TW201243542A - Electronic device with expansion PCI-E - Google Patents

Abstract

An electronic device with expansion PCI-E includes a board, a PCI-E integrated slot, a riser card and a plurality of interface cards. The PCI-E integrated slot with an x24 channel signal integrated expansion pairs, which is electrical disposed on the board. The riser card is inserted into the integrated PCI-E slot, and the interface cards are inserted into sockets of the riser card. Moreover, the PCI-E integrated slot with an x24 channel signal integrated expansion pairs be able to formed by combination of two PCI-E slots of the electronic device.

Description

201243542 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to an electronic device for expanding a PCI_E channel signal, and more particularly to an electronic farm having a PCI-E integrated slot with an x24 channel signal extension pair. [Prior Art] Peripheral Component Interconneet PCI

For the industry standard of computer bus, PCI-Express (PCI-E) can increase the transmission signal bandwidth by the number of channels transmitted. PCI-E x4 has 4 channels of channel communication; pCI_E x8 has 8 channels. There are 16 groups of channel messages in the Ρα_Εχ16, and the corresponding slot size specifications are also different. The PCI_E slot is located on the motherboard. As shown in Figure i, the standard ρα_Εχΐ6 slot is located on the motherboard 101, and the interface card 1〇3 of the pCI_Exl6 is vertically inserted into the motherboard 101. This combined structure can be repeated. For example, the six PCI_E slots in the figure can support six PCI-Exl6 interface cards with different functions. The conventional technology can increase the design flexibility in the assembly and PCI-E interface function selection. However, the more the PCI-E xl6 slot and the interface card are combined, the more space will be occupied, as shown in Figure 2. If all six PCI-E slots are fully populated, the overall space will be longer. In addition, PCI-E has different standard channel signal specifications such as x4 'x8 'xl6. If these standard channel signal specification slots are all placed on the motherboard, the slots cannot be completely shared between different sizes of channels. The combined overall volume will be larger. If different standard channel signal specifications are to share the same slot, it is usually necessary to add a chip outside of 201243542 for multiplex processing of the channel signal, which will increase the manufacturing cost. SUMMARY OF THE INVENTION The purpose of the present invention is to provide an electronic device with a PCI_E channel signal, which can solve different PCI_E interface cards, cannot expand the same slot, and has a problem of excessive volume after combination. The electronic device with extended PCI-Ε channel signal disclosed in the present invention comprises a motherboard, a PCI-E integrated slot, a riser card and a plurality of interface cards. The PCI-E integrated slot has a x24 channel signal expansion pair, and the pci_E integrated slot is electrically disposed on the motherboard. The adapter card is electrically inserted into the Ρα_Ε integrated slot, and the adapter card has a plurality of electrical slots for the plurality of interface cards to be electrically inserted therein. In the electronic device with the extended PCI-E channel signal disclosed in the present disclosure, the PCI-E integrated slot may further include a first Ρα_Ε slot and a second ρα_Ε slot. The first PCI-E slot has a 6-channel signal expansion pair, and the first PCI-E slot is electrically disposed on the motherboard. The second Ρα_Ε slot has a channel k extension pair, and the first PCI-E slot is electrically disposed on the motherboard. The effect of this creation is that, for a plurality of different PCI_E interface cards, different signal pairs can be transmitted at the same time through the transfer card, thereby achieving the purpose of expansion. In addition, this creation can reduce the cost of the chipset. For example, the conventional pCl_Exl6戋 is a PCI-EX8 riser card. If it is to be expanded into x24 channel signals, an additional chipset must be added to enable x8, or χΐ6 channel signals via Additional chipsets are expanded to x24 channel signals. However, this creation provides two slots for expanding the X24 channel signal pair, which can be used to avoid additional chipset costs and to electrically couple the extended x24 channel signal on the riser card to the motherboard. The details of the implementation of the _Features and the sisters, the best examples of age, are as follows. [Embodiment] The first preferred embodiment disclosed in the present application, such as the fourth stereoscopic schematic of the 4th, uses three sets of PCI-E x8 slots and three sets of PCI-E χ8 interface card combination devices as an explanation. And three standard PCI-E χ8 interface cards 109, 110, 111 are inserted into the riser card 3〇5 through three standard PCI-E Χ8 electrical slots 1〇6, 1〇7, 1〇8 respectively. However, it is not limited to this embodiment. Among them, 'two sets of PCI-Ex8 interface cards and electrical slots, the sum is χ24 channels L number pair 'the riser card 305 is inserted vertically into the pCI_E integrated slot 3〇4 in the first direction, the first direction and the motherboard 3〇 1 vertical. The PCI-E integrated slot 304 supports expansion of the 24-channel signal pair 'and through the PCM integrated slot 3〇4 frame 24 