CN204155270U - There is the computer architecture of general-purpose interface - Google Patents

Abstract

The utility model provides a kind of computer architecture with general-purpose interface, and this computer architecture mainly comprises mainboard, and the chipset be electrically connected on mainboard and two or more USB C-Type connector female end.Mainboard connects interconnecting module and circumscribing module by two or more USB C-Type connector female end, to connect other electronic equipments via interconnecting module, and performs corresponding function by circumscribing module.The utility model, by being general USB C-Type interface by whole for the interface on mainboard unified planning, to make the assembling of computer entirety more easy with expansion, and has more elasticity.

Description

There is the computer architecture of general-purpose interface

Technical field

The utility model relates to computer architecture, particularly relates to the computer architecture with general-purpose interface.

Background technology

In order to connect outside extension facility, existing computer main board is provided with many attachment unit interface miscellaneous at defeated in/out end, such as USB (universal serial bus) (Universal Serial Bus, USB) connector, HDMI (High Definition Multimedia Interface) (High Definition Multimedia Interface, HDMI) interface such as connector, sound source socket (Audio Jack), supply socket (DC Jack), quite complicated.

In addition, in order to maintain the running of mainboard itself, the body of mainboard is also provided with many parts, such as resistance, electric capacity, inductance and various process chip etc.The each own different pins definition of these parts, and be connected on this mainboard by different interfaces.

As mentioned above, various parts on mainboard, connector and need external extension facility (as display, keyboard, mouse, network card etc.) the interface that uses not identical, therefore the product that equipment vendors need be different for different Interface design, quite bothers.For example, external display may adopt HDMI, display interface device (DisplayPort) interface, image interface (Video Graphic Adapter, VGA) interface or digital visual interface (Digital Visual Interface, DVI) interface, and keyboard may adopt USB interface or PS/2 interface etc.

In addition, various parts as above and connector have been welded on mainboard all, and user cannot self-changeable, also cannot remove unwanted assembly.Further, general mainboard manufacturer does not provide customized service yet.In other words, if user has needs, complete mainboard or the suit computer of buying manufacturers design production can only be forced to, bought mainboard or computer so cannot be made to meet the demand of oneself completely.Can find out thus, existing computer architecture quite lacks flexibility, and is unfavorable for that user arranges in pairs or groups voluntarily, assembles.

Utility model content

In view of this, fundamental purpose of the present utility model is to provide a kind of computer architecture with general-purpose interface, by being general USB C-Type interface by whole for the interface on mainboard unified planning, to make the assembling of computer entirety more easy with expansion, and have more elasticity.

For achieving the above object, the utility model provides a kind of computer architecture with general-purpose interface, and this computer architecture comprises:

Mainboard;

Chipset (Chipset), is electrically connected on described mainboard;

Two or more USB C-Type connector female end, is arranged at the defeated in/out end of described mainboard, and is electrically connected described chipset by described mainboard; And

Interconnecting module, connect one of them of described two or more USB C-Type connector female end, the first signal that the extension facility that this interconnecting module receives outside transmits, data or instruction also, after being converted to the form meeting USBC-Type interface, are sent to described mainboard by the described USB C-Type connector female end connected.

As mentioned above, wherein said interconnecting module comprises a USB C-Type connector male head, first connector female end and be electrically connected the first conversion IC of a USB C-Type connector male head and this first connector female end, a described USB C-Type connector male head connects one of them of described two or more USB C-Type connector female end, described first connector female end connects described extension facility to receive described first signal, data or instruction, described first conversion IC is by described first signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via a described USB C-Type connector male head.

As mentioned above, wherein this computer architecture also comprises circumscribing module, this circumscribing module connects one of them of described two or more USB C-Type connector female end, and the secondary signal that inside produces by described circumscribing module, data or instruction transformation are the form meeting USB C-Type interface, then be sent to described mainboard by the described USB C-Type connector female end connected.

As mentioned above, wherein said circumscribing module comprises the 2nd USB C-Type connector male head, processing IC and be electrically connected the second conversion IC of the 2nd USB C-Type connector male head and this processing IC, described 2nd USB C-Type connector male head connects one of them of described two or more USB C-Type connector female end, described processing IC performs corresponding function and produces described secondary signal, data or instruction, described second conversion IC is by described secondary signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via described 2nd USB C-Type connector male head.

