and USB3.0 specification cannot meet the demand of existing user gradually.

In view of this, market is proposed USB3.1 specification, and is wherein more subject to most all circles with the connector of the Type-C of USB3.1 and attractes attention.Specifically, USB3.1Type-C connector except overcome traditional USB connector totally with the structure of upper and lower 24 butt and cannot just insert or anti-plug problem except, the power output of data transmission bauds up to 10Gbps and 100W also can be provided.

As mentioned above, USB3.1Type-C connection device is standby convenience, high data transmission bauds and large power output, the volume of adding USB3.1Type-C connector very little, needed for the space that occupies not quite.Therefore, current many trendy main frames or electronic installation have all given up USB2.0 connector and USB3.0 connector, change into and adopt USB3.1Type-C connector.Can find out thus, USB3.1Type-C connector may become the main flow of general-purpose interface of new generation.

But, existing many old money main frames or electronic installation do not configure USB3.1Type-C connector.In in the case, those trendy main frames or electronic installation cannot directly come be connected with the main frame of those old moneys or electronic installation by USB3.1Type-C interface, and then cannot carry out transfer of data smoothly.Thus, will considerably inconvenience for user.

Utility model content

In view of this, main purpose of the present utility model is to provide a kind of USBType-C modular converter, can connect VGA device, and transmit VGA signal by USBType-C interface.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of USBType-C modular converter, comprising:

One USBType-C connector, for connecting a main frame and having multiple first data terminal and a configurating channel terminal;

One VGA connector, for connecting a VGA device and having multiple second data terminal;

One configurating channel control unit, is electrically connected this configurating channel terminal, exports DisplayPort data by this USBType-C connector of a request signals request via the plurality of first data terminal;

One signal conversion unit, is electrically connected the plurality of first data terminal and the plurality of second data terminal respectively, and these DisplayPort data of the plurality of first data terminal transmission are converted to VGA data and export via the plurality of second data terminal; And

One microprocessing unit, be electrically connected a detecting pin position of this configurating channel control unit and this signal conversion unit, the detection signal according to the transmission of this detecting pin position controls this configurating channel control unit and sends this request signals.

As mentioned above, wherein more comprise a power control unit, be electrically connected the first power supply terminal of this USBType-C connector and a second source terminal of this VGA connector, export one first electric power that this first power supply terminal transmits to this second source terminal by one for electric signal.

As mentioned above, wherein this first power supply terminal is one second configurating channel terminal of this USBType-C connector, and this first electric power is configuration voltage (Vconn) that this second configurating channel terminal exports.

As mentioned above, wherein this power control unit is also electrically connected this configurating channel control unit, this microprocessing unit and this signal conversion unit, this first electric power is converted to one second electric power to provide the electric power needed for the running of this configurating channel control unit, this microprocessing unit and this signal conversion unit.

As mentioned above, wherein this first electric power is 5V, and this second electric power is 3.3V.

As mentioned above, wherein the plurality of first data terminal comprises a pair first high speed transmission data terminals (SSTx1), a pair second high speed transmission data terminals (SSTx2), receives at a high speed data terminal (SSRx1) for a pair first, receives data terminal (SSRx2) and 2 second bus terminals (SBU) at a high speed a pair second.

As mentioned above, wherein more comprise a switch unit, be connected between this 2 second bus terminal and one group of attached channels difference pin position (AUX) of this signal conversion unit, and this switch unit is electrically connected this microprocessing unit, receives one by this microprocessing unit and switch signal to switch the state of this switch unit for conducting or open circuit.

As mentioned above, wherein more comprise a circuit board and a shell, this USBType-C connector, this VGA connector, this configurating channel control unit, this microprocessing unit, this power control unit and this signal conversion unit are electrically connected at this circuit board, and this shell this USBType-C connector coated, this VGA connector, this configurating channel control unit, this microprocessing unit, this power control unit, this signal conversion unit and this circuit board.

