展讯6800H平台 application notes

6800系统监控接口通信协议1. 范围本通信协议适用范围是指CSU与监控PC间之通信协议。

2. 依据本通信协议是依据中国电信总局1999年3月「通信局（站）电源、空调及环境集中监控管理系统前端智能设备通信协议」之「开关电源系统通信协议」订定。

3. 定义与符号3.1监控模块– SM（Supervision Module）设备监控模块，此即CSU（Chroma 6802、Chroma 6803）。

3.2监控单元– SU（Supervision Unit）指局站监控计算机（PC）。

4. 监控内容6800系统是属于整流配电设备监控内容可分为三部份：交流屏（交流配电单元）、整流器、直流屏（直流配电单元）。

4.1交流屏（交流配电单元）遥测：三相输入电压、三相输入电流。

遥信：三相输入过压/欠压，缺相，开关状态。

4.2整流器遥测：整流器输出电压每个整流模块输出电流。

遥信：每个整流模块工作状态（开/关机、均/浮充、限流），故障/正常。

遥控：开/关机，均/浮充。

4.3直流屏（直流配电单元）遥测：直流输出电压、总负载电流、蓄电池充/放电电流。

遥信：直流输出电压过/压欠压、蓄电池熔丝状态、主要分路熔丝/开关故障。

5. 物理接口5.1. 串行通信口– RS-232或RS-485。

5.2. 传送信息方式–起始位1位、数据位8位、停止位1位、无同位校验。

5.3. 数据传输速率为9600 bps6. 通信方式局站内的监控单元（SU）与设备监控模块（SM）的通信为主从方式，监控单元为上位机，监控模块为下位机。

SU呼叫SM并下发命令，SM收到命令后需在500ms内返回响应讯息。

设备监控模块通过MODEM拨号方式直接与监控中心相连时，通信方式同上，发生紧急告警，设备监控模块应有主动拨号上报功能。

7. 信息类型及协议的基本格式7.1. 信息类型信息分两种类型：（1）由SU发出到SM的命令信息（简称命令信息）。

（2）由SM发出到SU的响应信息（简称响应信息）。

CAUTIONREAD ME FIRST Failure to follow these procedures will cause your system to not recognize the new CPU/Memory board.Firmware on all boards and assemblies must be at the same level as the new CPU/Memory board.Sun Fire ™ High-End and Midrange Systems UltraSPARC ® IV CPU/Memory Board Upgrade RequirementsSun Fire E25K/E20K SystemsSun Fire 15K/12K SystemsSun Fire E6900/E4900 SystemsSun Fire 6800/4800 Systems!Note –If sold as a field-replaceable unit (FRU),a CPU/Memory board is for replacement use only .FRUs must not be used to upgrade CPU performance in systems.Such usage can violate United States export regulations.Note –UltraSPARC ®IV CPU/Memory boards are not supported in Sun Fire™4810/3800systems.Only earlier versions of CPU/Memory boards are supported in Sun Fire 4810/3800systems.Additional Hardware Requirements for Sun Fire 6800/4800SystemsSun Fire™6800/4800systems require additional hardware upgrades if you upgrade to UltraSPARC IV CPU/Memory boards:■Sun Fire 6800system:upgrade all six power supplies (PS0through PS5)to part number 300-1595-xx.Also install an EMI gasket kit,part number 560-2755-xx in the card cage.■Sun Fire 4800system:upgrade all three power supplies (PS0through PS2)to part number 300-1596-xx.Also upgrade the fan trays:FT0(bottom left)to part number 540-5998-xx,FT1(top)to part number 540-5997-xx,and FT2(bottom right)to part number 540-5999-xx.Caution –The Sun Fire 6800/4800system might shut down if you do not install the additional upgrades that are required for theUltraSPARC IV CPU/Memory boards.♦To determine if the hardware upgrades are already installed:■Use the system controller showfru command to see the manufacturing record of FRU part numbers.This command is available with firmware version 5.18.1and later.■Alternatively,you can find the part numbers on the device labels.Firmware and OS Minimum RequirementsNote –If your system requires a software upgrade and a firmware upgrade,upgrade the firmware first.Upgrade the software second.Install new CPU/Memory boards only after you have upgraded the firmware and software.schostname :SC>showfru -r manrSun Fire E6900/E4900systems and upgraded Sun Fire6800/4800systems require these versions:■Firmware level5.18.1or subsequent compatible versions.■Solaris82/04Operating System or subsequent compatible versions. Sun Fire E25K/E20K systems and upgraded Sun Fire15K/12K systems require these versions:■SMS1.4.1or subsequent compatible versions.■SMS1.4.1patch1178660-04.■Solaris82/04Operating System or subsequent compatible versions. Note–Patches can be found at:Installation information,Release Notes and README files are included in the patch download.Checking Firmware on Boards and Assemblies♦When installing new CPU/Memory boards,use the showboards command to determine if the firmware needs to be updated:schostname:SC>showboards -p promsIf an update is required,use the system controller flashupdate command as shown below.Upgrading FirmwareUpgrade thefirmware and real time operating system(RTOS)images only if the image to install is different than the image that is already installed.♦To install the firmware upgrade,use the flashupdate command for your specific system.■For Sun Fire E6900/E4900or Sun Fire6800/4800systems:schostname:SC> flashupdate -f URL all rtos■For Sun Fire E25K/E20K or Sun Fire15K/12K systems:schostname:SC> flashupdate -f URL -d domain_idFor details on using the flashupdate command,refer to the system controller manual for your product.Sun Microsystems, Inc.Part No. 819-1279-10, Rev. AJanuary 2005Accessing Sun DocumentationYou can view,print,or purchase a broad selection of Sun documentation,including localized versions,at:/documentationContacting Sun Technical SupportIf you have technical questions about this product that are not answered in this document,go to:/service/contactingSun Welcomes Your CommentsSun is interested in improving its documentation and welcomes your comments and suggestions.You can submit your comments by going to:/hwdocs/feedbackPlease include the title and part number of your document with your feedback:Sun Fire High-End and Midrange Systems UltraSPARC IV CPU/Memory Board Upgrade Requirements ,part number 819-1279-10Copyright 2004Sun Microsystems,Inc.All rights e is subject to license terms.Third-party software,including font technology,is copyrighted and licensed from Sun suppliers.Portions may be derived from Berkeley BSD systems,licensed from U.of CA.Sun,Sun Microsystems,the Sun logo,and Solaris are trademarks or registered trademarks of Sun Microsystems,Inc.in the U.S.and in other countries.All SPARC trademarks are used under license and are trademarks or registered trademarks of SPARC International,Inc.in the U.S.and in other ernment Rights—Commercial ernment users are subject to the Sun Microsystems,Inc.standard license agreement and applicable provisions of the FAR and its supplements.Copyright 2004Sun Microsystems,Inc.Tous droits réservés.Distribuépar des licences qui en restreignent l’utilisation.Le logiciel détenu par des tiers,et qui comprend la technologie relative aux polices de caractères,est protégépar un copyright et licenciépar des fournisseurs de Sun.Des parties de ce produit pourront être dérivées des systèmes Berkeley BSD licenciés par l’Universitéde Californie.Sun,Sun Microsystems,le logo Sun,et Solaris sont des marques de fabrique ou des marques déposées de Sun Microsystems,Inc.aux Etats-Unis et dans d’autres pays.Toutes les marques SPARC sont utilisées sous licence et sont des marques de fabrique ou des marques déposées de SPARC International,Inc.aux Etats-Unis et dans d’autres pays.。

