CN209895219U

CN209895219U - Board card based on multifunctional Slimline connector

Info

Publication number: CN209895219U
Application number: CN201920774610.5U
Authority: CN
Inventors: 王世鹏; 杨艳兴
Original assignee: Suzhou Wave Intelligent Technology Co Ltd
Current assignee: Suzhou Wave Intelligent Technology Co Ltd
Priority date: 2019-05-27
Filing date: 2019-05-27
Publication date: 2020-01-03
Anticipated expiration: 2029-05-27

Abstract

The utility model relates to a server design technical field provides an integrated circuit board based on multi-functional Slimline connector, including the mainboard and with hard disk backplate, RAID Riser card and the X16Riser card that the mainboard is connected to realize the multiple hardware configuration of the different functions of server, improve server system flexibility, satisfy different customers' multiple demand, facilitate for the user, improve economic benefits simultaneously.

Description

Board card based on multifunctional Slimline connector

Technical Field

The utility model belongs to the technical field of the server design, especially, relate to an integrated circuit board based on multi-functional Slimline connector.

Background

The server technology is more and more mature, the demands of clients are more and more diversified, at present, a plurality of server design companies provide customized schemes for the clients, different servers are designed according to the demands of different clients, and a large amount of manpower and material resources are consumed, so that the economic benefit is low.

In order to meet the requirements of different customers and the requirements of different application scenarios of the same customer, it is necessary to implement flexibility in hardware design, and change the hardware configuration of the server according to the requirements of the customer, so as to implement specific functions, but no hardware structure capable of providing a flexible configuration scheme design is available in the market at present.

Disclosure of Invention

To the defect among the prior art, the utility model provides a integrated circuit board based on multi-functional Slimline connector aims at solving among the prior art and designs different servers according to different customers' demand, nevertheless consumed a large amount of manpower and materials like this, and economic benefits is lower, does not have the problem that can provide the hardware structure of nimble configuration scheme design on the market moreover.

The utility model provides a technical scheme is: a board card based on a multifunctional Slimline connector comprises:

the main board is provided with a CPU, a board management controller, a first Slimline connector, a second Slimline connector, an AROC card and a first power connector, the CPU is connected with the board management controller, the first Slimline connector, the second Slimline connector and the AROC card respectively, and the board management controller is connected with the first Slimline connector and the second Slimline connector respectively;

the CPU and the substrate management controller use BD _ ID1 and BD _ ID2 signals fed back by the hard disk backplane, the RAID Riser card and the X16Riser card as board card identification signals;

the first power connector is connected with the power supply end.

As an improved scheme, a third slim connector, a fourth slim connector, a first PCIE X8SLOT and a second PCIE X8SLOT are arranged on the RAID Riser card, and the third slim connector is connected to the first PCIE X8SLOT, and the second PCIE X8SLOT is connected to the fourth slim connector;

the third Slimline connector is correspondingly connected with the first Slimline connector, the fourth Slimline connector is correspondingly connected with the second Slimline connector, and the fourth Slimline connector feeds back the BD _ ID1 and BD _ ID2 signals to the second Slimline connector.

As an improved scheme, a fifth slim connector, a sixth slim connector and a PCIE X16SLOT are arranged on the X16Riser card, and the fifth slim connector and the sixth slim connector are both connected to the first PCIE X16 SLOT;

the fifth Slimline connector is correspondingly connected with the first Slimline connector, the sixth Slimline connector is correspondingly connected with the second Slimline connector, and the sixth Slimline connector feeds back the BD _ ID1 and BD _ ID2 signals to the second Slimline connector.

As an improved scheme, a third slim line connector, a fourth slim line connector, a first PCIE X8SLOT and a second PCIE X8SLOT are arranged on the RAID Riser card, the third slim line connector is connected to the first PCIE X8SLOT, the second PCIE X8SLOT is connected to the fourth slim line connector, and the third slim line connector is correspondingly connected to the first slim line connector;

the hard disk back plate is provided with a seventh Slimline connector, a hard disk connector and an SAS connector, the seventh Slimline connector and the SAS connector are connected with the hard disk connector, the seventh Slimline connector is connected with the second Slimline connector, the SAS connector is connected with the AROC card, and the seventh Slimline connector feeds back BD _ ID1 and BD _ ID2 signals to the second Slimline connector.

As an improved scheme, the hard disk backplane, the RAID Riser card, and the X16Riser card are respectively provided with a second power connector, and each of the second power connectors is connected to the power supply terminal.

