CN221103620U - Multifunctional main board based on processor - Google Patents

Abstract

The utility model relates to a multifunctional main board based on a processor, which belongs to the technical field of computer components, and comprises a main board body and further comprises: the main board core controller comprises a Feiteng D2000, a Feiteng X100 bridge chip, a DDR4SODIMM slot, a gigabit network conversion module, a serial port level conversion module I, EC management chip, a BIOS chip, an RTC chip, a PCI E board-to-board connector I, NVME hard disk connector and a MINI PCI E connector; the Feiteng D2000 is respectively connected with the Feiteng X100 bridge chip, the DDR4SODIMM slot, the gigabit network conversion module, the serial port level conversion module I, EC management chip, the BIOS chip, the RTC chip, the PCI E board-to-board connector I, NVME hard disk connector and the MINI PCI E connector. The connector is connected with external equipment, and is matched with the function expansion boards to realize the functions of host control, function expansion, information transmission and information acquisition, and the main board is internally integrated with a power supply design, a bridge chip expansion interface and high-performance LPDDR4X video memory particles, and is matched with the function conversion circuits, so that the diversity of equipment interfaces and the stability and reliability of equipment are greatly improved.

Description

Multifunctional main board based on processor

Technical Field

The utility model relates to the technical field of computer components, in particular to a multifunctional main board based on a processor.

Background

With the advent of the big data age, the development of industrial technology has penetrated into various industries of our daily life, and especially in the background of the big data age, the requirement of the industrial control field on the data operation speed is also higher and higher. In the field of industrial control, the performance and stability of processors are critical to real-time data processing and control operations.

The multifunctional motherboard is used as one of the core components of the computer system and is used for connecting and managing various hardware devices. There is a certain relation between the multifunctional main board and the requirement of the industrial control field on the data operation speed. In the field of industrial control, real-time data processing and control operation need to be completed in a short time, and the requirement on data operation speed is higher and higher. The processor is used as a main calculation and operation unit, and the performance of the processor can have an important influence on the data operation speed of the whole system. In order to meet the requirement of the industrial control field on the data operation speed, the multifunctional main board needs to be provided with a processor with stronger performance.

A more powerful processor can provide higher computational power and speed of operation so that real-time data processing and control operations can be accomplished more quickly. In addition, the multi-function motherboard is required to have high stability and reliability to ensure that the industrial control system can operate for a long time and maintain efficient data processing.

Therefore, the multifunctional motherboard meets the requirements of the industrial control field on the processor with stronger performance, and simultaneously needs to ensure the stability and reliability of the processor. Therefore, the data operation speed and the data processing capacity of the industrial control system can be ensured to meet the requirements of real-time performance and accuracy.

The multifunctional main board in the prior art has strong pertinence of size design, interface design and power supply design, and one type of multifunctional main board can only be applied to certain specific products, has strong singleness, can cause incompatibility of certain specific hardware or software, further causes that the products need additional configuration and debugging when in use, has strong limitation and poor compatibility, and cannot meet the requirements of different users.

Disclosure of utility model

In order to meet market demands and solve the problems of strong limitation, poor compatibility and single interface of the existing products, the utility model provides a multifunctional mainboard based on a processor, which comprises a mainboard body and further comprises: the main board core controller comprises a Feiteng D2000, a Feiteng X100 bridge chip, a DDR4 SODIMM slot, a gigabit network conversion module, a serial port level conversion module I, EC management chip, a BIOS chip, an RTC chip, a PCIE board-to-board connector I, NVME hard disk connector and a MINI PCIE connector;

The Feiteng D2000 is respectively connected with the Feiteng X100 bridge chip, the DDR4 SODIMM slot, the gigabit network conversion module, the serial port level conversion module I, EC management chip, the BIOS chip, the RTC chip, the PCIE board-to-board connector I, NVME hard disk connector and the MINI PCIE connector.

Further, the Feiteng X100 bridge chip is connected with LPDDR4X video memory particles, a power conversion module, a USB2.0 signal board internal connector, a USB3.0 standard connector, a DP standard connector, an eDP signal board internal connector, an audio conversion module, a serial port level conversion module II, a key indicator connector, a SATA hard disk connector and a PCIE board-to-board connector II.

Further, the gigabit network conversion module is connected with a gigabit network port standard connector.

Further, the serial port level conversion module I is connected with an in-board connector I;

The serial port level conversion module II is connected with an in-board connector II.

Further, the EC management chip is connected with a whole board signal control.

Further, the power conversion module is connected with a whole-board power supply.

Further, the audio conversion module is connected with an audio standard connector.

Further, the audio standard connector employs a 3.5mm audio standard connector.

The utility model has the beneficial effects that:

The main board body is provided with a high-performance Feiteng D2000 chip and is matched with a Feiteng X100 bridge chip to expand various functional interfaces; the connector is connected with external equipment, and the functions of host control, function expansion, information transmission, information acquisition and the like are realized by matching with the function expansion boards, and the power supply design, the bridge chip expansion interface and the high-performance LPDDR4X video memory particles are integrated in the main board, so that the diversity of equipment interfaces and the stability and reliability of equipment are greatly improved by matching with the function conversion circuits.

