CN215006450U - Feiteng X100 bridge piece embedding mainboard - Google Patents

Abstract

The application discloses Feiteng X100 bridgework embedding mainboard includes: the Feiteng processor is respectively connected with a Feiteng X100 bridge chip, a DDR4 internal memory module, a first level conversion module, a first audio codec, a BIOS chip, a second level conversion module, a third level conversion module and a PHY chip; the Feiteng X100 bridge plate is respectively connected with the display interface, the PCIe Slot interface, the SATA interface, the fan control interface and the data storage; the EC module is respectively connected with the Feiteng processor and the Feiteng X100 bridge plate; the DDR4 memory module is connected with the first level shift module. The embedded mainboard of this application is based on feiteng treater and feiteng X100 bridgeware, supports audio and video function and mainboard basic control function, still possesses multiple interfaces such as PCIe and SATA simultaneously, conveniently is connected with external equipment, still connects the EC module, is convenient for customize at any time and modifies various subprograms, and is compatible good, and is multiple functional, because hardware independently produces the design, can avoid because of various hardware and software bugs that hardware equipment black box leads to, has improved security and reliability.

Description

Feiteng X100 bridge piece embedding mainboard

Technical Field

The utility model relates to a computer hardware technical field, in particular to Feiteng X100 bridgeware embedding mainboard.

Background

With the rapid development of computers, computer technologies are applied to the civil field on a large scale, and in the industrial field, by using a large amount of automation equipment and artificial intelligence equipment, the production efficiency is greatly improved, and great profits are brought to enterprises.

With the further and deep development of informatization in China, the information security problem is increasingly emphasized. In order to promote the information security construction of China, the requirement for localization of information security products is more and more urgent. The most important part in the information security product is the problem of information security of the embedded system, and an important component in the embedded system is the processor, so that the security of the processor kernel determines the security performance of the whole embedded system.

However, most of the embedded motherboards used in the industry of industrial control computers at present are foreign brands, and the embedded motherboards may have certain security holes, but due to the black box characteristic of the kernel in the embedded motherboard, technicians in China are difficult to make up the holes, and the potential safety hazard is difficult to eliminate.

For this reason, a more secure embedded motherboard is required.

SUMMERY OF THE UTILITY MODEL

In view of this, an object of the present invention is to provide a soar X100 bridge embedded motherboard, which improves safety. The specific scheme is as follows:

a FT X100 bridgework embedded motherboard comprising: the system comprises a Feiteng processor, a Feiteng X100 bridge chip, an EC module, a DDR4 internal memory module, a first level conversion module, a first audio codec, a BIOS chip, a second level conversion module, a third level conversion module, a PHY chip, a display interface, a PCIe Slot, an SATA interface, a fan control interface and a data storage device;

the Feiteng processor is respectively connected with the Feiteng X100 bridge chip, the DDR4 memory module, the first level conversion module, the first audio codec, the BIOS chip, the second level conversion module, the third level conversion module and the PHY chip;

the Feiteng X100 bridge chip is respectively connected with the display interface, the PCIe Slot, the SATA interface, the fan control interface and the data storage;

the EC module is respectively connected with the Feiteng processor and the Feiteng X100 bridge piece;

the DDR4 memory module is connected with the first level conversion module.

Optionally, the memory card further includes a first memory card interface connected to the second level shift module.

Optionally, the first level shift module is configured to be connected to an EEPROM;

the third level conversion module is used for being connected with an RTC clock;

and the PHY chip is used for providing an RJ45 interface.

Optionally, the apparatus further comprises a second audio codec connected to the Feiteng X100 bridge.

Optionally, the device further comprises a second memory card interface connected with the Feiteng X100 bridge piece.

Optionally, the FT processors are respectively connected with the FT X100 bridge pieces through PCIE3.0X16 interfaces.

Optionally, the EC module is connected to the FT processor and the FT X100 bridge plate through UART, LPC, GPIO, and CAN interfaces, respectively.

Optionally, the first Audio codec is connected to the FT processor through an HD Audio interface, and the second Audio codec is connected to the FT X100 bridge via an HD Audio/I2S interface.

Optionally, the second memory card interface is connected to the FT X100 bridge piece through an SD3.0 or SDIO3.0 or emmc5.0 interface.

Optionally, the DDR4 memory module is connected to the first level shift module through an SPD interface.