Contents CONTENTS (1)INTRODUCTION (2)PC SPECIFICATION (2)INSTALLATION (2)OPERATION (2)Start Up (2)Main Screen (3)View (3)Tests (4)System Menu (7)6800 USER INTERFACE FUNCTIONALITY (7)Data Store (7)Passwords (7)POSSIBLE PROBLEMS (8)IntroductionThe Linx 6800 Demonstrator is a Microsoft Windows® based application that runs on a PC or Laptop and accurately simulates the 6800 Printer User Interface allowing the user to navigate and perform a majority of the functions that can be achieved on the real printer.PC SpecificationThe PC or Laptop should be running Microsoft Windows® NT, 2000 or XP Pro. This software will NOT run on Windows 98 or 95.Minimum specification: Pentium 133 with 64M of RAM and 80M of hard disk space. InstallationOperationStart UpOn start up the following screen is displayed:The main view shows the top half of a 6800 keyboard with an additional Enter key placed in the top right hand corner.All keys on the simulated keyboard can be pressed with the mouse and operate in the same way as the corresponding keys on the real printer. The exceptions to this are the Start and Stop keys that do nothing.All other key operations should be performed using the PC keyboard.As with the real printer, all buttons and icons on the display area cannot be ‘pressed’ directly and have to be selected via the navigation keys.Main ScreenAccess to the Demonstrator menu bar is only via the mouse, use of the keyboard will control the menu on the 6800 screen.ViewSelecting the View menu provides the following functions:Double Size: Doubles the size of the view of the 6800 display. This provides a better view of the 6800 User Interface. The option can be toggled on or off:The Hot keys (and other keys) do not change size but are repositioned to correspond to the position of the icons on the re-sized display.Screenshot: Copies the current view of the 6800 display into a .bmp file. The user is asked to specify the name of the file. This image can then be used in documents or presentations as required.Settings: Allows the user to modify/view the name of the store file. This normally defaults to the file in the same directory as the Demonstrator executable.Exit: Exits the Demonstrator. This can also be achieved by pressing the button.TestsSelecting the Tests menu provides the following functions:Start error test/Stop error test: Starts and Stops the random error generator. Random errors are displayed at irregular intervals on the 6800 User Interface. This is used to simulate error conditions on the printer.Error now!: Generates a random error immediately.HelpSelecting the Help menu provides access to the About box:The About box shows the current version of the Demonstrator software along with the version of the 6800 software that to which the user interface corresponds.System MenuClicking on the icon displays the System menu. From here you can Close the application and view the About box.6800 User Interface FunctionalityThis document does not describe the use of the 6800 User Interface and the user should refer to the 6800 Operating Manual for details on printer operation. It should be noted though that the Demonstrator does not simulate printing or jet control and has a reduced set of options available to configure the printer. It is possible to create and save various items such as messages and logos as would be possible in the real printer.Data StoreAny information or data modified in the Demonstrator is saved in the file FULL_STORE.lnv that acts like the non-volatile memory on the printer.PasswordsPasswords are case sensitive on the Demonstrator and the default passwords used in the printer are stored in upper case so it is necessary to have Caps-Lock on when typing in a password.Possible ProblemsOn startup, the Demonstrator claims there are No datasets left in the search.Check the store file is not read-only. If so, make the file read/writeable.Check the store file exists. If not, copy the original file from the installation CD.Check the path to the store file is correct. Check the Settings option under the View menu.The store file may be corrupt. Overwrite the file with the original file from the installation CD.The Demonstrator appears to lose messages or the messages are corrupt.Make sure you shut the application down correctly by using the Exit option or pressing the button.The store file may be corrupt. Overwrite the file with the original file from the installation CD. Certain options in menus appear to have no or limited data in them.As the Demonstrator only simulates certain aspects of the printer operation some menu items will appear to have invalid data. This is likely to happen with data associated with printing or jet control functions.。

装好驱动之后就能下载了
下载步骤：
1、打开下载工具SPUpgrade.exe
2、点击工具左上方的第一个按钮，选择软件包--软件文件夹里面的后缀名为PAC的文件
3、点击工具左上方第二个按钮，在弹出的界面上把NV这一项的前面打上勾，并且在NV 后面的空白处双击，然后点击双击之后出现的按钮选择对应的屏的NV。

4、选择好NV之后点击OK。

5、点击工具上方的第三个按钮开始下载
6、出现绿色PASS之后点击工具上方的第四个按钮停止下载。

7、再点击工具上方的第三个按钮开始，进行下一块主板的下载。

8、注意：展讯H平台和R平台升级的时候下载工具的下载速率（bautrate)选择460800，W平台升级的时候速率选择921600.
9、软件包文件和NV文件说明。