As mentioned above, wherein said mainboard remains with the general setting area of two or more, the general setting area of this two or more is respectively arranged with dual inline type (the Dual In-linePackage that two or more meets USB C-Type interface, DIP) jack or surface mount technology (Surface Mount Technology, SMT) contact is encapsulated.

As mentioned above, wherein this computer architecture comprises built-in modules, this built-in modules is arranged at one of them of the general setting area of described two or more, and this built-in modules receives described first signal of described extension facility transmission, data or instruction after being converted to the form meeting USB C-Type interface, be sent on described mainboard by the described general setting area connected.

As mentioned above, wherein said built-in modules comprises two or more first splicing ear, second connector female end and be electrically connected the 3rd conversion IC of this two or more first splicing ear and this second connector female end, described two or more first splicing ear meets USB C-Type interface and connects one of them of the general setting area of described two or more, described second connector female end connects described extension facility to receive described first signal, data or instruction, described 3rd conversion IC is by described first signal, data or instruction transformation are the form meeting USBC-Type interface, described mainboard is transferred to again via described two or more first splicing ear.

As mentioned above, wherein this computer architecture also comprises functional module, this functional module is arranged at one of them of the general setting area of described two or more, and the 3rd signal that inside produces by this functional module, data or instruction also, after being converted to the form meeting USB C-Type interface, are sent to described mainboard by the described general setting area connected.

As mentioned above, wherein said functional module comprises two or more second splicing ear, functional module and be electrically connected the 4th conversion IC of this two or more second splicing ear and this functional module, described two or more second splicing ear meets USB C-Type interface and connects one of them of the general setting area of described two or more, described functional module produces described 3rd signal, data or instruction, described 4th conversion IC is by described 3rd signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via described two or more second splicing ear.

As mentioned above, wherein said first connector female end and described second connector female end are respectively USB (universal serial bus) (Universal Serial Bus, USB) 2.0 connector female ends, USB 3.0 connector female end, USB 3.1 connector female end, HDMI (High Definition Multimedia Interface) (High Definition MultimediaInterface, HDMI) connector female end, display interface device (DisplayPort) connector female end, S/PDIF connector female end, external sequence advanced technology configuration (External Serial Advanced TechnologyAttachment, eSATA) connector female end, live wire (Fire wire, or be called IEEE 1394) connector female end, sound source socket (Audio Jack) female, NGFF (Next-Generation Form Factor) connector female end or supply socket (DC Jack) female, described processing IC is Wireless Fidelity (WirelessFidelity, Wi-Fi) transmission chip, bluetooth (Bluetooth) transmit chip, radio frequency (Radio Frequency, RF) transmission chip, near-field communication (Near Field Communication, NFC) transmit chip, picture processing chip or audio effect processing chip, described functional module is resistance, electric capacity, inductance, transistor, surging protection assembly, high-speed cache (Cache memory), complementary metal semiconductor (ComplementaryMetal-Oxide Semiconductor, CMOS) battery or control chip, the quantity of described two or more first splicing ear and described two or more second splicing ear is respectively 24.

Technology effect that the utility model can reach compared to prior art is, except the mainboard of computer and chipset (Chipset), other various assemblies, control integration circuit (Integrated Circuit, IC) and expanding device can by modularization, and unification is connected with this mainboard with USB C-Type interface, so as to forming complete host computer.Thus, more easy in the assembling and expanding program of host computer.Further, for the manufacturer of these assemblies, control IC and expanding device, also more simple on design and production.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the mainboard of the first embodiment of the present utility model;

Fig. 2 is the external schematic diagram of module of the first embodiment of the present utility model;

Fig. 3 is the built-in schematic diagram of module of the first embodiment of the present utility model;

Fig. 4 is the computer architecture schematic diagram of the first embodiment of the present utility model.

Description of reference numerals

1 mainboard 11 chipset

12 general setting area 2 USB C-Type connector female ends

3 interconnecting module 31 first circuit boards

32 first conversion IC 33 the one USB C-Type connector male heads

34 first connector female end 4 transmission lines

5 circumscribing module 51 second circuit boards

52 second conversion IC 53 the 2nd USB C-Type connector male heads

54 processing IC 6 built-in modules

61 tertiary circuit plate 62 the 3rd conversion IC

63 first splicing ear 64 second connector female ends

7 functional modules 71 the 4th circuit board

72 the 4th conversion IC 73 second splicing ears

74 functional module 8 host computers

Embodiment

Relevant detailed description of the present utility model and technology contents, be described as follows cooperation accompanying drawing, but appended accompanying drawing is only as illustrative purposes, not for limiting to the utility model.

