CN101556487A - Server - Google Patents

Abstract

The invention discloses a server which comprises a main board, a back board and a bridging board. A plurality of first conducting wires and a first slot are arranged on the main board, wherein the first conducting wires are used for transmitting a plurality of power supply signals and a plurality of control signals. A second slot is arranged on the back board. The bridging board is provided with a first golden finger, a second golden finger and a plurality of second conducting wires electrically connected with the first golden finger and the second golden finger which can be respectively arranged in the first slot and the second slot, thereby the control signals and the power supply signals from the main board can be transmitted to the back board by the second conducting wires on the bridging board.

Description

Server

Technical field

The invention relates to a kind of server, and particularly relevant for a kind of server that reduces the configuration of transmission line.

Background technology

Present server widely each enterprise uses, the scope of development combines the application of world-wide web and telecommunications industry, also be deep in common people's life, for example use of finance, finance and economics, the Internet bank, network credit card etc., these all must just can accomplish the highly confidential degree that is difficult for being cracked of data against the server powerful operation capacity.The meaning of server is meant in LAN, world-wide web or other network, and the information of all kinds of processing is provided, and allows through network connections other terminating machine to server, can promptly obtain the data or the result of needs, exports to the object that needs.

Fig. 1 is the system architecture diagram of traditional server.With reference to Fig. 1, traditional server 100 comprises mainboard (mother board) 110, header board (front plane) 120, backboard (back plane) 130, a plurality of fan 141～144, System on Chip/SoC 150 and a plurality of connector 161～165.Wherein, connector 161～165 for example is power supply control linkage device, SATA connector, IDE connector, floppy disk connector and USB connector etc.Connector 161～165 can see through transmission line 171～175 and be electrical connected with header board 120, backboard 130 respectively.By this, mainboard 110 can see through transmission line 171～175 and control computer hardware on header board 120 and the backboard 130.On the other hand, System on Chip/SoC 150 is in order to produce the signal that connector 161～165 is transmitted.Fan 141～144 is then in order to get rid of the used heat of traditional server 100.

Yet, because traditional server 100 must expend a large amount of transmission line 171～175, connector 161～165 and header board 120, backboard 130 are electrical connected, so the hardware space of traditional server 100 often is covered with a large amount of transmission lines, and then caused its internal system succinctly attractive in appearance inadequately.Moreover a large amount of transmission lines 171～175 has not only reduced the cooling mechanism of traditional server 100, has also reduced the system stability of traditional server 100.

Summary of the invention

The invention provides a kind of server, in order to reduce the obstruction of transmission line to the cooling mechanism of system.

The invention provides a kind of server, more succinctly attractive in appearance in order to cause the hardware of server space.

The present invention proposes a kind of server, comprises a mainboard, a backboard and a bridging board.Mainboard is provided with many first leads and one first slot.Wherein, those first leads are electrically connected to first slot, and in order to transmit a plurality of power supply signals and a plurality of control signal.In addition, those control signals meet one of them of a plurality of data transmission interfaces respectively.

On the other hand, backboard is provided with one second slot.Bridging board has one first golden finger and one second golden finger, and is provided with many second leads that electrically connect first golden finger and second golden finger.Wherein, first golden finger and second golden finger can be inserted first slot and second slot respectively, are sent to backboard to cause those control signals and those power supply signals from mainboard through those second leads.

In one embodiment of this invention, those above-mentioned data transmission interfaces comprise a USB (universal serial bus) (Universal Serial Bus, USB) interface, a SATA interface, a floppy drive interface and are integrated and are driven electronics (Integrated Drive Electronics, IDE) interface.

In one embodiment of this invention, server also comprises a System on Chip/SoC and a plurality of expansion slot.Wherein, System on Chip/SoC and those expansion slots are configured on the mainboard.In addition, System on Chip/SoC is in order to produce those control signals of part from mainboard.Those expansion slots are in order to inserting a plurality of expansion boards, and described those expansion boards also can produce those control signals of part from mainboard.