6800 Programming - IntroductionThis section of our manual has been written to help you begin programming your 6800 Computer System. Programming is a complicated subject. This manual describes only the two more basic levels of programming, machine language and assembly language. With the material contained in this manualyou should be able to learn the basic principles of programming. Take things slow and reread the material as many times as necessary to understand what is being said. Since trial and error is one of the fastest learning methods,don't be afraid to sit down and experiment with some short programs. Unlike hardware, errors in programming, or software as it is often called; cannot damage anything. So experiment with programs until you understand thematerial presented here.The "What Is An Assembler" section of this manual should be mastered as a first step. Most of the material in the Motorola "Microprocessor Programming Manual" assumes an understanding of both assembler and machine language programming. Chapter five of this manual goes into detail describing the 6800 assembler. It is important that you learn it now since all user programs should be written using assembler mnemonics and then hand assembled into machine language. Not doing this will make it impossible for you to look at each program statement and know what it does. Chapter five's material on editing, listing and saving programs applies only to timeshare services.You should read pages PROG-1 through PROG-5 of the programming section in this notebook next. Pages PROG-1 through PROG-3 describe in detail the various methods of addressing and must be learned. Without knowing which instruction addressing mode to use, writing a program will be virtually impossible. Pages PROG-4 through PROG-5 describe the calculations that are needed when hand assembling programs that contain branch instructions. When a resident assembler program is used with the computer, labels are provided is the source code and the assembler program makes the necessary calculationsfor you.Appendix A of the Motorola "Microprocessor Programming Manual" contains all of the assembler mnemonic instructions as well as their hexadecimal machine language equivalents. You should read through thissection several times to get familiar with the instructions that areavailable to you in the 6800 processor. When you start writing your programs you will find this information indispensable.Appendix B contains the list of assembler directives which are instructions used only for the assembler. They have no function when programming in machine language, however, are nice to know when reading the assembler source listings in the systems manual.Pages PROG-6 through PROG-21 contain sample programs which may be useful to the reader. Pages PROG-21 through PROG-29 contain some sample PIA polling routines which would be useful to those using parallel interface options.What is an Assembler?Throughout this notebook as well as the Motorola Programming Manual you will repeatedly encounter the word "assembler" as well as printouts ofits source code listings. To those of you already familiar with assemblers these terms should be easily understood, To others just learning about computers, this can be a confusing subject. Before we can explain the term "assembler" though, you must understand how programs are loaded, stored and executed within the computer's memory.The SWTPC 6800 Computer System has a read-only-memory (ROM) stored minioperating system with a memory examine and change function which allows the user to enter either programs, or data into the computer's memory fromthe terminal's keyboard in convenient hexadecimal (base 16) notation. Thedata is entered from whatever starting location the user chooses and isloaded sequentially with the operating system incrementing the memory address after each location has been loaded.If we were to look at a listing of the data that was loaded into memory, it might look like this:A017 2BA018 FEA019 A0A01A 02A01B 86A01C 01A01D A7A01E 00A01F A1A020 00. .. .. .. .. .The column of numbers on the left is the hexadecimal address at which the hexadecimal data on the right is stored. As it happens, the data loaded into these ten locations is a portion of a program loaded into memory using the memory examine/change function of the mini-operating system. The first location A017 although part of the program is used only for storing data, the rest of the nine addresses starting with address A018 containactual program instructions. Before the program is to be started, the program counter must be loaded with the address of the starting byte of the program using the "display contents of MPU registers" function of the mini-operating system. To actually start the program, one uses the "go to user's program" function of the mini-operating system which transfers processor control tothe instruction pointed to by the program counter. In this case theinstruction is FE which translates to load the index register with the contents of the memory address given in the next two bytes (A002). Since the index register is a two byte register, the least significant byte is filled with the contents of the next sequential address which is A003. Forsimplicity this and other instructions are abbreviated to three letter terms called mnemonics. The mnemonic for this instruction is LDX for LoaD indeX register. The particular type of addressing used here is referred to as "extended" and is described in detail later in the literature. So now we can say the instruction FE is the same thing as LDX, extended. This is defined as a three byte instruction since a total of three memory bytes are used for the entire instruction. The data is stored in locations A018, A019, and A01A. The program counter was incremented by one as each of the preceding memory locations were processed and at the completion of the last byte of the instruction, was left pointing to the next instruction location at addressA01B which is 86. The instruction 86 means to LoaD Accumulator A with the contents of the memory location immediately following the instruction whichis 01. This is referred to as the immediate mode of addressing and isdescribed in detail later in the literature. Our mnemonic for thisinstruction is LDA A, immediate which stands for Loan Accumulator A and it is a two byte instruction. At the completion of this instruction, our program counter is left pointing to memory address AOID whose contents are an A7 which is a STore Accumulator A indexed by 0, instruction. The mnemonic hereis STA A, indexed.This means the contents of accumulator A are stored at the address contained within the index register plus the index value, which is contained in the memory location immediately following the instruction which in this case is zero. This instruction like the one following it is a two byte instruction. The next instruction is an A1 whose mnemonic is CMP A, indexed, which translates to CoMPare accumulator A to the memory location pointed to by the address contained in the index register plus zero. And so the program continues.It's probably obvious by now that having to write a program in two digit hexadecimal form usually referred to as machine language can really be hard to interpret unless you are able to memorize the mnemonic translationfor all of the hexadecimal instructions. Wouldn't it be easy if you could write your program using the easy to remember mnemonics and let the computer translate them to their machine language equivalents to be loaded into memory? Well this is what the assembler does and in addition allows the programmer to use labels and comments with statements and add assembler directives which allocate memory storage locations and start the program in the selected memory address just to mention a few. The assembler also detects and prints out detected errors in the source program. So as you can see the assembler is simply a program which allows the programmer to save time and simplify his program writing by using labels, simple mnemonic commands, and assembler directives. The assembler program itself is several thousand bytes in length and is usually loaded from a tape reader. It is far too long to be typed in manually.The mnemonic written program to be assembled is generally entered from a tape that has been generated by what is called an editor. The editoris a program used to generate a new or modify an already existent source program. The editor allows the user to enter, delete, modify or insert datato a source file. When the programmer is satisfied with the accuracy of the file, a tape is generated which may then be assembled by the assembler. If there are errors or if you choose to modify the program, the editor/assembler sequence may be repeated as often as necessary. Like the assembler, theeditor is several thousand bytes in length and is far too long to be typed in manually.Since the SWTPC editor/assembler software package will not be available until early 1976, many users will have to enter their programs in machine language. It is suggested that you write your program in assembler form using mnemonics as detailed later in the literature and then at the same time jot down the hexadecimal machine code just to the left of the instructions. You should be able to fill in all of the machine codes as you go along with the exception of forward referenced branch and jumpinstructions which you can go back and fill in after you have completedwriting the program. This hand assembled method was used when writing the diagnostic programs in the software section of this notebook. You may even find that it is quicker to hand assemble those programs less than fifty words or so than to use the editor/assembler package.。