The embodiment of the utility model provides an in, based on integrated circuit board of multi-functional Slimline connector include the mainboard and with hard disk backplate, RAID Riser card and X16Riser card that the mainboard is connected to realize the multiple hardware configuration of the different functions of server, improve server system flexibility, satisfy different customers' multiple demand, facilitate for the user, improve economic benefits simultaneously.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of a board card based on a multifunctional slim line connector provided by the present invention;

fig. 2 is a schematic structural diagram of a first configuration of a board card based on a multifunctional slim line connector provided by the present invention;

fig. 3 is a schematic structural diagram of a second configuration of the board card based on the multifunctional slim line connector provided by the present invention;

fig. 4 is a schematic structural diagram of a third configuration of the board card based on the multifunctional slim line connector provided by the present invention;

the system comprises a CPU (central processing unit), a baseboard management controller (2), a first Slim line connector (3), an AROC (integrated circuit chip) card (4), a first power connector (5), a hard disk backplane (6), a RAID Riser card (7), an X16Riser card (8), a third Slim line connector (9), a fourth Slim line connector (10), a first PCIE X8SLOT (11), a second PCIE X8SLOT (12), a fifth Slim line connector (13), a sixth Slim line connector (14), a PCIE X16SLOT (15), a seventh Slim line connector (16), a hard disk connector (17), an SAS connector (18), a SAS (SAS) connector (19), a second power connector (20), a mainboard (21) and a second Slim line connector (21).

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are merely for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Fig. 1 is a schematic structural diagram of a board card based on a multifunctional slim line connector provided by the present invention, and for convenience of description, only parts related to embodiments of the present invention are shown in the diagram.

The integrated circuit board based on multi-functional Slimline connector includes:

a main board 20, wherein the main board 20 is provided with a CPU1, a board management controller 2, a first slim line connector 3, a second slim line connector 21, an AROC card 4 and a first power connector 5, the CPU1 is connected with the board management controller 2, the first slim line connector 3, the second slim line connector 21 and the AROC card 4 respectively, and the board management controller 2 is connected with the first slim line connector 3 and the second slim line connector 21 respectively;

a hard disk backplane 6, a RAID Riser card 7, and an X16Riser card 8 connected to the motherboard 20, wherein the CPU1 and the board management controller 2 use BD _ ID1 and BD _ ID2 signals fed back by the hard disk backplane 6, the RAID Riser card 7, and the X16Riser card 8 as board identification signals;

the first power connector 5 is connected with a power supply end.

A third slim line connector 9, a fourth slim line connector 10, a first PCIE X8SLOT11 and a second PCIE X8SLOT 12 are arranged on the RAID Riser card 7, the third slim line connector 9 is connected to the first PCIE X8SLOT11, and the second PCIE X8SLOT 12 is connected to the fourth slim line connector 10; the third Slimline connector 9 is correspondingly connected with the first Slimline connector 3, the fourth Slimline connector 10 is correspondingly connected with the second Slimline connector 21, and the fourth Slimline connector 10 feeds back the BD _ ID1 and BD _ ID2 signals to the second Slimline connector 21;

the X16Riser card 8 is provided with a fifth slim line connector 13, a sixth slim line connector 14 and a PCIE X16SLOT 15, and the fifth slim line connector 13 and the sixth slim line connector 14 are both connected to the first PCIE X16SLOT 15; the fifth Slimline connector 13 is correspondingly connected with the first Slimline connector 3, the sixth Slimline connector 14 is correspondingly connected with the second Slimline connector 21, and the sixth Slimline connector 14 feeds back the BD _ ID1 and BD _ ID2 signals to the second Slimline connector 21;

a seventh slim line connector 16, a hard disk connector 17 and an SAS connector are arranged on the hard disk back plate 6, the seventh slim line connector 16 and the SAS connector 18 are connected with the hard disk connector 17, the seventh slim line connector 16 is connected with the second slim line connector 21, the SAS connector 18 is connected with the AROC card 4, and the seventh slim line connector 16 feeds back BD _ ID1 and BD _ ID2 signals to the second slim line connector 21.

In this embodiment, the hard disk backplane 6, the RAID Riser card 7, and the X16Riser card 8 are respectively provided with a second power connector, and each of the second power connectors is connected to the power supply terminal, which is not described herein again.

In fig. 1, the connecting lines between Slimline connectors are indicated by dashed lines to express the possibility of connection between them.

On the basis of the board card of the multifunctional Slimline connector shown in FIG. 1, the following three different configurations are realized on the basis of a hard disk backplane 6, a RAID Riser card 7 and an X16Riser card 8:

the first configuration: RAID Riser card 7

As shown in fig. 2, the third slim line connector 9 of the RAID Riser card 7 is correspondingly connected to the first slim line connector 3, the fourth slim line connector 10 is correspondingly connected to the second slim line connector 21, and the fourth slim line connector 10 feeds back the BD _ ID1 and BD _ ID2 signals to the second slim line connector 21;

the BD _ ID on the RAID Riser card 7 is 00, when a cable is connected, the BD _ ID is signaled to the baseboard management controller 2 and the CPU1 on the motherboard 20, the CPU1 recognizes the inserted RAID Riser through the BD _ ID, and then the X16PCIE is configured as two PCIE X8 lanes to be respectively given to the first slim line connector 3 and the second slim line connector 21;

the RAID Riser card 7 obtains two PCIE X8 lanes through the cable to the first PCIE X8SLOT11 and the second PCIE X8SLOT 12, and this SLOT can be inserted into a RAID card or a standard X8, X4PCIE card.