Referring to Fig. 1, is the schematic diagram of the mainboard of the first embodiment of the present utility model.The utility model mainly discloses a kind of computer architecture with general-purpose interface, as shown in Figure 1, this computer architecture mainly comprises mainboard 1, chipset (Chipset) 11 and two or more USB (universal serial bus) (Universal Serial Bus, USB) C-Type connector female end 2.This chipset 11 is electrically connected on this mainboard 1 respectively with this two or more USB C-Type connector female end 2, and this two or more USB C-Type connector female end 2 is electrically connected with this chipset 11 respectively by this mainboard 1.It is worth mentioning that, the general-purpose interface of this case indication, be USB C-Type interface (or be called USB3.1 Type-c, be not limited).

As shown in Figure 1, in the present embodiment, mainly this two or more USB C-Type connector female end 2 is arranged at defeated in/out end (the I/O end of this mainboard 1, generally be also called shore line), so as to, make unified enlargement module and the extension facility being connected outside by USB C-Type interface of this mainboard 1.In other words, to be connected with this mainboard 1, then above-mentioned enlargement module is same with extension facility need possess USB C-Type interface, in general, is USB C-Type connector male head.

Please refer to Fig. 2, it is the external schematic diagram of module of the first embodiment of the present utility model.As shown in Figure 2, this computer architecture of the present utility model comprises interconnecting module 3 and circumscribing module 5 further, and wherein this interconnecting module 3 is all connected with this mainboard 1 by USB C-Type interface with this circumscribing module 5.

This interconnecting module 3 mainly comprises first circuit board 31, and the first conversion IC 32, USB C-Type connector male head 33 and first connector female end 34 that are electrically connected on this first circuit board 31, wherein this first conversion IC 32 is electrically connected USB C-Type connector male head 33 and first connector female end 34.This interconnecting module 3 by one of them of this two or more USB C-Type connector female end 2 on this mainboard 1 of USB C-Type connector male head 33 grafting, to connect this mainboard 1.

In the embodiment of fig. 2, this first connector female end 34 is for USB2.0 connector female end, but this first connector female end 34 can be also such as USB3.0 connector female end, USB3.1 connector female end, HDMI (High Definition Multimedia Interface) (High Definition Multimedia Interface, HDMI) connector female end, display interface device (DisplayPort) connector female end, S/PDIF connector female end, external series advanced technology configuration (External Serial Advanced Technology Attachment, eSATA) connector female end, live wire (Fire wire, or be called IEEE 1394) connector female end, sound source socket (Audio Jack) female, NGFF (Next-Generation Form Factor) connector female end or supply socket (DC Jack) female etc., but be not limited.

This interconnecting module 3 connects transmission line 4 by this first connector female end 34, the data and instruction that the electronic equipment (not shown) connected so as to receiving this transmission line 4 other end is transmitted.But, if this electronic equipment has corresponding connector male head, then this electronic equipment also can this first connector female end 34 directly on this interconnecting module 3 of grafting with signal transmission, data or instruction, so as to saving the use of this transmission line 4.The electronic equipment of indication is extension facility mentioned above herein, such as, can be keyboard, mouse, display, external hard drive etc., but be not limited.

This first connector female end 34 is sent to this first conversion IC 32 and carries out processing and format conversion after receiving this signal of this electronic equipment, data or instruction.This signal, data or instruction transformation are after the form meeting USB C-Type interface by this first conversion IC 32, are resent to a USB C-Type connector male head 33.So as to, this signal that this electronic installation is transmitted by a USB C-Type connector male head 33 by this interconnecting module 3, data or instruction are sent to the enterprising row relax of this mainboard 1.More specifically, this USB C-Type connector female end 2 that the signal after this conversion, data or instruction connect via this interconnecting module 3 transfers to this mainboard 1.

Relatively, this interconnecting module 3 can receive signal that this mainboard 1 exports, data or instruction via a USB C-Type connector male head 33, and after this first conversion IC 32 carries out process and format conversion, then export this electronic equipment to by this first connector female end 34.

This circumscribing module 5 is the enlargement module of above indication, mainly comprise second circuit board 51, and the second conversion IC 52, the 2nd USB C-Type connector male head 53 and the processing IC 54 that are electrically connected on this second circuit board 51, wherein this second conversion IC 52 is electrically connected the 2nd USB C-Type connector male head 53 and processing IC 54.This circumscribing module 5 by one of them of this two or more USB C-Type connector female end 2 on the 2nd this mainboard 1 of USB C-Type connector male head 53 grafting, to connect this mainboard 1.