A205E Carrier BoardA205EA205E User GuideNoticePacking ListI nterfacesSoftware/BSPSample ApplicationsDevelop Tool1.1 NoticePlease read manual carefully before install, operate, or transport device.•Ensure that the correct power range is being used before powering the device.•Avoid hot plugging.•To properly turn off the power, please shut down the Ubuntu system first, and then cut off the power. Due to the particularity of the Ubuntu system, on the Nvidia developer kit, if the power is turned off when the startup is not completed, there will be a 0.03% probability of abnormality, which will cause the device to fail to start.Due to the use of the Ubuntu system, the same problem also exists on the device.•Do not use cables or connectors other than described in this manual.•Do not use device near strong magnetic fields.•Backup your data before transportation or device is idle.•Recommend to transport device in its original packaging.1.2Packing list• A carrier board (A205E).•Power supply with out AC cord.Note R ecommends using the Jetson A205e Development System only with the power supply ing an incompatible power supply may damage the carrier board or the module or both. If you use another power supply in place of the one provided, you are responsible for ensuring that it is compatible with the 205E hardware.1.3 A205E Development System INTERFACESA205E Development System module and carrier board:1.3.1 A205e System carrier board: top viewDesignator Connector DescriptionW1 W2RJ45 CON RJ45 Gigabit Ethernet Connector (10/100/1000)W3 W4USB 3.0 CON USB 3.0 Link 1 Type A Connector W5HDMI CON HDMI Right Angle Vertical Connector W6Audio Jack 3.5 Earphone standW7DC Jack 131010mm 6pins DC connectorW820PIN IO CON 3.5mm pitchW9LED indicator W10TF Card TF Card SlotW11TYPE C ( 2.0)USB 2.0 Link TYPE C ConnectorW12RECOVERY KEY W13RESET KEY W14POWER KEY W15WIFI/BT ANTCON 50 Ohms, MCRF, PCB Vertical Jack Receptacle, SMT, 1.25mm Mounted HeightW16RTC CON RTC battery ConnectorW17IIC CON CON, 1.25mm PITCH, 4PIN, 4.7mm.SMDW18UDB2.0 CON FPC 0.5MM 20P H=2MMW19 W21Speaker con CON, 1.5mm PITCH, 2PIN, 5.1mm ,SMD W20NX CON NVIDIA Jetson NX W22MCU CON 2.54mm 2X2W235V DC CON HDR_1X2 2.54MM W25/W2612V DC CON HDR_1X2 2.54MM CON W27SSD CON 67 pins M.2 KEY M connectorW28CAMERA CONCON_B2B_120_F_NORM-CON_QSH_SMT_2X601.3.2 A205e System carrier board: bottom view1.3.3 Interface DetailsThis section highlights some of the Jetson A205e Development System interfaces.1.3.3.1 Module （W0)1.3.3.2 Carrier BoardPIN Signal Name PIN Signal Name 1RJ45_TD_P 2RJ45_TD_N 3RJ45_RD_P 4RJ45_TD1_P 5RJ45_TD1_N 6RJ45_RD_N 7RJ45_RD1_P 8RJ45_RD1_N 9CGND10CGND[W1W2] GbE PIN Signal Name PIN Signal Name 1VDD_5V0_IO 2USB2_N 3USB2_P 4,21,22GND 5USB2_RX_N 6USB2_RX_P 7GND8DSP2_TX_N19DSP2_TX_P110VDD_5V0_IO 11USB1_N 12USB1_P 13GND 14USB1_RX_N 15USB1_RX_P 16,19,20,21,22GND17DSP1_TX_N118DSP1_TX_P1[W1W2]USB3.0 （W3/W4 ）[W5] HDMI JackPIN Signal Name PIN Signal Name1HDMI_TXD2_CON_P2GND3HDMI_TXD2_CON_N4HDMI_TXD1_CON_P5GND6HDMI_TXD1_CON_N7HDMI_TXD0_CON_P8GND9HDMI_TXD0_CON_N10HDMI_TXC_CON_P11GND12HDMI_TXC_CON_N13HDMI_CEC_CON14NC15HDMI_DDC_SCL_5V016HDMI_DDC_SDA_5V0 17GND18VDD_5V0_HDMI_CON 19HDMI_HPD_CON20,21,22,23GND21HDMI1_TXD2_CON_P22GND23HDMI1_TXD2_CON_N24HDMI1_TXD1_CON_P 25GND26HDMI1_TXD1_CON_N 27HDMI1_TXD0_CON_P28GND29HDMI1_TXD0_CON_N30HDMI1_TXC_CON_P31GND32HDMI1_TXC_CON_N33HDMI1_CEC_CON34NC35HDMI1_DDC_SCL_5V036HDMI1_DDC_SDA_5V0 37GND38VDD_5V0_HDMI_CON 39HDMI1_HPD_CON40.41.42.43.44GND[W6] Audio JackPIN Signal Name PIN Signal Name2Microphone P3GND4HP_R5HP_L6,7AUD_HP_DET[W7] DC Power Input JackPIN Signal Name PIN Signal Name1+ 2.3.4.5.6GNDNote: After plugging in the power supply to turn on normally, LED lights up (red) DC +9V(8A) ~ +36V (2A)[W8] 20PIN IO CONPIN Signal Name PIN Signal Name1CAN_L2CAN_H3RS232_TX4RS232_RX5RS485_A6RS485_B7I2C1_SDA (3.3V)8I2C1_SCL(3.3V)9GND10 3.3V11UART2_TXD_3V312UART2_RXD_3V313SPI0_MOSI_3V314SPI0_SCK_3V315SPI0_MISO_3V316SPI0_CS0_3V317SPI0_SC1_3V318GPIO2_3V319GND205VNote: UART2 is converted to 3.3V logic level by carrier board level conversion circuit; SPI0 is converted to 3.3V logic level by carrier board level conversion circuit; GPIO2_3V3 is 3.3V logic level;[W9] LED Red for power indicator, green for normal operation[W10] TF CARDPIN Signal Name PIN Signal Name1SDCARD_D22SDCARD_D33SDCARD_CMD4VDD_3V35SDCARD_CLK6GND7SDCARD_D08SDCARD_D19SD_DET10,11,12,13GND[W11] TYPE-C(2.0)PIN Signal Name PIN Signal NameA1, A12, B1, B12GND A4, A9, B4, B95V VBUSA5, B5,A8,B8USB ID A6, B6USB D+A7, B7USB D-[W12/W13/W14] Button1)W12---- (RECOVERY)2)W13----（RESET)3)W14----（POWER KEY）[W15] WIFI/BT ANT CONPIN Signal Name PIN Signal Name1RF 2.3.4GND[W16] RTC BATTARY CONNECTOR（W16)PIN Signal Name PIN Signal Name1VCC RTC2GND[W17] IICPIN Signal Name PIN Signal Name1GND2 3.3V4ID_I2C_SCL5ID_I2C_SDA [W18] 20PIN 0.5mm ZIF,USB2.0PIN Signal Name PIN Signal Name 1,2,3,4,5VDD_5V6GND7D-8D+9GPIO110GND11NC12NC13GND14NC15NC16GND17GPIO218GND19GND20GND[W19/W21] Speaker con（W19/W21）PIN Signal Name PIN