The utility model discloses in, the X100 bridgeware embedding mainboard of soaring, include: the system comprises a Feiteng processor, a Feiteng X100 bridge chip, an EC module, a DDR4 internal memory module, a first level conversion module, a BIOS chip, a second level conversion module, a third level conversion module, a PHY chip, a display interface, a PCIe Slot, a SATA interface, a fan control interface and a data storage device; the Feiteng processor is respectively connected with a Feiteng X100 bridge chip, a DDR4 internal memory module, a first level conversion module, a first audio codec, a BIOS chip, a second level conversion module, a third level conversion module and a PHY chip; the Feiteng X100 bridge plate is respectively connected with the display interface, the PCIe Slot interface, the SATA interface, the fan control interface and the data storage; the EC module is respectively connected with the Feiteng processor and the Feiteng X100 bridge plate; the DDR4 memory module is connected with the first level shift module.

The utility model provides an embedding mainboard of soaring treater based on domestic independently research and development, support audio and video function, and possess host regulatory function such as BIOS and fan control, multiple interfaces such as still possess PCIe and SATA simultaneously, it is convenient to be connected with external equipment, still connect the EC module, be convenient for at any time through the customization of EC module and modify various subprograms, compatibility is good, multiple functional, and simultaneously, hardware is whole can be for independently producing the design, technical staff is controllable completely, can avoid because of various hardware and software leak that the black box of hardware equipment leads to, security and reliability have been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of a main board embedded with a soar X100 bridge according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model discloses flying X100 bridgework embedding mainboard, it is shown with reference to figure 1 that this mainboard includes: the system comprises a Feiteng processor 1, a Feiteng X100 bridge chip 2, an EC module 3 (easy language module), a DDR4 memory module 4, a first level conversion module 5, a first audio codec 6, a BIOS chip 7, a second level conversion module 8, a third level conversion module 9, a PHY chip 10, a display interface 11, a PCIe Slot12 (a PCIe Slot, a high-speed serial computer expansion bus Slot), a SATA interface 13, a fan control interface 14 and a data storage 15;

the Feiteng processor 1 is respectively connected with a Feiteng X100 bridge chip 2, a DDR4 memory module 4, a first level conversion module 5, a first audio codec 6, a BIOS chip 7, a second level conversion module 8, a third level conversion module 9 and a PHY chip 10;

the Feiteng X100 bridge chip 2 is respectively connected with a display interface 11, a PCIe Slot12, an SATA interface 13, a fan control interface 14 and a data memory 15;

the EC module 3 is respectively connected with the Feiteng processor 1 and the Feiteng X100 bridge plate 2;

the DDR4 memory module 4 is connected to the first level shift module 5.

Specifically, the FT processor 1 is connected to the FT X100 bridge chip 2 through PCIE3.0X16 interfaces, the EC module 3 is connected to the FT processor 1 and the FT X100 bridge chip 2 through UART (Universal Asynchronous Receiver/Transmitter), LPC (Low pin count Bus), GPIO (General-purpose input/output), and CAN interfaces, the DDR4 memory module 4 is connected to the first level conversion module 5 through an SPD interface (SERIAL PRESENCE DETECT), the DDR4 memory module 4 is connected to the FT processor 1 through a DDR interface, and the first level conversion module 5 is connected to the FT processor 1 through an I2C interface.

Specifically, the first Audio codec 6 is connected to the FT processor 1 through an HD Audio interface (High Definition Audio, High fidelity Audio), and the first Audio codec 6 can be externally connected to a microphone and a speaker to provide Audio input and output functions. The BIOS chip 7 is connected with the Feiteng processor 1 through a QSPI interface, the PHY chip 10 is connected with the Feiteng processor 1 through an RGMII interface, and the display interface 11 is connected with the Feiteng X100 bridge chip 2 through a video decoder and a DisplayPort1.4 interface to provide a video output function.

Specifically, the PCIe Slot12 is connected to the feiteng X100 bridge 2 through the PCIe3.0 channel, which provides a PCIe interface as fast as possible, and the SATA interface 13 is also designed to support the diversification of interfaces and improve the compatibility of the motherboard, and the SATA interface 13 is connected to the feiteng X100 bridge 2 through the SATA3.0 channel.