In the present embodiment, this processing IC 54 can be the various chip with difference in functionality, such as Wireless Fidelity (Wireless Fidelity, Wi-Fi) transmission chip, bluetooth (Bluetooth) transmit chip, radio frequency (RadioFrequency, RF) chip, near-field communication (Near Field Communication is transmitted, NFC) transmit chip, picture processing chip, audio effect processing chip etc., but be not limited.

The signal that this processing IC 54 n-back test produces by this circumscribing module 5, data or instruction are sent to this second conversion IC 52 and carry out processing and format conversion.This signal, data or instruction transformation are the form meeting USB C-Type interface by this second conversion IC 52, are resent to the 2nd USB C-Type connector male head 53.So as to, this signal that this processing IC 54 is produced by the 2nd USB C-Type connector male head 53 by this circumscribing module 5, data or instruction are sent to the enterprising row relax of this mainboard 1.More specifically, this USB C-Type connector female end 2 that the signal after this conversion, data or instruction connect via this circumscribing module 5 transfers to this mainboard 1.

Relatively, this circumscribing module 5 can receive signal that this mainboard 1 exports, data or instruction via the 2nd USB C-Type connector male head 53, and after this second conversion IC 52 carries out process and format conversion, be resent to this processing IC 54, perform further process for this processing IC 54.

By the use of this interconnecting module 3 with this circumscribing module 5, this mainboard 1 of the present utility model only need configure this USB C-Type connector female end 2 plural, various enlargement module and extension facility can be connected, to reach various required function.Whereby, user can after have purchased this mainboard 1, choose this interconnecting module 3 and this circumscribing module 5 of possessing required function again, and be plugged to this two or more USB C-Type connector female end 2 on this mainboard 1, custom-made one is specific to the host computer of oneself whereby.

Consulting Fig. 3, is the built-in schematic diagram of module of the first embodiment of the present utility model.In the present embodiment, this mainboard 1 also can retain plural general setting area 12, and the general setting area 12 of this two or more is electrically connected to this chipset 11 respectively by this mainboard 1.The general setting area 12 of this two or more is respectively arranged with dual inline type (the Dual In-line Package that two or more corresponds to USB C-Type interface, DIP) jack or surface mount technology (Surface Mount Technology, SMT) contact is encapsulated.More specifically, respectively this general setting area 12 is arranged respectively 24 DIP and encapsulate jack or SMT contact, there is with direct grafting/welding the module of USB C-Type interface.

As shown in Figure 3, this computer architecture of the present utility model also can comprise built-in modules 6.This built-in modules 6 mainly comprises tertiary circuit plate 61, and the 3rd conversion IC 62, two or more first splicing ear 63 and the second connector female end 64 that are electrically connected on this tertiary circuit plate 61, wherein the 3rd conversion IC 62 is electrically connected this two or more first splicing ear 63 and this second connector female end 64.The quantity of this two or more first splicing ear 63 is 24, and the position of each terminal two or more DIP corresponded to respectively on this general setting area 12 encapsulates the position of jack or SMT contact.So as to, this built-in modules 6 by this two or more first splicing ear 63 grafting/be welded on this general setting area 12, to be electrically connected with this mainboard 1, and be electrically connected by this mainboard 1 with this chipset 11.

In the embodiments of figure 3, this second connector female end 64 is for HDMI connector female, but this second connector female end 64 can be also such as USB2.0 connector female end, USB3.0 connector female end, USB3.1 connector female end, DisplayPort connector female end, S/PDIF connector female end, eSATA connector female end, IEEE 1394 connector female end, Audio Jack female, NGFF connector female end, DC Jack female etc., but be not limited.

This built-in modules 6 connects this above-mentioned electronic equipment by this second connector female end 64, to receive signal that this electronic equipment transmits, data or instruction.After this second connector female end 64 receives this signal, data or instruction, this signal, data and instruction are sent to the 3rd conversion IC 62 and carry out processing and format conversion.This signal, data or instruction transformation are after the form meeting USB C-Type interface by the 3rd conversion IC 62, then transfer to the enterprising row relax of this mainboard 1 via this two or more first splicing ear 63.More specifically, this general setting area 12 that the signal after this conversion, data or instruction connect via this built-in modules 6 transfers to this mainboard 1.