The present invention proposes a kind of server in addition, comprises a header board, a backboard, a mainboard, one first bridging board and one second bridging board.Wherein, header board and backboard are respectively arranged with one first slot and one second slot.Mainboard then is provided with many first leads, many second leads, one the 3rd slot and one the 4th slots.

Wherein, those first leads are electrically connected to the 3rd slot, and a plurality of first control signals in order to transmit a plurality of power supply signals and to meet a particular data transmission interface.In addition, those second leads are electrically connected to the 4th slot, and meet a plurality of second control signals of a plurality of data transmission interfaces in order to transmission.

First bridging board has one first golden finger and one second golden finger, and is provided with many privates that electrically connect first golden finger and second golden finger.Wherein, first golden finger and second golden finger can be inserted first slot and the 3rd slot respectively, are sent to header board to cause those first control signals and those power supply signals from mainboard through those privates.

Moreover second bridging board has one the 3rd golden finger and one the 4th golden finger, and is provided with many privates that electrically connect the 3rd golden finger and the 4th golden finger.Wherein, the 3rd golden finger and the 4th golden finger can be inserted second slot and the 4th slot respectively, are sent to backboard to cause those second control signals from mainboard through those privates.

The present invention is because of being to utilize lead on the bridging board to replace transmission line between mainboard and header board, the backboard.By this, server of the present invention can reduce the obstruction of transmission line to the cooling mechanism of system, and then promote the stability of its built-in system.Relatively, the hardware of server space also will be more succinctly attractive in appearance along with the minimizing of transmission line.

For above-mentioned feature and advantage of the present invention can be become apparent, preferred embodiment cited below particularly, and conjunction with figs. are described in detail below.

Description of drawings

Fig. 1 is the system architecture diagram of traditional server.

Fig. 2 illustrates the system architecture diagram into the server of foundation first embodiment of the invention.

Fig. 3 illustrates and is the transverse cross-sectional view of server 200 along direction A2.

Fig. 4 A illustrates and is the server 200 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B2.

Fig. 4 B illustrates and is the server 200 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B2.

Fig. 5 illustrates the system architecture diagram into the server of foundation second embodiment of the invention.

Fig. 6 A illustrates and is the server 500 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B5.

Fig. 6 B illustrates and is the server 500 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B5.

Fig. 7 illustrates the system architecture diagram into the server of foundation third embodiment of the invention.

Fig. 8 A illustrates and is the server 700 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B71.

Fig. 8 B illustrates and is the server 700 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B71.

Fig. 9 A illustrates and is the server 700 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B72.

Fig. 9 B illustrates and is the server 700 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B72.

Embodiment

In the following description, for presenting consistency, so in different embodiment, if there is the same or analogous assembly of function and structure to use identical element numbers and title to explanation of the present invention.

[first embodiment]

Fig. 2 illustrates the system architecture diagram into the server of foundation first embodiment of the invention.With reference to Fig. 2, server 200 comprises mainboard 210, backboard 220 and bridging board 230.Wherein, mainboard 210 is provided with many leads 251～254 and slot 261.Lead 251～254 is electrically connected to slot 261, and in order to transmit a plurality of power supply signals and a plurality of control signal.Wherein, described those control signals meet one of them of a plurality of data transmission interfaces respectively.Then be provided with another slot 262 on the backboard 220.

Moreover bridging board 230 has golden finger 231 and 232.In addition, bridging board 230 is provided with many leads that electrically connect golden finger 231 and 232, for example: the lead 241～243 that Fig. 2 illustrated.On overall architecture, golden finger 231 and 232 can be inserted slot 261 and 262 respectively.By this, those control signals and those power supply signals from mainboard 210 can be sent to backboard 220 through those leads on the bridging board 230.

