CN220455836U - Intel ADL-S-based mainboard and computer equipment - Google Patents

Abstract

The application relates to the technical field of computers, in particular to a mainboard and computer equipment based on Intel ADL-S. The main board comprises a platform path controller chip, a power module and a processor chip based on an Intel ADL-S platform, wherein the processor chip is connected with the platform path controller chip through a DM I bus, and the platform path controller chip comprises an M.2 interface. The main board can provide a plurality of display interfaces, supports simultaneous multi-channel display output, and simultaneously provides a plurality of USB3.2 and USB2.0 ports, thereby meeting the requirements of most commercial display application scenes. In addition, the processor frequency of the processor chip based on the Intel ADL-S platform is higher, the CPU calculation power is more fully used by combining the mounted H610 chip and utilizing most ports of the H610 chip, and the main board architecture is clear, easy to integrate and convenient to popularize.

Description

Intel ADL-S-based mainboard and computer equipment

Technical Field

The application relates to the technical field of computers, in particular to a mainboard and computer equipment based on Intel ADL-S.

Background

In the prior art, most mainboards based on Intel Alder Lake platforms are desktop-level applications, the expansion interfaces are more, the cost is higher, and although the schemes of the industry on common interfaces are mature, the performance of the existing mainboard processor is limited, the performance is not strong enough, and the product iteration cannot meet the requirements of some high-load and complex application scenes. The traditional main board generally adopts a desktop-level processor and a peripheral chip, has larger power consumption and is not suitable for a low-power consumption application environment. In addition, in the field of commercial display, the number and performance of display interfaces must meet the requirements, and the motherboard needs to have a relatively strong computing power and processing power, so as to be capable of meeting the requirements of running multimedia and complex applications, and to provide a sufficient and convenient USB interface configuration according to the requirements of clients. The current commercial main board has weak adaptability to extreme environments, performance is reduced under high and low temperature environments, the technology of resisting external interference is also insufficient, and a plurality of main boards do not have relatively good isolation measures, so that external equipment is easy to cause electric leakage to damage a system.

Disclosure of Invention

The embodiment of the application mainly solves the technical problem that the calculation power of the traditional commercial display main board is low.

In order to solve the technical problems, one technical scheme adopted by the embodiment of the application is as follows: provided is an Intel ADL-S based motherboard, comprising: platform path controller chip, power module, and the processor chip based on Intel ADL-S platform, the processor chip passes through DMI bus and connects platform path controller chip to be connected, wherein, the processor chip passes through LGA1700 slot and sets up on the mainboard, platform path controller chip includes M.2 interface, and M.2 interface is compatible SATA and PCIE communication, and platform path controller chip is compatible following communication protocol at least: sata, PCIe, USB;

the processor chip is provided with a display interface and a memory interface;

the processor chip is connected with a Edp/LVDS conversion chip to realize conversion of eDP signals and LVDS signals through the Edp/LVDS conversion chip and support eDP output;

the processor chip is connected with a DP/VGA conversion chip to realize the conversion of the DP signal and the VGA signal through the DP/VGA conversion chip;

the power module is used for being connected with a power supply to supply power for the main board.

Optionally, the platform path controller chip is connected with a network controller chip, so as to realize the gigabit network port function through the network controller chip.

Optionally, the motherboard is provided with a plurality of USB2.0 lines and a plurality of USB3.0 lines based on the platform path controller chip, wherein a part of the USB2.0 lines and the USB3.2 lines are used for connecting compatible USB pin interfaces of the motherboard.

Optionally, the expansion bus of the platform path controller chip is connected with a wireless communication module, and the wireless communication module supports at least one of WIFI communication or bluetooth communication.

Optionally, the platform path controller chip is connected with an audio chip, and at least two audio interaction ports are led out through the audio chip.

Optionally, the platform path controller chip is connected with an IO chip, and at least two IO interfaces are led out based on the IO chip, where the IO interfaces are used to connect with external devices.

Optionally, the external device includes a power key, a UART serial port, and a fan.