Signal Name 1SPK-2SPK+[W20] NVIDIA NX interface[W22] MCU_DOWNLOAD JACKPIN Signal Name PIN Signal Name1C2D2C2K3GND4ACOKNote:PIN4 (ACOK) and PIN3 (GND) short-circuit to turn off the power-on auto power-up[W23] 5V DC Power Jack (W23)PIN Signal Name PIN Signal Name 15V2GND[W24] FAN CONPIN Signal Name PIN Signal Name 1GND2VDD_5V3FAN_TACH4FAN_PWM [W25/W26] 12V DC Power Jack (W25/W26)PIN Signal Name PIN Signal Name 112V2GND[W27] SSD CONPIN Signal Name PIN Signal Name1GND2 3.3V3GND4 3.3V5UPHY_RX5_N6NC7UPHY_RX5_P8NC9GND10NC11UPHY_TX5_N12 3.3V13UPHY_TX5_P14 3.3V15GND16 3.3V17UPHY_RX4_N18 3.3V19UPHY_RX4_P20NC21GND22NC23UPHY_TX4_N24NC25UPHY_TX4_P26NC27GND28NC29UPHY_RX3_N30NC31UPHY_RX3_P32NC33GND34NC35UPHY_TX3_N36NC37UPHY_TX3_P38NC39GND40I2C_GP4_ CLKPIN Signal Name PIN Signal Name41UPHY_RX2_N42I2C_GP4_DAT43UPHY_RX2_P44GPIO34_M2_KEYM_ALERT45GND46NC47UPHY_TX2_N48NC49UPHY_TX2_P50PEX_L0_RST_N51GND52PEX_L0_CLKREQ_N53PEX_CLK0_N54GPIO29_M2_KEYM_PEWAKE55PEX_CLK0_P56NC57GND58NC59NC6032.768KHz OUT61NC62 3.3V63GND64 3.3V65GND66 3.3V67GND68GND[W28] CAMERA CONPIN Signal Name PIN Signal Name 1CSI_0_D0_P2CSI_1_D0_P 3CSI_0_D0_N4CSI_1_D0_N 5GND6GND7CSI_0_CLK_P8CSI_1_CLK_P 9CSI_0_CLK_N10CSI_1_CLK_N 11GND12GND13CSI_0_D1_P14CSI_1_D1_P 15CSI_0_D1_N16CSI_1_D1_N 17GND18GND19CSI_2_D0_P20CSI_3_D0_P 21CSI_2_D0_N22CSI_3_D0_N 23GND24GND25CSI_2_CLK_P26CSI_3_CLK_P 27CSI_2_CLK_N28CSI_3_CLK_N 29GND30GND31CSI_2_D1_P32CSI_3_D1_P 33CSI_2_D1_N34CSI_3_D1_N 35GND36GND37CSI_4_D0_P38CSI_6_D0_P 39CSI_4_D0_N40CSI_6_D0_N 41GND42GND43CSI_4_CLK_P44CSI_6_CLK_P 45CSI_4_CLK_N46CSI_6_CLK_N 47GND48GND49CSI_4_D1_P50CSI_6_D1_P 51CSI_4_D1_N52CSI_6_D1_N 53GND54GND55NC56NC57NC58NC59CSI_5_D0_P60NC61CSI_5_D0_N62NC63GND64GND65CSI_5_CLK_P66NC67CSI_5_CLK_N68NC69GND70GND71CSI_5_D1_P72NC73CSI_5_D1_N74NC75CAM_I2C_SCL76NC77CAM_I2C_SDA78NC79GND80GND81 2.8V82 2.8V83 2.8V84TEST PIONT 85NC86NC87NC88CAM2_MCKL 89NC90CAM3_PWDN 91CAM1_MCKL92GPIO1093CAM1_PWDN94GPIO1195CAM2_PWDN96NC97CAM6_PWDN (PIN126)98NC99GND100GND101TEST PIONT102 1.8V103NC104NC105NC106NC107NC108 3.3V109TEST PIONT110 3.3V111NC112NC113NC114NC115GND116GND117NC118 3.3V119PWM2 ( PIN 206)120 3.3V121-128GND1.3.4 PHYSICAL CONFIGURATION INSTRUCTIONSTo prepare your Jetson A205E System for use, connect it as follows:Connect an external HDMI display to the carrier board’s HDMI port.Connect a USB keyboard and mouse.Connect the 205E to your local network via Ethernet cable to the carrier board's Ethernet port.Connect the included AC adapter to the carrier board's power jack. Plug the AC adapter into an appropriately rated electrical outlet.Use only the supplied AC adapter, as it is appropriately rated for your device.1.4 Software /BSP1.4.1 Software configurationNVIDIA Linux For Tegra (L4T)A205E System supports native NVIDIA Linux for Tegra (l4t) builds. HDMI, Gigabit Ethernet, USB3.0, USB OTG, serial port, GPIO, SD card, I2C bus can be supported, and can run directly on A205 . Please note that the native system does not support PWM mode to control the fan. If the native system is used, ipcall-bsp must be deployed. LT4 can be downloaded from the following link:https:///embedded/linux-tegra Note:The native system does not support PWM control of the fan, if you use the native system you must deploy IPCall-BSP NVIDIA Jetpack for L4TJetpack is a software package released by NVIDIA, The latest jetpack runs on Ubuntu 18.04 Linux 64 bit host and can be downloaded from the following link:https:///embedded/jetpack Default configuration systemA205E System with Ubuntu 18.04, default username: nvidia password: nvidia1.4.2 Installation of Jtop toolsJtop is a system monitoring utility for Jetson that can be run on a terminal to view and control the status of NVIDIA Jetson in real time.I nstallation steps ：1.I nstalling the pip3 tool2.Installing jtop packages with pip33.Restart to run jtopsudo apt-get install python3-pip1sudo -H pip3 install -U jetson-stats1jtop11.4.3 Developer Tools1.4.3.1 JetPackNVIDIA JetPack SDK is the most comprehensive solution for building AI applications. It bundles Jetson platform software including TensorRT, cuDNN, CUDA Toolkit, VisionWorks, GStreamer, and OpenCV, all built on top of L4T with LTS Linux kernel.JetPack includes NVIDIA container runtime, enabling cloud-native technologies and workflows at the edge.JetPack SDK Cloud-Native on Jetson1.4.3.2 L4TNVIDIA L4T provides the Linux kernel, bootloader, NVIDIA drivers, flashing utilities, sample filesystem, and more for the Jetson platform.You can customize L4T software to fit the needs of your project. By following the platform adaptation and bring-up guide, you can optimize your use of the complete Jetson product feature set. Follow the links below for details about the latest software libraries, frameworks, and source packages.1.4.3.3 DeepStream SDK on JetsonNVIDIA’s DeepStream SDK delivers a complete streaming analytics toolkit for AI-based multi-sensor processing, video and image understanding. DeepStream is an integral part of NVIDIA Metropolis, the platform for building