As mentioned above, wherein more comprise a circuit board, a shell and multiple wire, this USBType-C connector, this configurating channel control unit, this microprocessing unit, this power control unit and this signal conversion unit are electrically connected at this circuit board, this shell this USBType-C connector coated, this configurating channel control unit, this microprocessing unit, this power control unit, this signal conversion unit and this circuit board, one end of the plurality of wire is electrically connected this circuit board respectively, and the other end is electrically connected this VGA connector respectively.

As mentioned above, wherein this USBType-C connector is a USBType-C connector male head, and this VGA connector is a VGA connector male or a VGA connector female.

When this VGA connector connects an external device (ED), this microprocessing unit controls this configurating channel control unit and exports DisplayPort signal to ask this USBType-C connector, and after this DisplayPort signal is converted to VGA signal by this signal conversion unit, then export via this VGA connector.

USBType-C modular converter provided by the utility model, has the following advantages:

Modular converter of the present utility model, a main frame with USBType-C connector and a device with VGA connector can be connected, DisplayPort signal is received from this main frame by this USBType-C connector, and change this DisplayPort signal into after VGA signal, then export this device to.By this, this device not possessing this USBType-C connector can be made to be compatible with this main frame use.

Accompanying drawing explanation

Fig. 1 is the three-dimensional combination figure of the first specific embodiment of the present utility model;

Fig. 2 is the circuit diagram of the first specific embodiment of the present utility model;

Fig. 3 is the connection diagram of the first specific embodiment of the present utility model;

Fig. 4 is the circuit diagram of the second specific embodiment of the present utility model;

Fig. 5 is the circuit diagram of the 3rd specific embodiment of the present utility model;

Fig. 6 is the three-dimensional combination figure of the 4th specific embodiment of the present utility model.

[primary clustering symbol description]

1,1 ' ... modular converter;

10 ... shell;

11 ... circuit board;

12 ... USBType-C connector;

13 ... VGA connector;

14 ... configurating channel control unit;

15 ... microprocessing unit;

16 ... power control unit;

17 ... switch unit;

18 ... signal conversion unit;

19 ... wire;

2 ... main frame;

21 ... USBType-C connector female end;

3 ... VGA device;

31 ... VGA connector female;

4 ... transmission line;

D1 ... channel 0 differential signal;

D2 ... channel 1 differential signal;

D3 ... channel 2 differential signal;

D4 ... channel 3 differential signal;

D5 ... attached channels differential signal;

S1 ... first switches signal;

S2 ... second switches signal;

S3 ... detection signal;

S4 ... control signal;

S5 ... request signals;

S6 ... for electric signal.

Embodiment

Below in conjunction with accompanying drawing and embodiment of the present utility model, this novel USBType-C modular converter is described in further detail.

Consult Fig. 1 and Fig. 2, be respectively three-dimensional combination figure and the circuit diagram of the first specific embodiment of the present utility model.The utility model discloses a kind of USBType-C modular converter 1 (below will referred to as this modular converter 1 in specification), and this modular converter 1 mainly has circuit board 11, USBType-C connector 12, VGA connector 13, configurating channel control unit 14, microprocessing unit 15 and a signal conversion unit 18.

As shown in Figure 1, this USBType-C connector 12, this VGA connector 13, this configurating channel control unit 14, this microprocessing unit 15 are electrically connected at this circuit board 11 respectively with this signal conversion unit 18, and are electrically connected to each other by this circuit board 11.This modular converter 1 also includes a shell 10, and this shell 10 is in order to this USBType-C connector 12 coated, this VGA connector 13, this configurating channel control unit 14, this microprocessing unit 15, this signal conversion unit 18 and this circuit board 11.

In an embodiment of the present utility model, this modular converter 1 also has power control unit 16 and a switch unit 17.This power control unit 16 is same with this switch unit 17 is electrically connected at this circuit board 11, and is coated in this shell 10.Only, in other embodiments, this power control unit 16 does not certainly exist with this switch unit 17, can not be limited.