Relatively, this built-in modules 6 can receive signal that this mainboard 1 exports, data or instruction via this two or more first splicing ear 63, and this signal, data or instruction are after the process and format conversion of the 3rd conversion IC 62, then export this electronic equipment to by this second connector female end 64.

As shown in Figure 3, this computer architecture of the present utility model also can comprise functional module 7.This functional module 7 mainly comprises the 4th circuit board 71, and the 4th conversion IC 72, two or more second splicing ear 73 and the two or more functional module 74 that are electrically connected on the 4th circuit board 71, wherein the 4th conversion IC 72 is electrically connected this two or more second splicing ear 73 and two or more functional module 74.The quantity of this two or more second splicing ear 73 is 24, and the position of each terminal two or more DIP corresponded to respectively on this general setting area 12 encapsulates the position of jack or SMT contact.So as to, this functional module 7 by this two or more second splicing ear 73 grafting/be welded on this general setting area 12, to be electrically connected with this mainboard 1, and be electrically connected by this mainboard 1 with this chipset 11.

This two or more functional module 74 is for two or more resistance in figure 3, but in the present embodiment, this two or more functional module 74 is mainly the required various components arranged on this mainboard 1, such as resistance is (as carbon resister, Chip-R, thermistor etc.), electric capacity is (as alminium electrolytic condenser, patch capacitor, solid tantalum electric capacity etc.), inductance, transistor, surging protection assembly, high-speed cache (Cache memory), complementary metal semiconductor (Complementary Metal-Oxide Semiconductor, CMOS) battery, various control chip is (as power supply control chip, frequency produces chip) etc., be not limited.

The signal that this functional module 74 produces by this functional module 7, data or instruction are sent to the 4th conversion IC 72 and carry out processing and format conversion.This signal, data or instruction transformation are the form meeting USB C-Type interface by the 4th conversion IC 72, and transfer to the enterprising row relax of this mainboard 1 via this two or more second splicing ear 73.So as to, this signal that this functional module 74 is produced by this two or more second splicing ear 73 by this functional module 7, data or instruction are sent to the enterprising row relax of this mainboard 1.More specifically, this general setting area 12 that the signal after this conversion, data or instruction connect via this functional module 7 transfers to this mainboard 1.

Relatively, this functional module 7 can receive signal that this mainboard 1 exports, data or instruction via this two or more second splicing ear 73, and after the 4th conversion IC 72 carries out process and format conversion, be resent to this functional module 74, perform further process for this functional module 74.

Consult Fig. 4, be the computer architecture schematic diagram of the first embodiment of the present utility model simultaneously.As shown in Figure 4, user after this mainboard 1 of purchase, then can choose this built-in modules 6 of two or more and this functional module 7 of possessing required function.Then, by oneself or special messenger this built-in modules 6 chosen please be arranged on the general setting area 12 of this two or more on this mainboard 1 with this functional module 7, custom-made one is specific to the host computer 8 of oneself whereby.Pin position due to the general setting area 12 of this two or more all corresponds to the form of USBC-Type, and this built-in modules 6 and the terminal of this functional module 7 also correspond to the form of USB C-Type, therefore, this built-in modules all 6 of choosing of user and this functional module 7 do not have the problem that this mainboard 1 cannot be compatible.

By computer architecture of the present utility model, can avoid that this host computer 8 after having assembled has the unwanted assembly of user, and wasting problem.In addition, output/the incoming interface adopted due to all component, enlargement module and extension facility is all USB C-Type interface, therefore when user whenever necessary, can by directly increasing, removing, change the mode of this built-in modules 6 or this functional module 7 that this mainboard 1 is arranged newly to upgrade this host computer 8, or by directly increasing, removing, change this circumscribing module 5 or the mode of external electronic device that this two or more USB C-Type connector female end 2 connects newly to upgrade this host computer 8, quite there is elasticity.Thus, complete mainboard or suit computer that user now can only be forced to buy manufacturer's release can be changed, and lack the situation of customized service.

The above, be only illustrating of preferred embodiment of the present utility model, and be not used to limit to protection domain of the present utility model, and other any equivalent transformation all should belong to the right of the application.