end-to-end services and solutions that transform pixel and sensor data to actionable insights. Learn about the latest 5.0 developer preview features in our developer news article.1.4.3.4 Isaac SDKThe NVIDIA Isaac SDK makes it easy for developers to create and deploy AI-powered robotics. The SDK includes the Isaac Engine (application framework), Isaac GEMs (packages with high-performance robotics algorithms), Isaac Apps (reference applications) and Isaac Sim for Navigation (a powerful simulation platform). These tools and APIs accelerate robot development by making it easier to add artificial intelligence (AI) for perception and navigation into robots.1.5 KEY FEATURES IN JETPACKOS NVIDIA L4T provides the bootloader, Linux kernel 4.9, necessary firmwares, NVIDIA drivers, sample filesystem based on Ubuntu 18.04, and more.JetPack 4.6.1 includes L4T 32.7.1 with these highlights:Support for Jetson AGX Xavier 64GB and Jetson Xavier NX 16GBTensorRT TensorRT is a high performance deep learning inference runtime for image classification, segmentation, and object detection neural networks. TensorRT is built on CUDA, NVIDIA’s parallel programming model, and enables you to optimize inference for all deep learning frameworks. It includes a deep learning inference optimizer and runtime that delivers low latency and high-throughput for deep learning inference applications.cuDNN CUDA Deep Neural Network library provides high-performance primitives for deep learning frameworks. It provides highly tuned implementations for standard routines such as forward and backward convolution, pooling, normalization, and activation layers.CUDAMultimedia APIComputer VisionCUDA Toolkit provides a comprehensive development environment for C and C++ developers building GPU-accelerated applications. The toolkit includes a compiler for NVIDIA GPUs, math libraries, and tools for debugging and optimizing the performance of your applications.VPI (Vision Programing Interface) is a software library that provides Computer Vision / Image Processing algorithms implemented on PVA1 (Programmable Vision Accelerator), GPU and CPUOpenCV is a leading open source library for computer vision, image processing and machine learning.VisionWorks2 is a software development package for Computer Vision (CV) and image processing.JetPack 4.6.1 includes VPI 1.2The Jetson Multimedia API package provides low level APIs for flexible application development.Camera application API: libargus offers a low-level frame-synchronous API for camera applications, with per frame camera parameter control, multiple (including synchronized) camera support, and EGL stream outputs. RAW output CSI cameras needing ISP can be used with either libargus or GStreamer plugin. In either case, the V4L2 media-controller sensor driver API is used.Developer ToolsSupported SDKs and ToolsCloud NativeJetPack component Sample locations on reference filesystem TensorRT /usr/src/tensorrt/samples/cuDNN /usr/src/cudnn_samples_/CUDA /usr/local/cuda-/samples/Multimedia API/usr/src/tegra_multimedia_api/VisionWorks /usr/share/visionworks/sources/samples//usr/share/visionworks-tracking/sources/samples/ /usr/share/visionworks-sfm/sources/samples/OpenCV /usr/share/OpenCV/samples/VPI/opt/nvidia/vpi/vpi-/samples1.5.0.5 Sample ApplicationsJetPack includes several samples which demonstrate the use of JetPack components. These are stored in the reference filesystem and can be compiled on the developer kit.CUDA Toolkit provides a comprehensive development environment for C and C++ developers building high-performance GPU-accelerated applications with CUDA libraries.The toolkit includes Nsight Eclipse Edition, debugging and profiling tools including Nsight Compute, and a toolchain for cross-compiling applications.NVIDIA Nsight Systems is a low overhead system-wide profiling tool, providing the insights developers need to analyze and optimize software performance.NVIDIA DeepStream SDK is a complete analytics toolkit for AI-based multi-sensor processing and video and audio understanding.DeepStream SDK 6.0 supports JetPack 4.6.1NVIDIA Triton™ Inference Server simplifies deployment of AI models at scale. Triton Inference Server is open source and supports deployment of trained AI models from NVIDIA TensorRT, TensorFlow and ONNX Runtime on Jetson. On Jetson, Triton Inference Server is provided as a shared library for direct integration with C API.Jetson brings Cloud-Native to the edge and enables technologies like containers and container orchestration. NVIDIA JetPack includes NVIDIA Container Runtime with Docker integration, enabling GPU accelerated containerized applications on Jetson platform.NVIDIA hosts several container images for Jetson on NVIDIA NGC. Some are suitable for software development with samples and documentation and others are suitable for production software deployment, containing only runtime components. Find more information and a list of all container images at the Cloud-Native on Jetson page.。