Optionally, the platform path controller chip is connected with a FALSH chip through an SPI bus.

Optionally, a system restoration port is further provided on the coastline of the motherboard, and the system restoration port is electrically connected with the processor chip.

In order to solve the technical problems, another technical scheme adopted by the embodiment of the application is as follows: a computer device is provided, which comprises the mainboard based on Intel ADL-S.

Different from the related art, the embodiment of the application provides a motherboard based on Intel ADL-S and a computer device. The main board comprises a platform path controller chip, a power module and a processor chip based on an Intel ADL-S platform, wherein the processor chip is connected with the platform path controller chip through a DMI bus, the platform path controller chip comprises an M.2 interface, and the processor chip is provided with a display interface and a memory interface; the processor chip is connected with a Edp/LVDS conversion chip to realize conversion of eDP signals and LVDS signals through the Edp/LVDS conversion chip and support eDP output; the processor chip is connected with a DP/VGA conversion chip to realize the conversion of the DP signal and the VGA signal through the DP/VGA conversion chip; the power module is used for being connected with a power supply to supply power for the main board. The main board can provide a plurality of display interfaces, supports simultaneous multi-channel display output, and simultaneously provides a plurality of USB3.2 and USB2.0 ports, thereby meeting the requirements of most commercial display application scenes. In addition, the processor frequency of the processor chip based on the Intel ADL-S platform is higher, the CPU calculation power is more fully used by combining the mounted H610 chip and utilizing most ports of the H610 chip, and the main board architecture is clear, easy to integrate and convenient to popularize.

Drawings

Fig. 1 is a schematic diagram of a motherboard based on Intel ADL-S according to an embodiment of the present application.

Detailed Description

In order to facilitate an understanding of the present application, the present application will be described in more detail below with reference to the accompanying drawings and specific examples. It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or one or more intervening elements may be present therebetween. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application in this description is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used in this specification includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an embodiment of the present application provides a motherboard based on Intel ADL-S, including: platform path controller chip, power module, and processor chip based on Intel ADL-S platform, processor chip is connected with connecting platform path controller chip through DMI bus, wherein platform path controller chip includes m.2 interface, m.2 interface compatible SATA and PCIE communication (Serial Advanced Technology Attachment, serial advanced technology attachment; and peripheral component interconnect express, high speed serial computer expansion bus standard), platform path controller chip is compatible with at least the following communication protocols: SATA, PCIE, USB. For example, the platform path controller chip is provided with an m.2 2280NVME interface, an m.2 2230 interface, etc. to support SATA multiple type interface storage device expansion.

Referring to fig. 1, a processor Chip (CPU) based on the Intel ADL-S platform may be connected to a platform path controller chip (PCH, platform Controller Hub, which is an integrated south bridge of Intel corporation) through a 4-way DMI bus, where the CPU may process graphics display and DDR memory components, and the PCH is used to connect to peripheral interface circuits. The platform path controller chip in the embodiment of the application can be an Intel H610 chip set, so that port resources of H610 can be fully utilized, and meanwhile, the Intel H610 chip set has higher bandwidth, faster storage speed, better equipment compatibility and lower power consumption on ports such as PCIE (peripheral component interface express), and has higher superiority and core competitiveness compared with other existing business display mainboards.

In this embodiment of the present application, the processor chip may be an INTEL 12th Gen PROCESSOR TDP 65W type chip, and the processor chip adopts an LGA1700 socket to support an INTEL12 generation CPU, and the power module (not shown) may be connected to a power supply to supply power to the whole motherboard. The power module may also have a voltage conversion function, for example, to provide a DC12V/19V power input to the entire motherboard based on a higher supply voltage. As shown in fig. 1, the processor chip is provided with a display interface and a memory interface, and provides a four-way display interface and a double-channel DDR4 memory as shown in the figure, and the memory supports 2x DDR4 3200MHz SO-DIMM, up to 64GB.

