CN112637534A - Wireless network storage server - Google Patents
Wireless network storage server Download PDFInfo
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- CN112637534A CN112637534A CN202011487588.XA CN202011487588A CN112637534A CN 112637534 A CN112637534 A CN 112637534A CN 202011487588 A CN202011487588 A CN 202011487588A CN 112637534 A CN112637534 A CN 112637534A
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- wireless network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/76—Television signal recording
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/22—Adaptations for optical transmission
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Abstract
The invention relates to the technical field of storage servers, in particular to a wireless network storage server. The wireless network sharing system comprises a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card, can solve the problem that an NAS storage or storage server in the market does not directly support wireless network application, simultaneously realizes the transmission rate of 2.4Gbps, greatly improves the transmission bandwidth and the transmission rate of wireless network sharing compared with the traditional storage which provides wireless network sharing with the rate of less than 1Gbps by connecting a Wi-Fi router, meets the requirement that a wireless terminal is networked or connected with the wireless storage server through a wireless network, and realizes high-definition, 4/8K ultra-high-definition program making, recording/playing or efficient and high-speed file interaction.
Description
Technical Field
The invention relates to the technical field of storage servers, in particular to a wireless network storage server.
Background
Various broadcast stations, media convergence centers and film and television production companies usually adopt NAS storage or a storage server as a solution for networking production and file interaction of shared material storage. Common shared program production modes are mostly Base-T twisted pair networks, SFP optical fiber networks or thunder and lightning 2/thunder and lightning 3 interface connecting lines. Besides the SFP/Base-T network mode, the common file interaction also adopts corresponding connection modes matched with interfaces such as thunder 2/3, USB1.0/2.0/3.0/3.1/3.2, Type-C and the like to carry out file interaction. The disadvantages of this type of NAS storage or storage server system are mainly reflected in:
1. the inherent characteristics of wired physical connection of a wired network (such as Base-T, SFP and thunder 2/3) have the problems of troublesome and bulky wiring, structural reconstruction related wiring, easy aging damage of cables, loose and faulty interfaces, troublesome maintenance and troubleshooting and the like.
2. Wired connection, the wireless network function advantages of the terminal device with the wireless network function cannot be directly and fully exerted, such as: the wireless networking connection function of wireless terminal equipment such as a notebook computer, an intelligent television, a mobile phone, a tablet personal computer, a workstation, a camera and a digital camera realizes that a plurality of wireless terminal equipment are wirelessly connected to a storage server while being free from the restriction of a wire line, and the applications of program making and sharing or high-speed file interaction (such as uploading/downloading), recording, playing and the like are completed.
3. Conventional interfaces such as thunder 2/3 or USB1.0/2.0/3.0/3.1/3.2/Type-C are adopted to perform material file interaction (uploading or downloading) with equipment supporting a wireless network, wired connection is required, and the distance and space are also limited. The application is not only troublesome and inconvenient, but also the equipment is easily damaged by live hot plug, and the general high-speed interfaces are not configured much, do not support multiple cooperative work and have low efficiency.
4. The switching mode of kilomega power interface (Base-T) network cables is extremely low in speed, extremely complex in wiring environment, overstaffed and difficult in later operation and maintenance.
5. The method adopts a gigabit electric port (Base-T) network cable to connect with a wireless routing device (Wi-Fi), although wireless connection sharing with a terminal device can be realized, wired connection is required, connection is troublesome, more devices and connections are easy to break down, debugging is troublesome, the sharing rate of an external wireless route is only kilomega at most, the speed is low, the efficiency is low, the compatibility of multiple platforms of the terminal is poor, the requirements of program production, playing, recording and the like of high definition, 4/8K ultra high definition and the like can not be met by adopting wireless connection for a single or multiple wireless terminals, and meanwhile, the speed and the efficiency of large file wireless network interaction (such as file uploading or downloading) are low, and the mixed platform access mixed use of a Windows/Linux/Mac OS operating system can not be supported at the same time.
6. At present, no wireless network terminal in the market adopts a wireless network networking mode or a mode of connecting an NAS storage or storage server to realize a solution for making, recording and playing programs (including a clipping proxy mode and original code format clipping) of high definition, super definition, 4-8K super definition and the like. A Wi-Fi connection mode of the wireless routing equipment is adopted, and only simple applications such as general file interaction (uploading/downloading), standard definition or high definition program playing and the like are supported.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: a wireless network storage server is provided.