These and other objects, features and advantages of the present utility model will become more fully apparent from the following detailed description.

Drawings

Fig. 1 shows a schematic topology of a processor-based multi-functional motherboard of the present utility model.

Fig. 2 shows a partial schematic view of a processor-based multi-functional motherboard of the present utility model.

Fig. 3 shows a schematic structural diagram of a flying X100 bridge chip and its connectors of the processor-based multifunctional motherboard of the present utility model.

Fig. 4 shows a schematic structural diagram of a processor-based multifunctional motherboard according to the present utility model.

Reference numerals: 1-Feiteng D2000, 101-DDR4 SODIMM slot, 102-gigabit network conversion module, 1021-gigabit network standard connector, 103-serial port level conversion module I, 1031-in-board connector I,104-EC management chip, 1041-whole board signal control, 105-BIOS chip, 106-RTC chip, 107-PCIE board-to-board connector I,108-NVME hard disk connector, 109-MINI PCIE connector, 2-Feiteng X100 bridge chip, 201-power conversion module, 2011-whole board power supply, 202-USB2.0 signal board-to-board connector, 203-USB3.0 standard connector, 204-DP standard connector, 205-eDP signal board-to-board connector, 206-audio conversion module, 2061-in-audio standard connector, 207-serial port level conversion module II, 2071-in-board connector II, 208-key indicator light connector, 209-SATA connector, 210-PCIE board connector II,3-LPDDR4X display device.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

It will be appreciated by those skilled in the art that in the disclosure of the present specification, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, the above terms should not be construed as limiting the present utility model.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 4, a multi-functional motherboard based on a processor according to a preferred embodiment of the present utility model will be described in detail below, the multi-functional motherboard including a motherboard body, further including: the motherboard core controller comprises a Feiteng D20001, a Feiteng X100 bridge chip 2, a DDR4 SODIMM slot 101, a gigabit network conversion module 102, a serial port level conversion module I103, an EC management chip 104, a BIOS chip 105, an RTC chip 106, a PCIE board-to-board connector I107, an NVME hard disk connector 108 and a MINI PCIE connector 109. The Feiteng D20001 is respectively connected with the Feiteng X100 bridge chip 2, the DDR4 SODIMM slot 101, the gigabit network conversion module 102, the serial port level conversion module I103, the EC management chip 104, the BIOS chip 105, the RTC chip 106, the PCIE board-to-board connector I107, the NVME hard disk connector 108 and the MINI PCIE connector 109.

The gigabit network conversion module 102 is connected to a gigabit network port standard connector 1021. The serial port level conversion module I103 is connected with an on-board connector I1031, and the serial port level conversion module II207 is connected with an on-board connector II2071. The EC management chip 104 is connected with the full board signal control 1041. The power conversion module 201 is connected to a full board power supply 2011.

The main board body is provided with a high-performance Feiteng D20001 and is matched with a Feiteng X100 bridge chip 2, and a plurality of functional interfaces are expanded. Feiteng D2000 is a first domestic server processor adopting an autonomous architecture, is a server processor with high performance and high energy efficiency, and is suitable for various large-scale data processing and computing tasks. It is manufactured using a 7nm process with a main frequency of 2.7GHz and a three level cache of 8MB using a 32 core 64 thread design. It supports DDR4 memory and PCIe 4.0 buses, and can provide excellent memory throughput and data transmission speed. The Feiteng D2000 has lower power consumption and high energy efficiency, and is suitable for the fields of high-performance calculation and servers. The method supports the virtualization technology and can meet the requirement of large-scale data processing. In addition, feiteng D2000 has stronger security performance, support hardware encryption and virtualization and isolation.

The Feiteng X100 bridge chip 2 is a high-performance and low-power-consumption multifunctional processor chip set which is independently researched and developed in China, adopts a 64-bit architecture and integrates a plurality of functional modules such as a plurality of processor cores, a high-performance graphic processor, a memory controller, a PCI Express controller and the like. The design of the main board adopts derating design, redundancy design, isolation design, fault tolerance design and the like, so that the stability and the reliability of the main board are greatly improved.

The audio conversion module 206 is connected with an audio standard connector 2061, and the audio standard connector 2061 adopts a 3.5mm audio standard connector. The audio standard connector 2061 is used to connect data transmission and signal control between audio devices. The earphone or the loudspeaker can be connected to a mobile phone, a computer or an audio player through a 3.5mm audio jack or an RCA jack, so that audio output is realized. The USB3.0 standard connector 203 is used to access USB3.0 enabled devices and is compatible with USB 2.0 and USB1.1 devices. The gigabit portal standard connector 1021 is used for connecting network devices. The DP standard connector 204 is used to connect a display having a DP interface. The SATA hard disk connector 209 is used to access a SATA hard disk.

The USB2.0 signal board connector 202 is used for connecting communication between the USB device and the main control chip inside the electronic device, and is an interface for transmitting USB2.0 signals and power supply on the circuit board. The eDP signal board internal connector 205 is an internal digital interface based on the Display Port architecture and protocol. The MINI PCIE connector 109 is used to connect various expansion devices and modules. The PCIE board-to-board connector I107 and the PCIE board-to-board connector II210 provide high-speed and reliable data transmission channels, which are used for connecting different circuit boards, so as to implement system-level data exchange and function expansion.