What deserves to be mentioned is, those control signals from mainboard 210, the data transmission interface that it met comprises USB (universal serial bus) (Universal Serial Bus, USB) interface, a SATA interface, a floppy drive interface and are integrated and are driven electronics (Integrated Drive Electronics, IDE) interface.

In addition, in the present embodiment, slot 261 and 262 can adopt the accord with PCI-X interface or the slot of PCI-E interface to realize.For instance, when backboard 220 is the transmission mode of employing parallel data, is familiar with this operator and can directly adopts the slot of accord with PCI-X interface to realize.Relatively, when backboard 220 is the transmission mode of employing serial data, is familiar with this operator and can directly adopts the slot of accord with PCI-E interface to realize.Moreover, be familiar with this operator also can utilize mainboard 210 and backboard 220 be provided with respectively one be serial to parallel converters (series to parallel converter) or and walk to the mode of serial convertor (parallel to series converter), optionally use the accord with PCI-X interface or the slot of PCI-E interface.

Particularly, with conventional art in comparison, present embodiment can see through traditional server 100 (as shown in Figure 1) signal that a large amount of transmission lines are sent to header board and backboard, the lead that utilization is configured on the bridging board 230 transmits.Thus, server 200 can reduce the obstruction of transmission line to the cooling mechanism of system, and then promote the stability of its built-in system.Relatively, the hardware space of server 200 also will be more succinctly attractive in appearance along with the minimizing of transmission line.

Further, server 200 also comprises System on Chip/SoC 240, a plurality of fan 271～274, framework 280 and a plurality of expansion slot 291～293.Wherein, System on Chip/SoC 240 is configured on the mainboard 210, and in order to produce those control signals of part that lead 251～254 is transmitted.

In addition, expansion slot 291～293 is configured on the mainboard 210, and in order to insert a plurality of expansion boards.Wherein, expansion slot 291～293 those expansion boards of being inserted also can produce those control signals of part that lead 251～254 is transmitted.In the present embodiment, described those expansion boards comprise a SATA expansion board, a SCSI expansion board and a serial SCSI (Serial Attached SCSI, SAS) expansion board.Expansion slot 291～293 is the accord with PCI interface or the standard of PCI-E interface then.

Moreover Fig. 3 illustrates and is the transverse cross-sectional view of server 200 along direction A2.Please be simultaneously with reference to Fig. 2 and Fig. 3, framework 280 is parallel to each other with bridging board 230.In addition, the lower surface of framework 280 is across bridging board 230, and its upper surface is provided with fan 271～274.At this, fan 271～274 is in order to produce an air-flow, to reduce the used heat of server 200.Taken the part hardware space of server 200 though it should be noted that bridging board 230,, and above bridging board 230, disposed fan 272 accordingly because framework 280 is crossed over bridging board 230 just like a bridge block ground.Therefore, the cooling mechanism of server 200 will can not be subjected to the influence of bridging board 230.

On the other hand, backboard 220, mainboard 210 and the relativeness of bridging board 230 on physical arrangements are then shown in Fig. 4 A and Fig. 4 B, wherein Fig. 4 A illustrates and is that the server 200 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B2, Fig. 4 B then illustrate and is the server 200 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B2.

Please be simultaneously with reference to Fig. 2 and Fig. 4 A, backboard 220, mainboard 210 can be parallel to each other on physical arrangements with bridging board 230.For instance, shown in Fig. 4 A, mainboard 210 is parallel to the direction of a side surface of bridging board 230, and golden finger 231 is arranged on this side surface of bridging board 230.Relatively, backboard 220 is parallel to the direction on the opposite side surface of bridging board 230, and golden finger 232 is arranged on this opposite side surface of bridging board 230.Moreover shown in Fig. 4 A, framework 280 is across bridging board 230, and disposes fan 272 above bridging board 230 accordingly.What deserves to be mentioned is that Fig. 4 A also shows the expansion board 410 that expansion slot 293 can be inserted.