The second configuration: x16Riser card 8

As shown in fig. 3, the fifth slim line connector 13 of the X16Riser card 8 is correspondingly connected with the first slim line connector 3, the sixth slim line connector 14 is correspondingly connected with the second slim line connector 21, and the sixth slim line connector 14 feeds back the BD _ ID1 and BD _ ID2 signals to the second slim line connector 21;

the BD _ ID on the X16Riser card 8 is 01, when a cable is connected, the BD _ ID signal is sent to the baseboard management controller 2 and the CPU1 on the motherboard 20, the CPU1 identifies the inserted X16Riser through the BD _ ID, and then the X16PCIE is configured as a PCIE X16 lane and is sent to the first slim connector 3 and the second slim connector 21 respectively;

the X16Riser obtains a PCIE X16 lane through a cable and gives the PCIE X16SLOT 15 on the X16Riser, and the SLOT can be inserted into a GPU card or a standard X16, X8 and X4PCIE card.

The third configuration: RAID Riser card 7+ hard disk backboard 6

As shown in fig. 4, the RAID Riser card 7 has a third slim line connector 9 connected to the first slim line connector 3, a seventh slim line connector 16 connected to the second slim line connector 21, the SAS connector 18 connected to the AROC card 4, and the seventh slim line connector 16 feeding back BD _ ID1 and BD _ ID2 signals to the second slim line connector 21;

the BD _ ID on the hard disk backplane 6 is 10, when a cable is connected, the BD _ ID signal is sent to the baseboard management controller 2 and the CPU1 on the motherboard 20, the CPU1 identifies the inserted hard disk backplane 6 through the BD _ ID, and then the X16PCIE is configured as two PCIE X8 lanes which are respectively sent to the third slim connector 9 and the seventh slim connector 16;

the RAID Riser card 7 obtains a PCIE X8lane through a cable and sends the lane to a PCIE X8SLOT on the RAID Riser board, and the SLOT can be inserted into a RAID card or standard X8 and X4PCIE cards; the hard disk back plate 6 obtains a PCIE X8lane through a Slimline cable and gives the PCIE X8lane to an SFF8639 hard disk connector 17 on the hard disk back plate 6, obtains an SAS X4 lane through an SAS cable and also gives the SFF8639HDD connector on the hard disk back plate 6, the HDD connector can support the HDDs of SAS, SATA and NVME types, and the PIC on the hard disk back plate 6 is responsible for the functions of HDD lighting, hot plug and the like.

The utility model discloses in, based on integrated circuit board of multi-functional Slimline connector include mainboard 20 and with hard disk backplate 6, RAID Riser card 7 and X16Riser card 8 that mainboard 20 is connected, its multiple hardware configuration that can realize the different functions of server, it has following technological effect:

(1) different requirements of different customers and requirements of the same customer on different application scenes can be met, and the application is convenient and flexible;

(2) repeated design of different customers in the same requirement aspect is reduced, and research and development efficiency and economic benefits are improved;

(3) the requirements of different server systems on the storage rate can be met, and the system can be used from SATA, SAS to PCIE.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. The utility model provides a integrated circuit board based on multi-functional Slimline connector which characterized in that includes:

the first power connector is connected with the power supply end.

2. The multifunctional Slimline connector-based board card according to claim 1, wherein a third Slimline connector, a fourth Slimline connector, a first PCIE X8SLOT and a second PCIE X8SLOT are arranged on the RAID Riser card, and the third Slimline connector is connected with the first PCIE X8SLOT, and the second PCIE X8SLOT is connected with the fourth Slimline connector;

3. The multifunctional Slimline connector-based board card according to claim 1, wherein a fifth Slimline connector, a sixth Slimline connector and a PCIE X16SLOT are arranged on the X16Riser card, and the fifth Slimline connector and the sixth Slimline connector are connected to the first PCIE X16 SLOT;

4. The multifunctional Slimline connector-based board card according to claim 1, wherein a third Slimline connector, a fourth Slimline connector, a first PCIE X8SLOT and a second PCIE X8SLOT are arranged on the RAID Riser card, the third Slimline connector is connected with the first PCIE X8SLOT, the second PCIE X8SLOT is connected with the fourth Slimline connector, and the third Slimline connector is correspondingly connected with the first Slimline connector;

5. The multifunctional Slimline connector-based board card according to any one of claims 1 to 4, wherein the hard disk backplane, the RAID Riser card and the X16Riser card are respectively provided with a second power connector, and each second power connector is connected with the power supply end.