Please refer to Fig. 2, in the present embodiment, this USBType-C connector 12 has multiple first data terminal, a configurating channel terminal (ConfigurationChannel, and one first power supply terminal CC), this VGA connector 13 has multiple second data terminal (Data) and a second source terminal (VBUS), and wherein the plurality of first data terminal and the plurality of second data terminal are connected to each other by this signal conversion unit 18.

In the present embodiment, the plurality of first data terminal mainly comprises a pair first high speed transmission data terminals (SSTx1) meeting USBType-C specification, a pair second high speed transmission data terminals (SSTx2), a pair first high speeds receive data terminal (SSRx1), receive data terminal (SSRx2) and 2 second bus terminals (SBU) at a high speed a pair second.

In the embodiment of Fig. 2, this USBType-C connector 12 this to the first high speed transmission data terminal, this to the second high speed transmission data terminal, this to first receiving at a high speed data terminal, this receives data terminal at a high speed to second and this 2 second bus terminal is electrically connected this signal conversion unit 18, respectively to export a DisplayPort signal to this signal conversion unit 18.This signal conversion unit 18 is electrically connected the plurality of second data terminal of this VGA connector 13 simultaneously, and after this DisplayPort signal received by this USBType-C connector 12 is converted to a VGA signal by this signal conversion unit 18, then export this VGA connector 13 to via the plurality of second data terminal.

It is worth mentioning that, this signal conversion unit 18 can have pair of channels 0 difference pin position (Lane0), pair of channels 1 difference pin position (Lane1), pair of channels 2 difference pin position (Lane2), pair of channels 3 difference pin position (Lane3) and difference pin position, a pair accessory channel (AUX), connect the plurality of first data terminal of this USBType-C connector 12 respectively, to receive this DisplayPort signal.Wherein, this switch unit 17 is mainly electrically connected at this 2 second bus terminal and this is between difference pin position, accessory channel, and namely this 2 second bus terminal is electrically connected this to difference pin position, accessory channel respectively by this switch unit 17.

This configurating channel control unit 14 is electrically connected this configurating channel terminal of this USBType-C connector 12.This power control unit 16 is electrically connected this first power supply terminal of this USBType-C connector 12 and this second source terminal of this VGA connector 13.This microprocessing unit 15 is electrically connected this configurating channel control unit 14, this power control unit 16 and this switch unit 17, and connects detecting pin position (Hotplug) of this signal conversion unit 18 simultaneously.

In the utility model, whether this microprocessing unit 15 is mainly connected to an external device (ED) for foundation with this VGA connector 13, carries out correspondence control (being detailed later) to this configurating channel control unit 14, this power control unit 16 and this switch unit 17.

Consulting Fig. 3, is the connection diagram of the first specific embodiment of the present utility model.As shown in Figure 3, this modular converter 1 mainly connects a USBType-C connector female end 21 corresponding on an outside main frame 2 by this USBType-C connector 12, uses and is connected with this main frame 2.On the other hand, this modular converter 1 connects a transmission line 4 by this VGA connector 13, and connects a VGA connector female 31 corresponding on a VGA device 3 by this transmission line 4, uses and is connected with this VGA device 3.Thus, this main frame 2 can connect this VGA device 3 by this modular converter 1, and carries out the transmission of image data with this VGA device 3.

In the present embodiment, this USBType-C connector 12 is for a USBType-C connector male head, and this VGA connector 13 is for a VGA connector female.But in other embodiments, this USBType-C connector 12 also can be a USBType-C connector female end, and this VGA connector 13 also can be a VGA connector male, is not limited.

As mentioned above, even if this main frame 2 only has this USBType-C connector female end 21, and this VGA device 3 only has this VGA connector female 31, this main frame 2 still directly transmits the data of VGA form by this modular converter 1 of the present utility model and this VGA device 3, transferred to by image data by this on this VGA device 3 and play.

In the present embodiment, this main frame 2 mainly can be personal computer, notebook computer, server or intelligent running gear etc., and this VGA device 3 can be TV or screen etc., is not limited.