Then with reference to Fig. 4 A and Fig. 4 B, two embodiment are the directions that mainboard 210 is parallel to a side surface of bridging board 230, and golden finger 231 all is arranged on this side surface of bridging board 230.Yet be that with the maximum difference of Fig. 4 A embodiment Fig. 4 B embodiment is with the direction of backboard 220 perpendicular to the opposite side surface of bridging board 230, golden finger 232 is to be arranged on accordingly on this opposite side surface of bridging board 230.Other details as for Fig. 4 B embodiment then is included among Fig. 4 A embodiment, so do not repeat them here.

[second embodiment]

Fig. 5 illustrates the system architecture diagram into the server of foundation second embodiment of the invention.With reference to Fig. 5, the main difference of second embodiment and first embodiment is, bridging board 530, fan 571～574 and framework 581 and 582 configuration relation in server 500.

In specific words, in a second embodiment, backboard 220, mainboard 210 and the relativeness of bridging board 530 on physical arrangements are shown in Fig. 6 A and Fig. 6 B, wherein Fig. 6 A illustrates and is that the server 500 of the foundation one embodiment of the invention longitudinal sectional drawing along direction B5, Fig. 6 B then illustrate and is the server 500 of the foundation another embodiment of the present invention longitudinal sectional drawing along direction B5.

Please be simultaneously with reference to Fig. 5 and Fig. 6 A, bridging board 530 has golden finger 531 and 532.In addition, bridging board 530 is provided with many leads that electrically connect golden finger 531 and 532, for example: the lead 541～543 that Fig. 6 A is illustrated.On configured in one piece, mainboard 210 and backboard 220 are all perpendicular to the direction of a side surface of bridging board 530, and golden finger 531 and 532 also all is arranged on this side surface of bridging board 530.

Then with reference to Fig. 6 A and Fig. 6 B, two embodiment are with the direction of mainboard 210 perpendicular to a side surface of bridging board 530, and golden finger 531 all is arranged on this side surface of bridging board 530.Yet be that with the maximum difference of Fig. 6 A embodiment Fig. 6 B embodiment is with the direction of backboard 220 perpendicular to the opposite side surface of bridging board 530, golden finger 532 is to be arranged on accordingly on this opposite side surface of bridging board 530.

What deserves to be mentioned is that similar to first embodiment, second embodiment can see through the signal that a large amount of transmission lines are sent to header board and backboard with traditional server 100 (as shown in Figure 1), utilizes the lead that is configured on the bridging board 530 to transmit.Thus, server 500 can reduce the obstruction of transmission line to the cooling mechanism of system, and then promote the stability of its built-in system.

[the 3rd embodiment]

Fig. 7 illustrates the system architecture diagram into the server of foundation third embodiment of the invention.With reference to Fig. 7, server 700 comprises mainboard 710, backboard 720, header board 730 and bridging board 740 and 750.Wherein, mainboard 710 is provided with many leads 761～764 and 771～774, slot 781 and 782 and System on Chip/SoC 790.Wherein, lead 761～764 is electrically connected to slot 782, and 771～774 in lead is electrically connected to slot 781.In addition, header board 730 is provided with slot 783.Backboard 720 is provided with slot 784.

Fig. 8 A illustrates and is the longitudinal sectional drawing of server 700 along direction B71.Please refer to Fig. 7 and Fig. 8 A, bridging board 750 has golden finger 751 and 752.In addition, bridging board 750 is provided with many leads that electrically connect golden finger 751 and 752, for example: the lead 801～803 that Fig. 8 A is illustrated.On overall architecture, golden finger 751 and 752 can be inserted slot 781 and 783 respectively.

At this, a plurality of first control signals of lead 771～774 in order to transmit a plurality of power supply signals and to meet a particular data transmission interface.And know, slot 781 and 783 respectively with bridging board 750 on golden finger 751 and 752 be electrical connected.Therefore, those first control signals and those power supply signals from mainboard 710 can be sent to header board 730 through those leads on the bridging board 750.What deserves to be mentioned is that System on Chip/SoC 790 can produce those first control signals of part that lead 771～774 is transmitted.In addition, the particular data transmission interface that met of those first control signals is a USB interface.