In order to solve the technical problems, the invention adopts the technical scheme that:
a wireless network storage server comprises a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card; the mainboard is loaded with a server system or a PC system, the server system is a server architecture based on a centros linux open source operating system or a Windows system, and the PC system is based on a centros linux open source operating system or a Windows systemThe computer architecture based on the Windows10 operating system is characterized in that an Intel AX200 wireless network card, a hard disk backplane and an SFP optical fiber card are respectively in communication connection with a mainboard, and the Intel AX200 wireless network card is in communication connection with a peripheral wireless network terminal.
Further, the SFP optical fiber card is replaced by a Base-T network card.
Furthermore, the communication connection is established between the main board and the SFP optical fiber card through a PCI-E3.0 interface.
Further, the mainboard and the Intel AX200 wireless network card are in communication connection through a PCI-E3.0 interface.
Further, the hard disk backboard is in communication connection with the SATA/SAS machine/solid state disk.
Further, the hard disk backplane is an SFF-8643/8087/8611 hard disk backplane.
Further, the wireless network terminal is a user terminal for making, playing and shooting 4/8K ultra high definition video programs.
The invention has the beneficial effects that:
the wireless network storage server provided by the invention consists of a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card, can solve the problem that an NAS storage or storage server in the market does not directly support wireless network application, and simultaneously realizes the transmission rate as high as 2.4 Gbps.
Drawings
Fig. 1 is a schematic structural diagram of a wireless network storage server according to the present invention;
fig. 2 is a schematic diagram of an application structure of a wireless network storage server according to the present invention.
Detailed Description
In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.
Referring to fig. 1 and fig. 2, a wireless network storage server provided by the present invention includes a motherboard, an Intel AX200 wireless network card, a hard disk backplane, and an SFP optical fiber card; the mainboard is loaded with a server system or a PC system, and the clothesThe server system is a server architecture based on a centros linux open source operating system or a Windows system, and the PC system is based onThe computer architecture based on the Windows10 operating system is characterized in that an Intel AX200 wireless network card, a hard disk backplane and an SFP optical fiber card are respectively in communication connection with a mainboard, and the Intel AX200 wireless network card is in communication connection with a peripheral wireless network terminal.
From the above description, the beneficial effects of the present invention are:
the wireless network storage server provided by the invention consists of a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card, can solve the problem that an NAS storage or storage server in the market does not directly support wireless network application, and simultaneously realizes the transmission rate as high as 2.4Gps, compared with the traditional storage which provides wireless network sharing with the rate of less than 1Gbps by connecting a Wi-Fi router, the wireless network storage server greatly improves the transmission bandwidth and the transmission rate of wireless network sharing, meets the requirement that a wireless terminal is networked through a wireless network or is connected with the wireless storage server, and realizes high-definition, 4/8K ultrahigh-definition program making, recording and playing or efficient and high-speed file interaction.
Further, the SFP optical fiber card is replaced by a Base-T network card.
As can be seen from the above description, the same function can be realized by using a Base-T network card instead of an SFP optical fiber card.
Furthermore, the communication connection is established between the main board and the SFP optical fiber card through a PCI-E3.0 interface.
Further, the mainboard and the Intel AX200 wireless network card are in communication connection through a PCI-E3.0 interface.
Further, the hard disk backboard is in communication connection with the SATA/SAS machine/solid state disk.
Further, the hard disk backplane is an SFF-8643/8087/8611 hard disk backplane.
As can be seen from the above description, the SFF-8643/8087/8611 hard disk backplane specifically refers to a dedicated PCB having a plurality of hard disk interfaces, the front end of the PCB is usually 4 or more SFF8639/SATA/SAS standard hard disk interfaces, and the back end of the PCB is usually an SFF8643/8087/8611 interface including a data distribution chip, so as to achieve the function of combining and centrally outputting hard disk data.
Further, the wireless network terminal is a user terminal for making, shooting, playing and the like of 4/8K ultra-high definition video programs.
Referring to fig. 1-2, a first embodiment of the present invention is:
the invention provides a wireless network storage server, which comprises a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card, wherein the Intel AX200 wireless network card is connected with the hard disk backboard; the mainboard is loaded with a server system or a PC system, the server system is a server architecture based on a centros linux open source operating system or a Windows system, and the PC system is based on a centros linux open source operating system or a Windows systemWindows10 operating system based computer architecture;
the Intel AX200 wireless network card, the hard disk backboard and the SFP optical fiber card are respectively in communication connection with the mainboard; and the main board and the SFP optical fiber card are in communication connection through a PCI-E3.0 interface. And the mainboard is in communication connection with the Intel AX200 wireless network card through a PCI-E3.0 interface.
