CN218547405U - Education and conference all-in-one machine mainboard - Google Patents

Abstract

The utility model provides an education and conference all-in-one mainboard, including the mainboard body, PCIE 16X MXM slot has been installed to mainboard body upside, the built-in CPU that is equipped with of PCIE 16X MXM slot, mainboard body upside just is located the CPU right side and is equipped with the WIFI slot corresponding with CPU in proper order, the SSD slot, network controller, network transformer, RJ45 interface, the VGA interface, HDMI interface and USB interface, mainboard body upside just is located the CPU left side and has installed the DDR4SO-DIMM slot corresponding with CPU in proper order, JAE TX24 socket, the DC interface, mainboard body upside just is located the CPU below and has installed the MXM slot corresponding with CPU in proper order, the SATA connector, F _ USB contact pin and WIFI module. The utility model discloses in, side-mounting PCIE 16X MXM slot on the mainboard body, installation CPU in PCIE 16X MXM slot, through mainboard body, CPU and install the various structures on the mainboard body and form independent MXM module, the work of encoding and decoding can be handled by the GPU of MXM module to can realize that the CPU of lower end also can play high definition or very clear smoothness.

Description

Education and conference all-in-one machine mainboard

Technical Field

The utility model relates to an all-in-one mainboard technical field specifically is an education meeting all-in-one mainboard.

Background

The OPS, open Plug Specification (OPS), is a computing module plug-in format that may be used to add computing power to flat panel displays, and was first published in 2010 by NEC, intel and microsoft.

The OPS formatted computing module may run on Intel and ARM based CPUs, running operating systems including Microsoft Windows and Google Android.

The main benefit of using OPS in digital signage, educational systems, and conferencing systems is to reduce down time and maintenance costs by making it very easy to replace computing modules in the event of a failure. The OPS mainboard comprises a CPU, an SSD/HDD, a DDR, a USB, an RJ45, an HDMI, a VGA, an AUDIO, an operating system, a display screen and the like, so that the OPS has the attribute and the characteristic of a computer, and products and technologies of the OPS in the industries of digital signage, education and conference systems are very special, belong to intermediate products, and provide a stable, reliable, embedded and intelligent computing system for the OPS.

The existing OPS mainboard is generally an integrated display card, because the education industry, the video conference and the digital signage system have higher requirements on image processing, and 4K @60Hz needs to be supported, and the video decoding function of the display card integrated by a CPU can not meet the requirements, an independent display card needs to be expanded.

When a high-definition or ultra-definition video is played through an OPS computer during a video conference, namely the high-definition video is coded and decoded, if the high-definition video is completely dependent on the operation and decoding of a CPU, the performance of a plurality of CPUs is low and completely insufficient, and meanwhile, in the aspect of education and teaching, no matter a 3D modeling software or an electronic book drawing software is operated, the CPU is provided with a set which obviously cannot complete the work, or the operation is blocked and unsmooth and is not smooth.

Therefore, the utility model provides an education meeting all-in-one mainboard.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art exists, the utility model aims at providing an education meeting all-in-one mainboard, with the problem that proposes in solving above-mentioned background, the utility model discloses an install PCIE 16X MXM slot on mainboard body, install CPU in PCIE 16X MXM slot, through the mainboard body, CPU forms independent MXM module with the various structures of installing on the mainboard body, the work of encoding and decoding can be handled by the GPU of MXM module, thereby can realize that lower end's CPU also can play high definition or very clear smoothness, MXM module has been had simultaneously, three-dimensional figure, three-dimensional visual effect, the figure is rendered, more smooth and faster that operation software and computer aided design can move.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a PCIE 16X MXM slot is arranged on the upper side of the mainboard body, a CPU is arranged in the PCIE 16X MXM slot, a WIFI slot, an SSD slot, a network controller, a network transformer, an RJ45 interface, a VGA interface, an HDMI interface and a USB interface which correspond to the CPU are sequentially arranged on the upper side of the mainboard body and on the right side of the CPU, a DDR4 SO-slot, a JAE TX24 socket and a DC interface which correspond to the CPU are sequentially arranged on the upper side of the mainboard body and on the left side of the CPU, an MXM slot, an SATA connector, an F _ USB pin and a WIFI module which correspond to the CPU are sequentially arranged on the upper side of the mainboard body and under the CPU, and the MXM module is formed by the mainboard body and all the structures such as the CPU, the MXM slot and the like which are arranged on the mainboard body.

Further, the CPU is a CPU chip capable of providing 16lane PCIE signals, for example, a CPU chip of a model Intel Sky Lake-U, where the CPU chip of the model Intel Sky Lake-U has PCIE X16 signals and is connected to the MXM slot through different pin definitions of PCIE.

Furthermore, the main board body is a PCB.

Further, the USB interface includes two USB3.0 interfaces and one USB2.0 interface.

Furthermore, the MXM modules all adopt PCI-E16X signals directly pulled out from the CPU.

Furthermore, an MXM slot of the MXM module comprises an MXM-HE interface, two more pins are arranged in the MXM-HE interface, and the two pins can directly get electricity from a battery or other power input equipment.

Furthermore, the MXM module directly gets electricity through the DC interface, and the power supply standard is 5V.