The processor chip is connected with a Edp/LVDS conversion chip (Edp to LVDS in the figure) and a DP/VGA conversion chip (DP to VGA in the figure), and the Edp/LVDS conversion chip and related ports can be compatible with the currently mainstream eDP and LVDS display screens in the market, realize conversion of eDP signals and LVDS signals and support eDP output; the DP/VGA conversion chip and the relevant ports can realize the conversion of the DP signal and the VGA signal. In the embodiment of the application, the Edp/LVDS conversion chip can be a chip with the model TR5511, and the DP/VGA conversion chip can be a chip with the model IT 6516.

The platform path controller chip (H610 chipset in the figure) is connected with the network controller chip (RTL 8111 in the figure) to realize the gigabit network port function through the network controller chip. For example, the RTL8111HPHY type chip has stable performance and low power consumption, and can realize the gigabit network port function by combining with an RJ45 gigabit network port and connecting to the PCH through PCIE signals.

The motherboard draws out the USB2.0 signal and the USB3.0 signal through the platform path controller chip (H610 integrated south bridge chip in the figure), for example, 4 USB3.2 and 4 USB2.0 are provided in the figure. The 3-path USB2.0 and 2-path USB3.2 signals are used for connecting compatible USB pin interfaces of the main board, and can be respectively applied to two product forms of MINIPC and a box body.

In the motherboard provided by the embodiment of the application, the expansion bus of the platform path controller chip is connected with a wireless communication module, and the wireless communication module at least supports one of WIFI communication or bluetooth communication, for example, an m.2 2230 interface can be adopted, and the wireless communication module is connected with the WIFI module or bluetooth function is realized through PCIE X1 and 1 path of USB2.0 signals.

IN the motherboard provided by the embodiment of the present application, the platform path controller chip is further connected with an Audio chip (for example, an Audio chip such as an ALC662/ALC897/ALC889S model chip/sound card illustrated IN the drawing), so that a user can change according to an actual use scenario, and the platform path controller chip is connected with the processor chip through an HDA signal, supports LINE IN/LINE OUT/SPK (1.5W), and leads OUT at least two Audio interaction ports, for example, an Audio interface and a speaker.

In the motherboard provided by the embodiment of the present application, the platform path controller chip is further connected with an IO chip, for example, an ITE8613LX type (or IT8786 type) SIO (super input output) chip illustrated in the drawing, which can support fan control and power management, and flexible configuration of GPIO, and at least two IO interfaces are led out based on the IO chip to connect with external devices, for example, a power key, a UART serial port, or a fan.

In the mainboard provided by the embodiment of the application, the platform path controller chip is also connected with the FALSH chip through the SPI bus, so that a user can conveniently update the BIOS, and meanwhile, the BIOS is compatible with a TPM module (trusted platform module), and the system security of the mainboard can be improved.

The motherboard provided by the embodiment of the application also supports a system restoration function, for example, a system restoration port (OS Recovery in the figure) is arranged on the coastline of the motherboard, so that a user can restart the system conveniently.

The mainboard that this embodiment provided still is equipped with the storage interface, is connected to the PCH through PCIE X4, or is connected to the bridge piece through SATA3.0 signal, realizes that M.2 2280SATASSD and M.2 2280NVME X4 SSD function are compatible to use.

The mainboard based on the Intel ADL-S comprises a platform path controller chip, a power module and a processor chip based on an Intel ADL-S platform, wherein the processor chip is connected with the platform path controller chip through a DMI bus, the platform path controller chip comprises an M.2 interface, and the processor chip is provided with a display interface and a memory interface; the processor chip is connected with a Edp/LVDS conversion chip to realize conversion of eDP signals and LVDS signals through the Edp/LVDS conversion chip and support eDP output; the processor chip is connected with a DP/VGA conversion chip to realize the conversion of the DP signal and the VGA signal through the DP/VGA conversion chip; the power module is used for being connected with a power supply to supply power for the main board. The main board can provide a plurality of display interfaces, supports simultaneous multi-channel display output, and simultaneously provides a plurality of USB3.2 and USB2.0 ports, thereby meeting the requirements of most commercial display application scenes. In addition, the processor frequency of the processor chip based on the Intel ADL-S platform is higher, the CPU calculation power is more fully used by combining the mounted H610 chip and utilizing most ports of the H610 chip, and the main board architecture is clear, easy to integrate and convenient to popularize.