Consulting Fig. 4, is the circuit diagram of the second specific embodiment of the present utility model.When this modular converter 1 connects this main frame 2, this USBType-C connector 12 can obtain one first electric power from this main frame 2 connected, and exports this power control unit 16 to by this first power supply terminal.In the present embodiment, this power control unit 16 is also electrically connected this configurating channel control unit 14, this microprocessing unit 15 and this signal conversion unit 18, and provides this configurating channel control unit 14, this microprocessing unit 15 and this signal conversion unit 18 to operate required electric power according to this first electric power.

In the present embodiment, this first electric power mainly for 5V.This power control unit 16 is mainly after this first electric power of reception, after this first electric power is converted to one second electric power being applicable to this configurating channel control unit 14, this microprocessing unit 15 and this signal conversion unit 18, reoffer this second electric power give this configurating channel control unit 14, this microprocessing unit 15 and this signal conversion unit 18 using as running needed for electric power.In the present embodiment, this second electric power mainly for 3.3V, but is not limited.

It is worth mentioning that, in an embodiment, this first power supply terminal can be one of them of multiple power supply terminals (VBUS) of this USBType-C connector 12.In another embodiment, this first power supply terminal can be one second configurating channel terminal of this USBType-C connector, and this first electric power is configuration voltage (Vconn) of this second configurating channel terminal output, is not limited.This configuration voltage is the common practise of the technical field of USBType-C interface, and is generally 5V, repeats no more in this.

This microprocessing unit 15 can be detected this detecting pin position of this signal conversion unit 18 after receiving this second electric power that this power control unit 16 provides.Specifically, when this VGA connector 13 is connected to external device (ED), this signal conversion unit 18 can be learnt via this VGA connector 13, and this microprocessing unit 15 can be learnt via this detecting pin position detecting of this signal conversion unit 18 further.

In the embodiment shown in Fig. 4, by this detecting pin position, this microprocessing unit 15 judges that this VGA connector 13 not yet connects any device, therefore do not carry out any control action to this configurating channel control unit 14, this power control unit 16 and this signal conversion unit 18.

It is worth mentioning that, when this VGA connector 13 does not connect any device, this microprocessing unit 15 alternative sends one first and switches signal S1 to this switch unit 17, to switch the state of this switch unit 17 for open circuit.In this switch unit 17 open circuit when, this of this 2 second bus terminal and this signal conversion unit 18 is not connected each other to difference pin position, accessory channel.

Continuing and refer to Fig. 5, is the circuit diagram of the 3rd specific embodiment of the present utility model.When this USBType-C connector 12 is connected to this main frame 2, after this VGA connector 13 is also connected to this VGA device 3, this main frame 2 directly can export DisplayPort data (DPData), and after these DisplayPort data being converted to VGA data (VGAData) via this modular converter 1, then transmit these VGA data to this VGA device 3.It is worth mentioning that, in the utility model, this modular converter 1, mainly by the alternative patterns (Alternatemode) in DisplayPort agreement, asks this main frame 2 to export this DisplayPort data by this USBType-C connector female end 21.

Specifically, be connected to this VGA connector female 31 on this VGA device 3 when this VGA connector 13 after, this VGA connector 13 can trigger this signal conversion unit 18 via a wherein terminal.Then, this microprocessing unit 15 can receive a detection signal S3 by this detecting pin position of this signal conversion unit 18.By this detection signal S3, this microprocessing unit 15 can judge that this VGA connector 13 has been connected to this VGA device 3.

Hold, after this microprocessing unit 15 receives this detection signal S3, one second can be sent and switch signal S2 to this switch unit 17, to switch the state of this switch unit 17 for conducting.Under the situation of this switch unit 17 conducting, this 2 second bus terminal can be electrically connected this signal conversion unit 18 respectively by this switch unit 17 this to difference pin position, accessory channel.

Meanwhile, this microprocessing unit 15 sends a control signal S4 to this configurating channel control unit 14 according to this detection signal S3, to control this configurating channel control unit 14 to these DisplayPort data of this USBType-C connector 12 request transmission.More specifically, this allocating channel control unit 14 produces a corresponding request signals S5 by this control signal S4, and transmit this request signals S5 to this main frame 2 by this configurating channel terminal of this USBType-C connector 12.By this, this main frame 2 is asked to export these DisplayPort data this USBType-C connector 12 to this modular converter 1.