Specifically, the fan control Interface 14 is connected to the FT X100 bridge chip 2 through a PWM Interface, the data memory 15 is connected to the FT X100 bridge chip 2 through an ONFI2.2 Interface (ONFI, Open NAND Flash Interface, Open NAND Flash memory Interface), and the second level conversion module 8 is connected to the FT processor 1 through an SD2.0 Interface.

It is visible, the utility model provides a Feiteng treater 1's embedding mainboard based on homemade independently research and development, support audio and video function, and possess host regulation function such as BIOS and fan control, multiple interfaces such as still possess PCIe and SATA simultaneously, it is convenient to be connected with external equipment, still connect EC module 3, be convenient for at any time through the customization of EC module 3 and modify various subprograms, compatibility is good, multiple functional, and simultaneously, hardware is whole can be for independently producing the design, technical staff is controllable completely, can avoid because of various hardware and software bugs that hardware equipment black box leads to, security and reliability have been improved.

Further, the first level shift module 5 is configured to be connected to an EEPROM (Electrically Erasable and Programmable read only memory); the third level conversion module 9 is used for being connected with the RTC clock; a PHY chip 10 for providing an RJ45 interface; in addition, a second level conversion module 8 connected with the first memory card interface 16, a second audio codec 17 connected with the Feiteng X100 bridge piece 2, and a second memory card interface 18 connected with the Feiteng X100 bridge piece 2 can be further included.

Further, the second Audio codec 17 is connected to the FT X100 bridge 2 through an HD Audio/I2S interface, the second Memory Card interface 18 is connected to the FT X100 bridge 2 through an SD3.0(SD, Secure Digital Memory Card/SD Card) or SDIO3.0(SDIO, Secure Digital Input and Output) or eMMC5.0 interface (eMMC, Embedded Multi Media Card), and the third level conversion module 9 is also connected to the FT processor 1 through an I2C interface.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A Feiteng X100 bridge slice embedded mainboard, characterized by includes: the system comprises a Feiteng processor, a Feiteng X100 bridge chip, an EC module, a DDR4 internal memory module, a first level conversion module, a first audio codec, a BIOS chip, a second level conversion module, a third level conversion module, a PHY chip, a display interface, a PCIe Slot, an SATA interface, a fan control interface and a data storage device;

the Feiteng processor is respectively connected with the Feiteng X100 bridge chip, the DDR4 memory module, the first level conversion module, the first audio codec, the BIOS chip, the second level conversion module, the third level conversion module and the PHY chip;

the Feiteng X100 bridge chip is respectively connected with the display interface, the PCIe Slot, the SATA interface, the fan control interface and the data storage;

the EC module is respectively connected with the Feiteng processor and the Feiteng X100 bridge piece;

the DDR4 memory module is connected with the first level conversion module.

2. The Feiteng X100 bridge chip embedded motherboard according to claim 1, further comprising a first memory card interface connected to said second level shift module.

3. The Feiteng X100 bridge embedded motherboard of claim 2, wherein said first level shift module is configured to connect to an EEPROM;

the third level conversion module is used for being connected with an RTC clock;

and the PHY chip is used for providing an RJ45 interface.

4. The Feiteng X100 bridgework embedded motherboard of claim 3, further comprising a second audio codec connected to the Feiteng X100 bridgework.

5. The Feiteng X100 bridge embedded motherboard as recited in claim 4, further comprising a second memory card interface connected to said Feiteng X100 bridge.

6. The Feiteng X100 bridge embedded mainboard of claim 5, wherein the Feiteng processors are respectively connected with the Feiteng X100 bridge through PCIE3.0X16 interfaces.

7. The Feiteng X100 bridgework embedded motherboard of claim 6, wherein the EC module is connected with the Feiteng processor and the Feiteng X100 bridgework through UART, LPC, GPIO and CAN interfaces, respectively.

8. The Feiteng X100 bridgework embedded motherboard of claim 7, wherein said first Audio codec is connected to said Feiteng processor via an HD Audio interface, and said second Audio codec is connected to said Feiteng X100 bridgework via an HD Audio/I2S interface.

9. The Feiteng X100 bridge embedded motherboard of claim 5, wherein the second memory card interface is connected to the Feiteng X100 bridge via SD3.0 or SDIO3.0 or eMMC5.0 interface.

10. The Feiteng X100 bridge embedded motherboard according to any one of claims 1 to 9, wherein the DDR4 memory module is connected with the first level conversion module through SPD interface.

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