TOP VIEWDD PACKAGE8-LEAD (3mm × 3mm) PLASTIC DFN56784321NC –IN +IN V –V +OUT RG REFTotal Supply Voltage (V + to V –)..............................5.5V Input Current ......................................................±10mA V IN + – V REF ........................................................5.5V V IN – – V REF ........................................................5.5V Output Short Circuit Duration..........................IndefiniteABSOLUTE AXI U RATI GSW W WU (Note 1)1234NC –IN +IN V –8765V +OUT RG REFTOP VIEWMS8 PACKAGE 8-LEAD PLASTIC MSOP PACKAGE/ORDER I FOR ATIOUUW ORDER PART NUMBERDD PART MARKINGT JMAX = 125°C, θJA = 160°C/W UNDERSIDE METAL INTERNALLYCONNECTED TO V –(PCB CONNECTION OPTIONAL)LAEPLTC6800HDDConsult LTC Marketing for parts specified with wider operating temperature ranges.ORDER PART NUMBERMS8 PART MARKINGT JMAX = 150°C, θJA = 200°C/WLTADELTC6800HMS8Operating Temperature Range(Note 7)................................................–40°C to 125°C Storage Temperature RangeMS8 Package ...................................–65°C to 150°C DD Package......................................–65°C to 125°C Lead Temperature (Soldering, 10 sec)..................300°CELECTRICAL CHARACTERISTICSThe q denotes the specifications which apply over the full operatingtemperature range, otherwise specifications are at T A = 25°C. V + = 3V, V – = 0V, REF = 200mV. Output voltage swing is referenced to V –. All other specifications reference the OUT pin to the REF pin.PARAMETERCONDITIONS MIN TYP MAX UNITS Input Offset Voltage (Note 2)V CM = 200mV ±100µV Average Input Offset Drift (Note 2)T A = –40°C to 85°C q ±250nV/°C T A = 85°C to 125°C q –1–2.5µV/°C Common Mode Rejection Ratio A V = 1, V CM = 0V to 3V q85113dB(Notes 4, 5)Integrated Input Bias Current (Note 3)V CM = 1.2V 410nA Integrated Input Offset Current (Note 3)V CM = 1.2V 13nA Input Noise VoltageDC to 10Hz 2.5µV P-P Power Supply Rejection Ratio (Note 6)V S = 2.7V to 5.5V q 110116dB Output Voltage Swing High R L = 2k to V –q 2.85 2.94V R L = 10k to V –q 2.952.98VOutput Voltage Swing Low q 20mV Gain Error A V = 10.1%Gain NonlinearityA V = 1100ppmsn6800 6800fasSupply CurrentNo Loadq1.2mA Internal Op Amp Gain Bandwidth 200kHz Slew Rate0.2V/µs Internal Sampling Frequency3kHzThe q denotes the specifications which apply over the full operatingtemperature range, otherwise specifications are at T A = 25°C. V + = 3V, V – = 0V, REF = 200mV. Output voltage swing is referenced to V –. All other specifications reference the OUT pin to the REF pin.PARAMETER CONDITIONS MIN TYP MAX UNITS Note 1: Absolute Maximum Ratings are those values beyond which the life of a device may be impaired.Note 2: These parameters are guaranteed by design. Thermocouple effects preclude measurement of these voltage levels in high speed automatic test systems. V OS is measured to a limit determined by test equipment capability.Note 3: If the total source resistance is less than 10k, no DC errors result from the input bias currents or the mismatch of the input bias currents or the mismatch of the resistances connected to –IN and +IN.Note 4: The CMRR with a voltage gain, A V , larger than 10 is 120dB (typ).Note 5: At temperatures above 70°C, the common mode rejection ratio lowers when the common mode input voltage is within 100mV of the supply rails.Note 6: The power supply rejection ratio (PSRR) measurement accuracy depends on the proximity of the power supply bypass capacitor to the device under test. Because of this, the PSRR is 100% tested to relaxed limits at final test. However, their values are guaranteed by design to meet the data sheet limits.Note 7: The LTC6800H is guaranteed functional over the operating temperature range of –40°C to 125°C. Specifications over the –40°C to 125°C range (denoted by q ) are assured by design and characterization but are not tested or QA sampled at these temperatures.ELECTRICAL CHARACTERISTICSThe q denotes the specifications which apply over the full operating temperature range, otherwise specifications are at T A = 25°C. V + = 5V,V – = 0V, REF = 200mV. Output voltage swing is referenced to V –. All other specifications reference the OUT pin to the REF pin.PARAMETERCONDITIONS MIN TYP MAX UNITS Input Offset Voltage (Note 2)V CM = 200mV ±100µV Average Input Offset Drift (Note 2)T A = –40°C to 85°C q ±250nV/°C T A = 85°C to 125°C q –1–2.5µV/°C Common Mode Rejection Ratio A V = 1, V CM = 0V to 5V q85116dB(Notes 4, 5)Integrated Input Bias Current (Note 3)V CM = 1.2V 410nA Integrated Input Offset Current (Note 3)V CM = 1.2V 13nA Power Supply Rejection Ratio (Note 6)V S = 2.7V to 5.5V q 110116dB Output Voltage Swing High R L = 2k to V –q 4.85 4.94V R L = 10k to V –q 4.954.98VOutput Voltage Swing Low q 20mV Gain Error A V = 10.1%Gain Nonlinearity A V = 1100ppm Supply CurrentNo Loadq1.3mA Internal Op Amp Gain Bandwidth 200kHz Slew Rate0.2V/µs Internal Sampling Frequency3kHzTIME (s)–5–3–1136800 G215V S = 3V T A = 25°CSupply Current vs Supply VoltageTIME (s)–53210–3–1136800 G225V S = 5V T A = 25°CSUPPLY VOLTAGE (V)2.56800 G244.53.5 5.56T A = –55°CT A = 85°CT A = 125°CT A = 0°CLow Gain Settling Time vs Settling AccuracySETTLING ACCURACY (%)0.00016800 G250.0010.010.1V S = 5V dV OUT = 1V G < 100T A = 25°Csn6800 6800fasAPPLICATIO S I FOR ATIOW UUU Input CurrentWhenever the differential input V IN changes, C H must be charged up to the new input voltage via C S . This results in an input charging current during each input sampling period. Eventually, C H and C S will reach V IN and, ideally,the input current would go to zero for DC inputs.In reality, there are additional parasitic capacitors which disturb the charge on C S every cycle even if V IN is a DC voltage. For example, the parasitic bottom plate capacitor on C S must be charged from the voltage on the REF pin to the voltage on the –IN pin every cycle. The resulting input charging current decays exponentially during each input sampling period with a time constant equal to R S C S . If the voltage disturbance due to these currents settles before the end of the sampling period, there will be no errors due to source resistance or the source resistance mis-match between –IN and +IN. With R S less than 10k, no DC errors occur due to this input current.In the Typical Performance Characteristics section of this data sheet, there are curves showing the additional error from nonzero source resistance in the inputs. If there are no large capacitors across the inputs, the amplifier is less sensitive to source resistance and source resistance mis-match. When large capacitors are placed across the in-puts, the input charging currents described above result in larger DC errors, especially with source resistor mis-matches.Power Supply BypassingThe LTC6800 uses a sampled data technique and therefore contains some clocked digital circuitry. It is therefore sen-sitive to supply bypassing. A 0.1µF ceramic capacitor must be connected between Pin␣8 (V +) and Pin 4 (V –) with leads as short as possible.11Information furnished by Linear Technology Corporation is believed to be accurate and reliable.However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.12© LINEAR TECHNOLOGY CORPORA TION 2002LT/TP 0903 1K • PRINTED IN USALinear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 q FAX: (408) 434-0507 q 。