More specifically, this main frame 2 is these configurating channel terminals connecting this USBType-C connector 12 by another configurating channel terminal of this USBType-C connector female end 21, to receive this request signals S5.By this request signals S5, what a controller on this main frame 2 (figure does not indicate) can learn that this USBType-C connector female end 21 rear end connects the is device of support DisplayPort form (namely, this modular converter 1), a Graphics Processing Unit (figure does not indicate) that thus can control on it exports this DisplayPort data by this USBType-C connector female end 21.

Wherein, these DisplayPort data are mainly sent to this signal conversion unit 18 via the plurality of first data terminal of this USBType-C connector 12.After these DisplayPort data are converted to these VGA data of VGA form via this signal conversion unit 18, then transfer to this VGA connector 13, and export this VGA device 3 to via this VGA connector 13.

As shown in Figure 5, in the present embodiment, these DisplayPort data formed primarily of a pair channel 0 differential signal D1, a pair channel 1 differential signal D2, a pair channel 2 differential signal D3, a pair channel 3 differential signal D4 and a pair attached channels differential signal D5.Wherein, this to attached channels differential signal D5 be sent to this signal conversion unit 18 by this 2 second bus terminal via this switch unit 17 of conducting this to difference pin position, accessory channel.But, above are only a wherein specific embodiment of the present utility model, not as limit.

In addition, after this microprocessing unit 15 receives this detection signal S3, also can transmit one supplies electric signal S6 to this power control unit 16, exports this first electric power (for 5V in the present embodiment) this second source terminal to this VGA connector 13 to control this power control unit 16.

More specifically, after this modular converter 1 is connected to this main frame 2 and this VGA device 3, this modular converter 1 can perform following action:

1. this signal conversion unit 18 learns connection status by this VGA connector 13;

2. this microprocessing unit 15 receives this detection signal S3 by this detecting pin position of this signal conversion unit 18, and produces according to this detection signal S3 and send this second switching signal S2, this control signal S4 and this confession electric signal S6;

3. the state that this switch unit 17 switches this switch unit 17 according to this second switching signal S2 is conducting;

4. this configurating channel control unit 14 produces this request signals S5 according to this control signal S4, and is sent to this main frame 2 via this configurating channel terminal of this USBType-C connector 12;

5. this USBType-C connector 12 receives this DisplayPort data by this main frame 2, and is sent to this signal conversion unit 18 by the plurality of first data terminal;

6. these DisplayPort data are converted to this VGA data by this signal conversion unit 18, and are sent to this VGA connector 13 by the plurality of second data terminal; And

7. this first electric power received by this first power supply terminal is exported to this second source terminal of this VGA connector 13 by this power control unit according to this confession electric signal S6.

In previous embodiment, this modular converter 1 is mainly for the kenel of an adapter (Dongle).But in other embodiments, this modular converter 1 can also other kenels realize.

Referring to Fig. 6, is the three-dimensional combination figure of the 4th specific embodiment of the present utility model.Fig. 6 discloses another USBType-C modular converter 1 ' (below referred to as this modular converter 1 '), and be with the difference of this modular converter 1 in previous embodiment, this modular converter 1 ' also comprises multiple conducting wires 19.

As shown in Figure 6, this modular converter 1 ' is mainly the kenel of a transmission line is example.Specifically, this USBType-C connector 12 of this modular converter 1 ', this configurating channel control unit 14, this microprocessing unit 15, this power control unit 16, this switch unit 17 and this signal conversion unit 18 are all electrically connected at this circuit board 11, and this shell 10 this USBType-C connector 12 coated, this configurating channel control unit 14, this microprocessing unit 15, this power control unit 16, this switch unit 17, this signal conversion unit 18 and this circuit board 10.

One end of this multiple conducting wires 19 is electrically connected this circuit board respectively, and the other end is electrically connected this VGA connector 13 respectively.By this, this VGA connector 13 is electrically connected this signal conversion unit 18 and this power control unit 16 by this multiple conducting wires 19.