Please continue the A with reference to Fig. 8, server 700 also comprises a power control circuit 810.Wherein, power control circuit 810 is configured on the bridging board 750, and in order to control those power supply signals from mainboard 710.By this, with conventional art in comparison because the power control circuit that originally is arranged on the mainboard is transferred on the bridging board 750, so the described mainboard 710 of present embodiment has microminiaturized advantage.

In addition, on configured in one piece, header board 730 and mainboard 710 are all perpendicular to the direction of a side surface of bridging board 750, and golden finger 751 and 752 all is arranged on this side surface of bridging board 750.Yet, be familiar with the longitudinal sectional drawing that this operator also can be illustrated according to Fig. 8 B, change header board 730, mainboard 710 and the relativeness of bridging board 750 on physical arrangements.

Please be simultaneously with reference to Fig. 8 A and Fig. 8 B, two embodiment are with the direction of mainboard 710 perpendicular to a side surface of bridging board 750, and golden finger 751 all is arranged on this side surface of bridging board 750.Yet, being that with the maximum difference of Fig. 8 A embodiment Fig. 8 B embodiment is with the direction of header board 730 perpendicular to the opposite side surface of bridging board 750, golden finger 752 is to be arranged on accordingly on this opposite side surface of bridging board 750.

Fig. 9 A illustrates and is the longitudinal sectional drawing of server 700 along direction B72.Please refer to Fig. 7 and Fig. 9 A, bridging board 740 has golden finger 741 and 742.In addition, bridging board 740 is provided with many leads that electrically connect golden finger 741 and 742, for example: the lead 901～903 that Fig. 9 A is illustrated.On overall architecture, golden finger 741 and 742 can be inserted slot 782 and 784 respectively.

In whole start, lead 761～764 meets a plurality of second control signals of a plurality of data transmission interfaces in order to transmission.And know, slot 782 and 784 respectively with bridging board 740 on golden finger 741 and 742 be electrical connected.Therefore, those second control signals from mainboard 710 can be sent to backboard 720 through those leads on the bridging board 740.

What deserves to be mentioned is that System on Chip/SoC 790 is also in order to produce those second control signals of part that lead 761～764 is transmitted.In addition, those data transmission interfaces of being met of those second control signals comprise a SATA interface, a floppy drive interface and an ide interface.In addition, slot 781～784 can adopt the accord with PCI-X interface or the slot of PCI-E interface to realize.

For instance, when backboard 720 and header board 730 are the transmission mode of employing parallel data, are familiar with this operator and can directly adopt the slot of accord with PCI-X interface to realize.Relatively, when backboard 720 and header board 730 are the transmission mode of employing serial data, are familiar with this operator and can directly adopt the slot of accord with PCI-E interface to realize.Moreover, be familiar with this operator also can utilize mainboard 710, backboard 720 and header board 730 be provided with respectively one be serial to parallel converters or and walk to the mode of serial convertor, optionally use the accord with PCI-X interface or the slot of PCI-E interface.

Please continue the A with reference to Fig. 9, server 700 also comprises a plurality of interface control circuits, for example: the interface control circuit 910 and 920 that Fig. 9 A is illustrated.Wherein, those interface control circuits are configured on the bridging board 740, and in order to control those second control signals from mainboard 710.By this, with conventional art in comparison because the interface control circuit that originally is arranged on the mainboard is transferred on the bridging board 740, so the described mainboard 710 of present embodiment has microminiaturized advantage.

In addition, on configured in one piece, backboard 720 and mainboard 710 are all perpendicular to the direction of a side surface of bridging board 740, and golden finger 741 and 742 all is arranged on this side surface of bridging board 740.Yet, be familiar with the longitudinal sectional drawing that this operator also can be illustrated according to Fig. 9 B, change backboard 720, mainboard 710 and the relativeness of bridging board 740 on physical arrangements.