Referring to fig. 1, the flying X100 bridge chip 2 is connected to LPDDR4X video memory particles 3, a power conversion module 201, a USB2.0 signal board connector 202, a USB3.0 standard connector 203, a DP standard connector 204, an eDP signal board connector 205, an audio conversion module 206, a serial level conversion module II207, a key indicator connector 208, a SATA hard disk connector 209, and a PCIE board-to-board connector II210.LPDDR4X video memory particle 3, power conversion module 201, USB2.0 signal inboard connector 202, USB3.0 standard connector 203, DP standard connector 204, eDP signal inboard connector 205, audio conversion module 206, serial port level conversion module II207, button pilot lamp connector 208, SATA hard disk connector 209, PCIE board-to-board connector II210 connect Feiteng X100 bridge chip 2 through each bus, and send information to Feiteng X100 bridge chip 2, feiteng X100 bridge chip 2 statistics data that each functional module returned, and communicate with Feiteng D20001 through PCIEX16 bus, feiteng D20001 gathers the processing after sending various instruction signals to Feiteng X100 bridge chip 2 through PCIEX16 bus, feiteng X100 bridge chip 2 gathers the instruction and processes the back instruction, each functional module sends the instruction that Feiteng D20001 passed to each interface connection's equipment, and accomplish the communication.

The PCIE signal is mainly used to extend a multifunctional interface, such as an independent graphics card interface, a USB interface, a SATA hard disk interface, a gigabit network port, a WIFI, a 4G, a serial port, and other functional interfaces. The DP and EDP signals are mainly used for display output for the user to operate the graphical interface. USB signals are often used to connect terminal devices, such as a USB disk, a keyboard, a mouse, etc. The NVME signal and SATA signal are used for data storage and data interaction of the device. The MINI PCIE signal is mainly used for expanding external interfaces, such as gigabit network interfaces, serial interfaces, WIFI, 4G and other functional interfaces. The PS2 signal is mainly used to link older external terminals, such as a keyboard, a mouse, etc. Serial signals are mainly communicated with other serial devices. The audio signal is mainly responsible for outputting device sound to the outside and receiving MIC audio input. The gigabit portal is mainly responsible for linking and interacting with external networks. The key indicator light signal is mainly used for facilitating the operation of a user and indicating various states of the host.

The scheme of the multi-interface high-performance main control equipment can be provided by matching with each function expansion board, and can be applied to various reinforced series products such as reinforced computers, reinforced notebooks, reinforced integrated machines, reinforced portable machines and the like, so that more possibilities and diversity are provided for autonomous controllability of domestic information products.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are by way of example only and are not limiting. The advantages of the present utility model have been fully and effectively realized. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments of the utility model may be modified or practiced without departing from the principles described.

Claims (8)

1. The utility model provides a multi-functional mainboard based on treater, includes the mainboard body, its characterized in that still includes: motherboard core controller Feiteng D2000 (1), feiteng X100 bridge chip (2), DDR4 SODIMM slot (101),

The system comprises a gigabit network conversion module (102), a serial port level conversion module I (103), an EC management chip (104), a BIOS chip (105), an RTC chip (106), a PCIE board-to-board connector I (107), an NVME hard disk connector (108) and a MINIPCIE connector (109);

The Feiteng D2000 (1) is respectively connected with the Feiteng X100 bridge chip (2), the DDR4 SODIMM slot (101), the gigabit network conversion module (102), the serial port level conversion module I (103), the EC management chip (104), the BIOS chip (105), the RTC chip (106), the PCIE board-to-board connector I (107), the NVME hard disk connector (108) and the MINIPCIE connector (109).

2. The processor-based multi-functional motherboard of claim 1, wherein the flying X100 bridge chip (2) is connected with an LPDDR4X video memory granule (3), a power conversion module (201), a USB2.0 signal board connector (202), a USB3.0 standard connector (203), a DP standard connector (204), an eDP signal board connector (205), an audio conversion module (206), a serial level conversion module II (207), a key indicator connector (208), a SATA hard disk connector (209), and a PCIE board-to-board connector II (210).

3. The processor-based multi-functional motherboard of claim 2, wherein the gigabit network conversion module (102) is connected with a gigabit gateway standard connector (1021).

4. A processor-based multi-functional motherboard as recited in claim 3, wherein the serial level conversion module I (103) is connected with an on-board connector I (1031);

the serial port level conversion module II (207) is connected with an in-board connector II (2071).

5. The processor-based multi-functional motherboard of claim 1, wherein the EC management chip (104) is connected with a full board signal control (1041).

6. The processor-based multi-functional motherboard of claim 5, wherein the power conversion module (201) is coupled to a full board power supply (2011).

7. The processor-based multi-function motherboard of claim 6, wherein the audio conversion module (206) is connected with an audio standard connector (2061).

8. The processor-based multi-function motherboard of claim 7, wherein the audio standard connector (2061) employs a 3.5mm audio standard connector.