And the hard disk backboard is in communication connection with the SATA/SAS machine/solid state disk. The hard disk backplane is an SFF-8643/8087/8611 hard disk backplane.
And the Intel AX200 wireless network card is in communication connection with a peripheral wireless network terminal. The wireless network terminal is an 4/8K ultra-high definition video program production user terminal, and can also be a production terminal supporting a wireless network, such as a mobile phone, a tablet computer, a notebook computer, a workstation, an intelligent television and the like.
In this embodiment, the AX200 wireless network card is used as a network hardware core, and is matched with a PC system or a server system to form a high-performance wireless network shared storage server, and data access concurrency optimization, data transmission speed optimization, and terminal optimization are performed for a complex wireless network environment.
Said AX200 wireless network card, in particular toThe wireless network card customized by the AX200 new-generation wireless network card chip has the characteristics of double-frequency transmission, high-speed transmission, interference resistance, multiple sending and multiple receiving and the like;
the server system specifically refers to a server architecture based on a centros linux open source operating system or a Windows system; the PC system is specifically indicated inWindows10 operating system based personal computer architecture;
the data access concurrency optimization specifically refers to multi-frequency concurrency carried out by using a 2.4GHz +5.8GHz dual-frequency transmission technology, an OFDMA technology and an MU-MIMO technology contained in an AX200 wireless chip, so as to greatly improve the I/O performance of a wireless network environment;
the data transmission speed optimization specifically refers to the transmission rate which is close to or equal to 2400Mbps and is obtained in a 5.8GHz frequency band by using a 160MHz bandwidth supported by an AX200 wireless chip and combining an MU-MIMO technology;
the terminal optimization specifically refers to that an AX200 chip customized network card is placed into the terminal equipment by using a PCIe3.0 interface of a terminal PC or a Mini-PCIe interface of a terminal notebook computer, so that the network transmission performance of the dual-frequency 3000Mbps is obtained.
The second embodiment of the invention is as follows:
on the basis of the first embodiment, the SFP optical fiber card is replaced by a Base-T network card to realize the same function.
In summary, the wireless network storage server provided by the invention is composed of a mainboard, an Intel AX200 wireless network card, a hard disk backplane and an SFP optical fiber card, improves the performance of the wireless network storage server after combination of hardware architectures, solves the problems of limitation of wired network physical connection of the traditional NAS storage or storage server shared application, and trouble, low speed, low efficiency and the like caused by the realization of wireless connection by an external wireless router, and solves the problems of difficult wireless network storage server shared application, poor connection stability under a complex wireless network environment, insufficient wireless network transmission bandwidth, poor multi-platform terminal application compatibility, and incapability of directly supporting wireless network networking or realizing high-definition, ultra-definition and 4-8K ultra-high-definition program production (including a clipping proxy mode and original code format clipping) by an NAS storage or storage server, Recording, playing and the like.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.
Claims (7)
1. A wireless network storage server is characterized by comprising a mainboard, an Intel AX200 wireless network card, a hard disk backboard and an SFP optical fiber card; the mainboard is loaded with a server system or a PC system, the server system is a server architecture based on a centros linux open source operating system or a Windows system, and the PC system is based on a centros linux open source operating system or a Windows systemThe computer architecture based on the Windows10 operating system is characterized in that an Intel AX200 wireless network card, a hard disk backplane and an SFP optical fiber card are respectively in communication connection with a mainboard, and the Intel AX200 wireless network card is in communication connection with a peripheral wireless network terminal.
2. The wireless network storage server of claim 1, wherein the SFP fiber card is replaced with a Base-T network card.
3. The wireless network storage server of claim 1, wherein the communication connection between the motherboard and the SFP fiber card is established through a PCI-E3.0 interface.
4. The wireless network storage server of claim 1, wherein the motherboard is communicatively coupled to the intelxax 200 wireless network card via a PCI-E3.0 interface.
5. The wireless network storage server of claim 1, wherein the hard disk backplane establishes a communication connection with a SATA/SAS mechanical/solid state disk.
6. The wireless network storage server of claim 5, wherein the hard disk backplane is an SFF-8643/8087/8611 hard disk backplane.
7. The wireless network storage server of claim 1, wherein the wireless network terminal is a user terminal for making, shooting, playing and the like of 4/8K ultra high definition television programs.
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CN202011487588.XA CN112637534A (en) | 2020-12-16 | 2020-12-16 | Wireless network storage server |
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CN202011487588.XA CN112637534A (en) | 2020-12-16 | 2020-12-16 | Wireless network storage server |
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