channel signal expansion pair with the motherboard 301 #, the expansion χ 24 channel signal is transmitted to the motherboard 3〇1 Control the wafer. "Monthly with reference to the side view of the first preferred embodiment of the present invention shown in Fig. 5, wherein a private PCI-E χ8 interface card 1〇9, 11〇, in is located at the riser card 3〇5 The first side is vertically inserted into the riser card 305 in the second direction. In the first preferred embodiment, the second side of the opposite side of the riser card 305 is inserted without an interface card, and the two standard PCI-E χ8 interface cards 1〇9, 11〇, hi and the motherboard 3〇1 are mutually schematic. In a parallel relationship, the riser card 305 is vertically inserted into the motherboard 201243542 301 ′ in the first direction, wherein the second direction is in a schematic parallel relationship with the motherboard surface, and the first direction is in a schematic perpendicular relationship with the motherboard surface, that is, The first direction and the second direction are perpendicular to each other. Three standard pci_E χ8 interface cards 1〇9, 11〇, m are arranged in the first direction, which can increase the effective arrangement of the three-dimensional space. The second preferred embodiment disclosed in the present application, as shown in FIG. 6 , uses a set of PCI-E x16 electrical slots 125 and PCI-E x16 interface cards 124, and another set of PCI_Ex8 The electrical slot 122 and the interface card combination device of the pciEx8 are described, but are not limited to this embodiment. Among them, the two sets of combined devices use a 通道24-channel signal pair, and the χ24-channel ## is transferred to the riser card via the electrical slot 125 of the PCI-E χ16 and the electrical slot 122 of the PCI-E χ8. 5 on. The creation of the ρα·Ε integrated slot 5〇4 is a channel signal pair with an extended x24, and the channel signal pair of the riser card 5〇5 h24 can be directly connected to the motherboard 5()1, and then It is connected to the corresponding wafer on the motherboard 5〇1. Please refer to the side view of the second preferred embodiment of the present invention shown in FIG. 7, wherein the standard PCI-EX16 interface card 124 and the standard ρα_Εχ8 interface card 12 are located on different sides of the riser card 505, and are in the second Insert the riser card 5〇5 vertically. In the second preferred embodiment, the plane direction of the standard ρα_Ε 界面16 interface card 124 and the standard PCI_E χ8 interface card 120 is in a schematic parallel relationship with the board surface of the motherboard 5〇1, and is substantially parallel to the second direction. The card 505 is vertically inserted into the main board in the first direction, so that the selection of the space arrangement of the county ρα·Ε interface card increases the selection of the three-dimensional space. θ 4 201243542 The third preferred embodiment disclosed in the present application, as shown in FIG. 8 , uses two sets of PCI-E χ 8 electrical slots 114 , 115 and a PCI-E χ 8 interface card 112 , 113' with the other two groups? (:1_Electrical slots 118, 119, and 1> of 4: (1:£:> (4 interface cards 116, 117 combined device as an explanation, but not limited to this embodiment. For example, the four sets of combined devices use a Χ24-channel signal. The electrical slots 118, 119 of the PCI_E x4 are coupled to the riser card 704, and the PCI-E x4 interface cards 116, 117' are vertically and vertically inserted in the second direction. On the card 704, the channel signal of the ρα-Ε4 interface card 116 is electrically coupled to the riser card 704 by the electrical slot 118 of the ρα_Ε χ4. The channel signal of the PCI-E χ4 interface card in is electrically connected via PCI-E χ4. The electrical socket 119' is coupled to the riser card 704. The electrical slots 114, 115 of the PCI-E 8 are coupled to the riser card 704, and the PCI-E χ 8 interface cards 112, 113' are substantially vertical in the second direction. Inserted on the riser card 7〇4, the channel signal of the PCI_E x8 interface card 112 is electrically connected to the 704 riser card via the electrical slot 114 of the pCI_E χ8, and the channel signal of the PCI-Ex8 interface card 113 is electrically connected via PCI_E. The electrical socket 115 of the x8 is coupled to the riser card 704. The original pci-E integrated slot 704 is a slot with a channel signal expansion pair of x24, which can be turned The channel number pair of the upper end 24 of the card 7〇5 is directly coupled to the motherboard 701 and then to the corresponding wafer on the motherboard 7〇1. Please refer to FIG. 9 for the side of the third preferred embodiment. The view, wherein the standard ρα_Ε x8 interface cards 112, 113 and the standard PCI-E x4 interface cards 116, 117 are located on different sides of the riser card 705, and are vertically inserted into the riser card 7〇5 in a second direction, standard PCI- The E x8 interface cards 112, 113 and the standard pCI_E χ 4 interface cards 116, 117 of the board 5 201243542 face direction, and the motherboard 501 board surface are substantially parallel to each other, and the second direction is substantially parallel to the adapter card 705 in a first direction substantially vertical Inserting the motherboard board, so that the selection of the standard PCI E interface card space arrangement increases the choice of three degrees of space. The fourth preferred embodiment