Claims (10)

1. have a computer architecture for general-purpose interface, it is characterized in that, this computer architecture comprises:

Mainboard;

Chipset, is electrically connected on described mainboard;

Two or more USB C-Type connector female end, is arranged at the defeated in/out end of described mainboard, and is electrically connected described chipset by described mainboard; And

Interconnecting module, connect one of them of described two or more USB C-Type connector female end, the first signal that the extension facility that this interconnecting module receives outside transmits, data or instruction also, after being converted to the form meeting USBC-Type interface, are sent to described mainboard by the described USB C-Type connector female end connected.

2. the computer architecture with general-purpose interface according to claim 1, it is characterized in that, described interconnecting module comprises a USB C-Type connector male head, first connector female end and be electrically connected the first conversion IC of a USB C-Type connector male head and this first connector female end, a described USBC-Type connector male head connects one of them of described two or more USB C-Type connector female end, described first connector female end connects described extension facility to receive described first signal, data or instruction, described first conversion IC is by described first signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via a described USB C-Type connector male head.

3. the computer architecture with general-purpose interface according to claim 2, it is characterized in that, this computer architecture also comprises circumscribing module, this circumscribing module connects one of them of described two or more USB C-Type connector female end, and the secondary signal that inside produces by this circumscribing module, data or instruction transformation are the form meeting USB C-Type interface, then be sent to described mainboard by the described USB C-Type connector female end connected.

4. the computer architecture with general-purpose interface according to claim 3, it is characterized in that, described circumscribing module comprises the 2nd USB C-Type connector male head, processing IC and be electrically connected the second conversion IC of the 2nd USBC-Type connector male head and this processing IC, described 2nd USB C-Type connector male head connects one of them of described two or more USB C-Type connector female end, described processing IC performs corresponding function and produces described secondary signal, data or instruction, described second conversion IC is by described secondary signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via described 2nd USB C-Type connector male head.

5. the computer architecture with general-purpose interface according to claim 4, it is characterized in that, described mainboard remains with the general setting area of two or more, the general setting area of this two or more is respectively arranged with dual-in-line package jack or surface mount technology contact that two or more meets USB C-Type interface.

6. the computer architecture with general-purpose interface according to claim 5, it is characterized in that, this computer architecture also comprises built-in modules, this built-in modules is arranged at one of them of the general setting area of described two or more, and this built-in modules receives described first signal of described extension facility transmission, data or instruction after being converted to the form meeting USB C-Type interface, be sent on described mainboard by the described general setting area connected.

7. the computer architecture with general-purpose interface according to claim 6, it is characterized in that, described built-in modules comprises two or more first splicing ear, second connector female end and be electrically connected the 3rd conversion IC of this two or more first splicing ear and this second connector female end, described two or more first splicing ear meets USB C-Type interface and connects one of them of the general setting area of described two or more, described second connector female end connects described extension facility to receive described first signal, data or instruction, described 3rd conversion IC is by described first signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via described two or more first splicing ear.

8. the computer architecture with general-purpose interface according to claim 7, it is characterized in that, this computer architecture also comprises functional module, this functional module is arranged at one of them of the general setting area of described two or more, and the 3rd signal that inside produces by this functional module, data or instruction also, after being converted to the form meeting USB C-Type interface, are sent to described mainboard by the described general setting area connected.

9. the computer architecture with general-purpose interface according to claim 8, it is characterized in that, described functional module comprises two or more second splicing ear, functional module and be electrically connected the 4th conversion IC of this two or more second splicing ear and this functional module, described two or more second splicing ear meets USB C-Type interface and connects one of them of the general setting area of described two or more, described functional module produces described 3rd signal, data or instruction, described 4th conversion IC is by described 3rd signal, data or instruction transformation are the form meeting USB C-Type interface, described mainboard is transferred to again via described two or more second splicing ear.

10. the computer architecture with general-purpose interface according to claim 9, it is characterized in that, described first connector female end and described second connector female end are respectively USB 2.0 connector female end, USB 3.0 connector female end, USB 3.1 connector female end, high definition multimedia interface connector female, display interface device connector female end, S/PDIF connector female end, external series advanced technology configure connector female end, live wire connector female end, sound source socket female, NGFF connector female end or supply socket female; Described processing IC is Wireless Fidelity transmission chip, Bluetooth transmission chip, radio frequency transmission chip, near-field communication transmission chip, picture processing chip or audio effect processing chip; Described functional module is resistance, electric capacity, inductance, transistor, surging protection assembly, high-speed cache, complementary metal semi-conductor cell or control chip; The quantity of described two or more first splicing ear and described two or more second splicing ear is respectively 24.