The embodiment of the application provides a computer device, which comprises the main board based on Intel ADL-S in the embodiment, such as a commercial display host. In the field of commercial display, the number and performance of display interfaces in a computer device must meet user requirements, and a motherboard needs to have a relatively strong computing capability and processing capability, so as to be capable of meeting requirements of running multimedia and complex applications, and to provide sufficient and convenient USB interface configuration according to the needs of clients. The Intel ADL-S-based mainboard in the embodiment of the application uses the Intel ADL-S platform-based processor chip, the processor frequency is higher, and the platform path controller chip (H610 chip) is mounted, so that the resources of the H610 south bridge chip can meet the commercial display requirements while the processor with stronger performance is utilized. It can be understood that the product has the beneficial effects of the Intel ADL-S based motherboard provided by the embodiment of the present application, and technical details not described in detail in the embodiment can be seen from the Intel ADL-S based motherboard provided by the embodiment of the present application.

It should be noted that the description and drawings of the present application show preferred embodiments of the present application, but the present application may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, which are not to be construed as additional limitations on the content of the present application, but are provided for the purpose of providing a more thorough understanding of the present disclosure. The above-described features are further combined with each other to form various embodiments not listed above, and are considered to be the scope described in the present specification; further, modifications and variations of the present utility model may occur to those skilled in the art in light of the foregoing teachings, and all such modifications and variations are intended to be within the scope of the appended claims.

Claims (10)

1. A motherboard based on Intel ADL-S, comprising: platform path controller chip, power module, and processor chip based on Intel ADL-S platform, the processor chip pass through the DMI bus with platform path controller chip is connected, wherein, platform path controller chip includes M.2 interface, M.2 interface compatible SATA and PCIE communication, platform path controller chip is compatible at least following communication protocol: SATA, PCIE, USB;

the processor chip is provided with a display interface and a memory interface;

the processor chip is connected with a Edp/LVDS conversion chip to realize conversion of eDP signals and LVDS signals through the Edp/LVDS conversion chip and support eDP output;

the processor chip is connected with a DP/VGA conversion chip so as to realize the conversion of DP signals and VGA signals through the DP/VGA conversion chip;

the power module is used for being connected with a power supply to supply power for the main board.

2. The Intel ADL-S based motherboard of claim 1, wherein the platform path controller chip is connected with a network controller chip to implement gigabit portal functionality through the network controller chip.

3. The Intel ADL-S based motherboard of claim 1, wherein the motherboard is provided with a multi-way USB2.0 line and a multi-way USB3.0 line based on a platform path controller chip, wherein a portion of the USB2.0 line and the USB3.2 line are used to connect compatible USB pin interfaces of the motherboard.

4. The Intel ADL-S based motherboard of claim 1, wherein the expansion bus of the platform path controller chip is connected with a wireless communication module that supports at least one of WIFI communication or bluetooth communication.

5. The Intel ADL-S based motherboard of claim 1, wherein the platform path controller chip is connected with an audio chip and at least two audio interaction ports are led out through the audio chip.

6. The Intel ADL-S based motherboard of claim 1, wherein the platform path controller chip is connected with an IO chip, and at least two IO interfaces are led out based on the IO chip, and the IO interfaces are used for connecting with external devices.

7. The Intel ADL-S based motherboard of claim 6, wherein the external device includes a power key, UART serial port, or fan.

8. The Intel ADL-S based motherboard of claim 1, wherein the platform path controller chip is connected to a false chip through an SPI bus.

9. The Intel ADL-S based motherboard of claim 1, wherein the coastline of the motherboard is further provided with a system restore port electrically connected to the processor chip.

10. Computer device, characterized by comprising an Intel ADL-S based motherboard according to any of claims 1-9.