disclosed in the present application, as shown in the figure (1), please refer to the third figure. Figure 10 and Figure 3. Figure 3 is a perspective view of a conventional technology without a riser card assembly. The computer assembly height is a computer assembly height without a riser card, along with the PCI-E interface card. The more, the second direction is parallel with the motherboard and gradually grows 10 is a three-dimensional illustration of the computer assembly in the fourth preferred embodiment of the present invention. The computer is called the height of the computer, and the height of the computer has a riser card. The card direction of the PCJ is in addition to the second direction and the domain board. The parallel direction gradually increases, and can be gradually combined with the vertical direction of the motherboard along the first direction, so that the computer group exhibition will save space in the three-dimensional space. The fifth preferred embodiment of the present invention (4), such as the stereoscopic diagram of the H-th riding, uses a 第24 combination of a 第-PCI-E slot Π41 and a second PCI-E slot 1142. The slot is for illustrative purposes, but is not limited to this embodiment. The adapter card of this embodiment is vertically inserted into the combination slot 114 1142 in the first direction, wherein the first pci_E slot Π 41 uses the standard ρα·Ε 电 16 electrical slot of χ16, and the second PCI-E shop 1142 is used. χ 8-channel signal slot, extended to the sum χ 24 channel signal. Refer to Figure 11 'The electronic device with the extended PCI_E channel signal includes a set of PCI-E x16 electrical slots 1〇23 and PCI_E xl6 interface cards 1〇22, and another set of PCI-EX8 electrical slots 1021 & Ρα_Εχ8 interface card 1〇2〇 combination device. 201243542 The above two sets of combined devices use the x24 channel signal, which is coupled to the riser card 1105 via the slot 1023 of the PCI-E x16 and the slot 1021 of the PCI-E x8. The creation of the PCI-E combination slot 1142, 141 is a slot of the extended channel signal pair. The channel signal pair on the riser card 24 can be directly connected to the 1101 motherboard, and then to the phase on the 1101 motherboard. Corresponding wafers are connected. Please refer to the perspective view of the fifth preferred embodiment of the present invention shown in FIG. 11, wherein the standard PCI-E χ16 interface card 1022 and the standard PC1_Ex8 interface card are located at the (four)-plane of the riser card 11G5. The second direction is substantially vertically inserted into the riser card 11〇5, and the standard PCI_E xl6 interface card 1〇22 and the standard ρα_Ε χ8 interface card are in the direction of the board surface, and are substantially parallel to the board surface of the motherboard 1101, both in the second direction. The schematic parallel 'rift card 1105 is vertically inserted into the motherboard 11〇1 in the first direction, so that the selection of the standard PCI-E interface card space arrangement increases the choice of three degrees of space. Please refer to FIG. 6 and FIG. U. The difference between the second preferred embodiment and the fifth preferred embodiment is that the PCI_E combination slot 1142, 1141 in the fifth preferred embodiment shown in FIG. 11 is Two slots. The PCI-E integrated slot 504 in the second preferred embodiment shown in FIG. 6 is a single slot. However, in both slot modes of the u and FIG. 6, the PCI-E can be extended to The x24 channel signal pair is not limited to the real ones covered by this creation. Those who are familiar with this technology can increase or decrease the number of slots and set the position according to the actual design requirements. Although the application examples of the present disclosure are as described above, it is not intended to limit the creation of any of the skilled artisans, without departing from the spirit and scope of the present invention. The amount and quantity of the 201243542 D 蒦 须 须 2012 435 435 435 435 435 435 435 435 435 435 435 435 435 435 435 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a conventional technique. Figure 2 is a side view of a prior art. Figure 3 is a perspective view of a prior art. Figure 4 is a perspective view of the first preferred embodiment. Figure 5 is a side view of the first preferred embodiment. Figure 6 is a perspective view of the first preferred embodiment. Figure 7 is a side view of the second preferred embodiment. Figure 8 is a perspective view of a preferred embodiment of the second embodiment. Figure 9 is a side view of the third preferred embodiment. Figure 10 is a perspective view of a fourth preferred embodiment. Figure 11 is a perspective view of a fifth preferred embodiment. [Main component symbol description] 101, 301, 501, 701 102, 302, 502, 702, 125 103, 303, 503, 703, 124 104, 304, 504, 704 105, 305, 505, 705 motherboard standard PCI- E xl6 slot standard PCI-Exl6 interface card PCI-E integrated slot adapter card 201243542 106, 107, 108, 114, 115, 122 standard PCI-E x8 slot 109, 110, m, 112, 113, 120 standard PCI-E x8 interface card 116 ' 117 standard PCI-E x4 interface card 118, 119 standard PCI-E x4 slot 1101 motherboard 1102 standard PCI-E xl6 slot 1103 standard PCI-E xl6 interface card 1105 riser card 1141 Standard PCI-E xl6 slot 1142 PCI-E x8 slot 1120 standard PCI-E x8 interface card 1121 standard PCI-E x8 slot 1122 standard PCI-E xl6 interface card 1123 standard PCI-E xl6 slot