The utility model has the advantages that: the utility model relates to an education and conference integrated machine mainboard, which comprises a mainboard body; a PCIE 16X MXM slot; a CPU; MXM display card.

1. Install PCIE 16X MXM slot at mainboard body upside, install CPU in PCIE 16X MXM slot, through the mainboard body, CPU forms independent MXM module with the various structures of installing on the mainboard body, the work of encoding and decoding can be handled by the GPU of MXM module, thereby can realize that the CPU of lower end also can play high definition or very clear smoothness, the MXM module has been had simultaneously, three-dimensional figure, three-dimensional visual effect, the figure is rendered, the more smooth and faster that operation software and computer aided design can move.

2. The MXM slot, namely Mobile PCI Express Module, is a set of equipment interface based on PCI-Express interface and designed for graphic processor, is positioned in different types of computer products, is made by nVidia and multiple notebook computer manufacturers together, and adopts a communication protocol compatible with PCI-Express, so that the MXM slot can be used for all drawing cores supporting PCI-Express specification and chip sets supporting PCI-Express drawing interface, and can shorten the period of product design, and manufacturers can provide MXM Module products with different grades according to different requirements of users, and the users can upgrade MXM modules by themselves in the future according to requirements without replacing the whole computer.

Drawings

Fig. 1 is the utility model relates to an overall structure schematic diagram of education meeting all-in-one mainboard.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an education meeting all-in-one mainboard, including the mainboard body, PCIE 16X MXM slot has been installed to mainboard body upside, the built-in CPU that is equipped with of PCIE 16X MXM slot, mainboard body upside and be located the CPU right side and be equipped with in proper order with the corresponding WIFI slot of CPU, SSD slot, network controller, network transformer, RJ45 interface, VGA interface, HDMI interface and USB interface, mainboard body upside and be located the CPU left side and install in proper order with the corresponding DDR4 SO-slot of CPU DIMM, JAE TX24 socket, DC interface, mainboard body upside and be located the CPU below and install in proper order with the corresponding MXM slot of CPU, SATA connector, F _ USB contact pin and WIFI module, the mainboard body and install the above-mentioned MXM module of constituteing together of all structures such as CPU on the mainboard body, MXM slot.

In this embodiment, the CPU is a CPU chip capable of providing a 16lane PCIE signal, for example, a CPU chip of an Intel Sky Lake-U model has a PCIE X16 signal and is connected to an MXM slot through different pin definitions of PCIE, the motherboard body is a PCB board, the USB interface includes two USB3.0 interfaces and one USB2.0 interface, the MXM module all uses a PCI-E16X signal directly pulled from the CPU, the MXM slot of the MXM module includes an MXM-HE interface, and two more pins are included in the MXM-HE interface, the two pins can directly get power from a battery or other power input devices, the MXM module directly gets power through a DC interface, and the power supply standard is 5V.

Specifically, PCI-E16X signals are adopted by the MXM modules, the PCI-E16X signals are directly pulled out from the CPU, the modules need to directly get electricity from slots for power supply, the power supply standard is 5V, two extra pins in the MXM-HE are equivalent to independent power supply units in a desktop display card, the system can directly get electricity from a battery or other power input devices, and better power supply guarantee is provided for the MXM modules.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The integrated mainboard for the education conference comprises a mainboard body and is characterized in that PCIE 16X MXM slots are formed in the upper side of the mainboard body, CPUs are arranged in the PCIE 16X MXM slots, a WIFI slot, an SSD slot, a network controller, a network transformer, RJ45 interfaces, VGA interfaces, HDMI interfaces and USB interfaces are sequentially arranged on the upper side of the mainboard body and on the right side of the CPUs, DDR4SO-DIMM slots, JAE TX24 sockets and DC interfaces are sequentially arranged on the upper side of the mainboard body and on the left side of the CPUs, MXM slots, SATA connectors, F _ USB pins and WIFI modules are sequentially arranged on the upper side of the mainboard body and below the CPUs, and MXM modules are formed by the mainboard body and all the structures such as the CPUs and the MXM slots which are installed on the mainboard body.

2. The integrated educational conference machine mainboard of claim 1, wherein: the CPU is a CPU chip capable of providing 16lane PCIE signals, such as a CPU chip with the model of Intel Sky Lake-U, the CPU chip with the model of Intel Sky Lake-U is provided with PCIE X16 signals, and is connected with the MXM slot through different pin definitions of PCIE.

3. The integrated educational conference machine mainboard of claim 1, wherein: the main board body is a PCB board.

4. The integrated educational conference machine mainboard of claim 1, wherein: the USB interface comprises two USB3.0 interfaces and one USB2.0 interface.

5. The integrated educational conference machine mainboard of claim 1, wherein: and the MXM modules all adopt PCI-E16X signals directly pulled out from a CPU.

6. The integrated educational conference machine mainboard of claim 1, wherein: the MXM slot of the MXM module comprises an MXM-HE interface, two more pins are arranged in the MXM-HE interface, and the two pins can directly get electricity from a battery or other power input equipment.

7. The integrated educational conference machine mainboard of claim 1, wherein: the MXM module directly gets electricity through the DC interface, and the power supply standard is 5V.

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