As mentioned above, this modular converter 1 ' of the present embodiment is mainly the kenel of a transmission line, and this VGA connector 13 can be a VGA connector male.In the present embodiment, user can directly use this modular converter 1 ' to connect this main frame 2 and this VGA device 3, and does not need to use this transmission line 4 shown in Fig. 3.Thus, can further improve the convenience in use.

The above, be only preferred embodiment of the present utility model, and be not used to limit protection range of the present utility model.

Claims (10)

1. a USBType-C modular converter, is characterized in that, comprising:

One USBType-C connector, for connecting a main frame and having multiple first data terminal and a configurating channel terminal;

One VGA connector, for connecting a VGA device and having multiple second data terminal;

One configurating channel control unit, is electrically connected this configurating channel terminal, exports DisplayPort data by this USBType-C connector of a request signals request via the plurality of first data terminal;

One signal conversion unit, is electrically connected the plurality of first data terminal and the plurality of second data terminal respectively, and these DisplayPort data of the plurality of first data terminal transmission are converted to VGA data and export via the plurality of second data terminal; And

One microprocessing unit, be electrically connected a detecting pin position of this configurating channel control unit and this signal conversion unit, the detection signal according to the transmission of this detecting pin position controls this configurating channel control unit and sends this request signals.

2. USBType-C modular converter according to claim 1, it is characterized in that, more comprise a power control unit, be electrically connected the first power supply terminal of this USBType-C connector and a second source terminal of this VGA connector, export one first electric power that this first power supply terminal transmits to this second source terminal by one for electric signal.

3. USBType-C modular converter according to claim 2, is characterized in that, this first power supply terminal is one second configurating channel terminal of this USBType-C connector, and this first electric power is the configuration voltage that this second configurating channel terminal exports.

4. USBType-C modular converter according to claim 3, it is characterized in that, this power control unit is also electrically connected this configurating channel control unit, this microprocessing unit and this signal conversion unit, this first electric power is converted to one second electric power to provide the electric power needed for the running of this configurating channel control unit, this microprocessing unit and this signal conversion unit.

5. USBType-C modular converter according to claim 4, is characterized in that, this first electric power is 5V, and this second electric power is 3.3V.

6. USBType-C modular converter according to claim 3, it is characterized in that, the plurality of first data terminal comprises a pair first high speed transmission data terminals, a pair second high speed transmission data terminals, a pair first high speeds and receives data terminal, receives data terminal and 2 second bus terminals at a high speed a pair second.

7. USBType-C modular converter according to claim 6, it is characterized in that, more comprise a switch unit, be connected between this 2 second bus terminal and one group of attached channels difference pin position of this signal conversion unit, and this switch unit is electrically connected this microprocessing unit, receives one by this microprocessing unit and switch signal to switch the state of this switch unit for conducting or open circuit.

8. USBType-C modular converter according to claim 3, it is characterized in that, more comprise a circuit board and a shell, this USBType-C connector, this VGA connector, this configurating channel control unit, this microprocessing unit, this power control unit and this signal conversion unit are electrically connected at this circuit board, and this shell this USBType-C connector coated, this VGA connector, this configurating channel control unit, this microprocessing unit, this power control unit, this signal conversion unit and this circuit board.

9. USBType-C modular converter according to claim 3, it is characterized in that, more comprise a circuit board, one shell and multiple wire, this USBType-C connector, this configurating channel control unit, this microprocessing unit, this power control unit and this signal conversion unit are electrically connected at this circuit board, this shell this USBType-C connector coated, this configurating channel control unit, this microprocessing unit, this power control unit, this signal conversion unit and this circuit board, one end of the plurality of wire is electrically connected this circuit board respectively, the other end is electrically connected this VGA connector respectively.

10. according to the USBType-C modular converter described in claim 1 to 9, it is characterized in that, this USBType-C connector is a USBType-C connector male head, and this VGA connector is a VGA connector male or a VGA connector female.