Please be simultaneously with reference to Fig. 9 A and Fig. 9 B, two embodiment are with the direction of mainboard 710 perpendicular to a side surface of bridging board 740, and golden finger 741 all is arranged on this side surface of bridging board 740.Yet, being that with the maximum difference of Fig. 9 A embodiment Fig. 9 B embodiment is with the direction of backboard 720 perpendicular to the opposite side surface of bridging board 740, golden finger 742 is to be arranged on accordingly on this opposite side surface of bridging board 740.

The person of connecing please refer to Fig. 7, and server 700 also comprises fan 701～704 and framework 791～793.Wherein, framework 791～793 is parallel to 710 mainboards.701～704 in fan is separately positioned on the framework 791～793.At this, fan 701～704 is in order to produce an air-flow, to reduce the used heat of server 700.It should be noted that because present embodiment is the lead that sees through bridging board 740 and 750 respectively, come to be electrical connected with header board 730, backboard 720.Therefore, the described server 700 of present embodiment can reduce the obstruction of transmission line to the cooling mechanism of system.

In sum, the present invention utilizes lead on the bridging board to replace transmission line between mainboard and header board, the backboard.By this, server of the present invention can reduce the obstruction of transmission line to the cooling mechanism of system, and then promote the stability of its built-in system.Relatively, the hardware of server space also will be more succinctly attractive in appearance along with the minimizing of transmission line.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; have in the technical field under any and know the knowledgeable usually; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is when with being as the criterion that claim was defined.

Claims (25)

1. server comprises:

One mainboard, be provided with many first leads and one first slot, wherein those first leads are electrically connected to this first slot, and in order to transmitting a plurality of power supply signals and a plurality of control signal, and those control signals meet a plurality of data transmission interfaces one of them respectively;

One backboard is provided with one second slot; And

One bridging board, have one first golden finger and one second golden finger, and be provided with many second leads that electrically connect this first golden finger and this second golden finger, wherein this first golden finger and this second golden finger are inserted this first slot and this second slot respectively, are sent to this backboard to cause those control signals and those power supply signals to see through those second leads.

2. server as claimed in claim 1 is characterized in that, those data transmission interfaces comprise that a USB (universal serial bus), a SATA interface, a floppy drive interface and an integration drive electrical interface.

3. server as claimed in claim 1 is characterized in that, also comprises:

One System on Chip/SoC is configured on this mainboard, in order to produce partly those control signals.

4. server as claimed in claim 1 is characterized in that, also comprises:

A plurality of expansion slots are configured on this mainboard, in order to insert a plurality of expansion boards, it is characterized in that, those expansion boards are in order to produce partly those control signals.

5. server as claimed in claim 4 is characterized in that, those expansion boards comprise a SATA expansion board, a SCSI expansion board and a serial SCSI expansion board.

6. server as claimed in claim 4 is characterized in that, those expansion slot accord with PCI interfaces or the standard of PCI-E interface.

7. server as claimed in claim 1 is characterized in that, this mainboard is parallel to the direction of a side surface of this bridging board, and this first golden finger is arranged on this side surface of this bridging board.

8. server as claimed in claim 7 is characterized in that, this backboard is parallel to the direction on the opposite side surface of this bridging board, and this second golden finger is arranged on this opposite side surface of this bridging board.

9. server as claimed in claim 1 is characterized in that, this backboard is perpendicular to the direction on the opposite side surface of this bridging board, and this second golden finger is arranged on this opposite side surface of this bridging board.

10. server as claimed in claim 1 is characterized in that, also comprises:

One framework be parallel to each other with this bridging board, and the lower surface of this framework is across this bridging board; And

A plurality of fans are arranged on the upper surface of this framework, in order to produce an air-flow, to reduce the used heat of this server.