Claims (1)

201243542 VII. Patent application scope: 1. An electronic device with extended PCI-E channel signal, comprising: a motherboard; a PCI-E integrated slot with an x24 channel signal expansion pair, the pci_E integrated socket electrical The switch card is electrically inserted into the PCI-E integrated slot, and the riser card has a plurality of electrical slots; and a plurality of interface cards are electrically inserted in the switch Inside the electrical slots of the card. 2. The electronic device with the extended PCI_E channel signal as described in claim 1, wherein the riser card has three slots, each of the slots having an x8 channel signal pair respectively. The two slots are integrated into x24. Channel signal. 3. As requested in the article! An electronic split having an extended ρα_Ε channel signal, wherein the riser card has two slots, wherein the slot has a χΐ6 channel horn pair and the other slot has a Χ8 channel signal pair, The two slots are combined into a χ24= channel signal. 4. If there is an extended service channel Xinyan electronic device as mentioned in item i of the request, the adapter card has four slots, and the towel has a _ 24-channel signal. t has a channel signal pair, the four-slot combination is 5. The electronic skirt having the extended channel signal as described in item i of the claim, the adapter has a relative first surface and a The second side of the adapter card 10 can be selectively disposed on the first surface or electrically disposed on the second surface or electrically disposed on the first surface And the second side. The electronic device with the extended PCI-E channel signal as described in claim 1, wherein the adapter card is electrically inserted into the PCI-E integrated slot in a first direction, and the interface cards are The card is electrically inserted into the riser card in a second direction, and the first direction and the second direction are perpendicular to each other. 7·—an electronic device having an extended PCI-E channel signal, comprising: a motherboard; a first PCI-E slot having an x16 channel signal expansion pair, wherein the first PCI-E slot is electrically disposed A second PCI-E slot has an x8 channel signal expansion pair, and the second PCI-E slot is electrically disposed on the motherboard; a riser card is electrically inserted into the first PCI> And the E-slot and the second pQ_E slot, and the riser card has a plurality of electrical slots; and a plurality of interface cards are electrically inserted into the electrical slots of the riser card. 8. The electronic device having the extended pci-E channel signal according to Item 7 of the present invention, wherein the riser card has three slots, each of the slots having an 8-channel signal pair, the three-plug The slot is integrated into a 24-channel signal. 9. If the request for 鄕7 item 财 ρααΕ Thieves trusts the electronic device, wherein the riser card has two slots, one of the slots has a channel signal pair 'the other slot has - χ 8 channel signal Yes, the two slots are integrated into a - pass 11 201243542 channel signal. The electronic split with the extended pci_E channel signal described in item 7 of the monthly request, wherein the 3 hai riser card has four such slots, and the two slots respectively have a young channel, 51 tiger pair name another slot There are respectively -x4 channel signal pairs, which are integrated into x24 channel signals. U. The electronic device with the extended PCI-E channel signal according to Item 7, wherein the riser card has a first side and a second side, and the slots of the riser card The optional impurity is disposed on the second surface, or is electrically disposed on the second surface or electrically disposed on the first surface and the second surface. 12. The electronic device of claim 7, wherein the riser card is electrically inserted in the first pcI_E slot and the fourth direction in a first direction. The second PCI-E slot is electrically inserted into the riser card in a second direction, and the first direction and the second direction are perpendicular to each other.