11. server as claimed in claim 1 is characterized in that, this mainboard is perpendicular to the direction of a side surface of this bridging board, and this first golden finger is arranged on this side surface of this bridging board.

12. server as claimed in claim 11 is characterized in that, this backboard is perpendicular to the direction on the opposite side surface of this bridging board, and this second golden finger is arranged on this opposite side surface of this bridging board.

13. server as claimed in claim 11 is characterized in that, this backboard is perpendicular to the direction of this side surface of this bridging board, and this second golden finger is arranged on this side surface of this bridging board.

14. server as claimed in claim 11 is characterized in that, also comprises:

At least one framework is parallel to this mainboard; And

A plurality of fans are configured on this framework.

15. server as claimed in claim 1 is characterized in that, this first slot and this second slot accord with PCI-X interface or the standard of PCI-E interface.

16. a server comprises:

One header board is provided with one first slot;

One backboard is provided with one second slot;

One mainboard, be provided with many first leads, many second leads, one the 3rd slot and one the 4th slots, wherein those first leads are electrically connected to the 3rd slot, and a plurality of first control signals in order to transmit a plurality of power supply signals and to meet a particular data transmission interface; Those second leads are electrically connected to the 4th slot, and meet a plurality of second control signals of a plurality of data transmission interfaces in order to transmission;

One first bridging board, have one first golden finger and one second golden finger, and be provided with many privates that electrically connect this first golden finger and this second golden finger, wherein this first golden finger and this second golden finger are inserted this first slot and the 3rd slot respectively, are sent to this header board to cause those first control signals and those power supply signals to see through those privates; And

One second bridging board, have one the 3rd golden finger and one the 4th golden finger, and be provided with many privates that electrically connect the 3rd golden finger and the 4th golden finger, wherein the 3rd golden finger and the 4th golden finger are inserted this second slot and the 4th slot respectively, are sent to this backboard to cause those second control signals to see through those privates.

17. server as claimed in claim 16 is characterized in that, this particular data transmission interface is a USB interface, and those data transmission interfaces comprise a SATA interface, a floppy drive interface and an ide interface.

18. server as claimed in claim 16 is characterized in that, also comprises:

One System on Chip/SoC is configured on this mainboard, in order to produce partly those first control signals and those second control signals of part.

19. server as claimed in claim 16 is characterized in that, this header board and this mainboard be perpendicular to the direction of a side surface of this first bridging board, and this first golden finger and this second golden finger are arranged on this side surface of this first bridging board.

20. server as claimed in claim 16 is characterized in that, this backboard and this mainboard be perpendicular to the direction of a side surface of this second bridging board, and the 3rd golden finger and the 4th golden finger are arranged on this side surface of this first bridging board.

21. server as claimed in claim 16, it is characterized in that, this header board is perpendicular to the direction of a side surface of this first bridging board, this mainboard is perpendicular to the direction on the opposite side surface of this first bridging board, and this first golden finger and this second golden finger are separately positioned on this side surface and this opposite side surface of this first bridging board.

22. server as claimed in claim 16, it is characterized in that, this backboard is perpendicular to the direction of a side surface of this second bridging board, this mainboard is perpendicular to the direction on the opposite side surface of this second bridging board, and the 3rd golden finger and the 4th golden finger are separately positioned on this side surface and this opposite side surface of this second bridging board.

23. server as claimed in claim 16 is characterized in that, also comprises:

At least one framework is parallel to this mainboard; And

A plurality of fans are configured on this framework, in order to produce an air-flow, to reduce the used heat of this server.

24. server as claimed in claim 16 is characterized in that, also comprises:

One power control circuit is configured on this first bridging board, in order to control those power supply signals from this mainboard; And

A plurality of interface control circuits are configured on this second bridging board, in order to control those second control signals from this mainboard.

25. server as claimed in claim 16 is characterized in that, this first slot, this second slot, the 3rd slot and the 4th slot accord with PCI-X interface or the standard of PCI-E interface.

Images