Module Specifications•10/100/1000Ethernet Module Specifications,page1•1-Gigabit Ethernet Module Specifications,page2•10-Gigabit Ethernet Module Specifications,page4•40-Gigabit Ethernet Module Specifications,page810/100/1000 Ethernet Module SpecificationsC6800-48P-TX and C6800-48P-TX-XL SpecificationsThe following table lists the physical specifications of the modules:Table 1: C6800-48P-TX and C6800-48P-TX-XL Physical SpecificationsSpecificationItemDimensions(H x W1.2x14.4x16in.(3.0x35.6x40.6cm).Occupies one slot in the chassis.x D)WeightC6800-48P-TX—8.24lb(3.74kg)C6800-48P-TX-XL—8.06lb(3.66kg)The following table lists the environmental specifications of the modules:Table 2: C6800-48P-TX and C6800-48P-TX-XL Environmental SpecificationsSpecificationItemOperating temperatureCertified for operation:32°to104°F(0°to40°C)Designed and tested for operation:32°to130°F(0°to55°C)Specification Item10to 90percentHumidity (RH)ambient (noncondensing)Certified for operation:0to 6500ft (0to 2000m)Designed and tested for operation:-200to 10,000ft (-60to 3000m)Operating altitudeTable 3: C6800-48P-TX and C6800-48P-TX-XL - Power and Heat Values1On a Cisco Catalyst 6807-XL switch,module current is @52V and on a Cisco Catalyst 6500-E Series switch,module current is @42VRelated TopicsInstalling an Ethernet Switching ModuleC6800-48P-TX and C6800-48P-TX-XL Ethernet Modules1-Gigabit Ethernet Module SpecificationsC6800-48P-SFP and C6800-48P-SFP-XL Module SpecificationsThe following table lists the physical specifications of the modules:Module Specifications1-Gigabit Ethernet Module SpecificationsTable 4: C6800-48P-SFP and C6800-48P-SFP-XL - Physical SpecificationsSpecificationItem1.2x 14.4x 16in.(3.0x 35.6x 40.6cm).Occupies one slot in the chassis.Dimensions (H x W x D)C6800-48P-SFP —9.03lb (4.1kg)C6800-48P-SFP-XL —8.70lb (3.95kg)WeightThe following table lists the environmental specifications of the modules:Table 5: C6800-48P-SFP and C6800-48P-SFP-XL - Environmental SpecificationsSpecificationItemCertified for operation:32°to 104°F (0°to 40°C)Designed and tested for operation:32°to 130°F (0°to 55°C)Operating temperature10to 90percentHumidity (RH)ambient (noncondensing)Certified for operation:0to 6500ft (0to 2000m)Designed and tested for operation:-200to 10,000ft (-60to 3000m)Operating altitudeTable 6: C6800-48P-SFP and C6800-48P-SFP-XL - Power and Heat ValuesModule SpecificationsC6800-48P-SFP and C6800-48P-SFP-XL Module Specifications2On the Catalyst 6807-XL switch,module current is @52V and on a Catalyst 6500-E Series switch,module current is @42V .Related TopicsInstalling an Ethernet Switching ModuleC6800-48P-SFP and C6800-48P-SFP-XL Ethernet Modules10-Gigabit Ethernet Module SpecificationsC6800-8P10G and C6800-8P10G-XL Module SpecificationsThe following table lists the physical specifications of the modules:Table 7: Physical SpecificationsSpecificationItem1.73x 15.4x 16.4inches (4.39x 39.11x 41.65cm)Dimensions (H x W x D)11.02lb (5.0kg)WeightThe following table lists the environmental specifications of the modules:Table 8: Environmental SpecificationsSpecificationItemCertified for operation:32°to 104°F (0°to 40°C)Designed and tested for operation:32°to 130°F (0°to 55°C)Operating temperature10to 90percentHumidity (RH)ambient (noncondensing)Certified for operation:0to 6500ft (0to 2000m)Designed and tested for operation:-200to 10,000ft (-60to 3000m)Operating altitudeModule Specifications10-Gigabit Ethernet Module SpecificationsTable 9: Power and Heat Values3On a Cisco Catalyst 6807-XL switch,module current is @52V .On a Cisco Catalyst 6503-E and 6504-E module current is @50V; On all other Cisco Catalyst 6500-E Series switches, module current is @ 42V.Related TopicsInstalling an Ethernet Switching ModuleC6800-8P10G and C6800-8P10G-XL Ethernet ModulesC6800-16P10G and C6800-16P10G-XL Module SpecificationsThe following table lists the physical specifications of the modules:Table 10: Physical SpecificationsSpecificationItem1.73x 15.4x 16.4inches (4.39x 39.11x 41.65cm)Dimensions (H x W x D)11.02lb (5.0kg)WeightModule SpecificationsC6800-16P10G and C6800-16P10G-XL Module SpecificationsThe following table lists the environmental specifications of the modules:Table 11: Environmental SpecificationsSpecificationItemCertified for operation:32°to 104°F (0°to 40°C)Designed and tested for operation:32°to 130°F (0°to 55°C)Operating temperature10to 90percentHumidity (RH)ambient (noncondensing)Certified for operation:0to 6500ft (0to 2000m)Designed and tested for operation:-200to 10,000ft (-60to 3000m)Operating altitudeTable 12: Power and Heat Values4On a Cisco Catalyst 6807-XL switch,module current is @52V .On a Cisco Catalyst 6503-E and 6504-E module current is @50V; On all other Cisco Catalyst 6500-E Series switches, module current is @ 42V.Module SpecificationsC6800-16P10G and C6800-16P10G-XL Module SpecificationsRelated TopicsInstalling an Ethernet Switching ModuleC6800-16P10G and C6800-16P10G-XL Ethernet ModulesC6800-32P10G and C6800-32P10G-XL Module SpecificationsThe following table lists the physical specifications of the modules:Table 13: Physical SpecificationsSpecificationItem1.73x 15.4x 16.4inches (4.39x 39.11x 41.65cm)Dimensions (H x W x D)14.33lb (6.5kg)WeightThe following table lists the environmental specifications of the modules:Table 14: Environmental SpecificationsSpecificationItemCertified for operation:32°to 104°F (0°to 40°C)Designed and tested for operation:32°to 130°F (0°to 55°C)Operating temperature10to 90percentHumidity (RH)ambient (noncondensing)Certified for operation:0to 6500ft (0to 2000m)Designed and tested for operation:-200to 10,000ft (-60to 3000m)Operating altitudeModule SpecificationsC6800-32P10G and C6800-32P10G-XL Module SpecificationsModule Specifications 40-Gigabit Ethernet Module SpecificationsTable 15: Power and Heat Values5On a Cisco Catalyst6807-XL switch,module current is@52V.On a Cisco Catalyst 6503-E and 6504-E module current is @50V; On all other Cisco Catalyst 6500-E Series switches, module current is @ 42V.Related TopicsInstalling an Ethernet Switching ModuleC6800-32P10G and C6800-32P10G-XL Ethernet Modules40-Gigabit Ethernet Module SpecificationsC6800-8P40G and C6800-8P40G-XL Module SpecificationsThe following table lists the physical specifications of the modules:Table 16: Physical SpecificationsSpecificationItem1.73x 15.4x 16.4inches (4.39x 39.11x 41.65cm)Dimensions (H x W x D)•12.52lb (5.68kg)for C6800-8P40G •12.79lb (5.80kg)for C6800-8P40G-XLWeightTable 17: Power and Heat Values6On a Cisco Catalyst 6807-XL switch,module current is @52V .Related TopicsInstalling an Ethernet Switching ModuleC6800-8P40G and C6800-8P40G-XL Ethernet ModulesModule SpecificationsC6800-8P40G and C6800-8P40G-XL Module SpecificationsModule Specifications C6800-8P40G and C6800-8P40G-XL Module Specifications。

存取文件檔案文件光碟（doc 光碟）㆖提供了 Sun Fire 6800/4810/4800/3800 系統的整套文件集。

1.將 doc 光碟放入 CD-ROM 或 DVD-ROM 光碟機。

I 如果從 Power Macintosh 、PC 存取 doc 光碟，或系統執行的是 Volume Manager ，CD-ROM 將會自動掛載。

I 如果系統未執行 Volume Manager ，請鍵入㆘列指令以成為超級使用者並掛載 CD-ROM ：㆖述指令適用於具有 SCSI 磁碟機的工作站。

如果工作具有 IDE 磁碟機，則裝置是 /dev/dsk/c0t2d0s2。

2.開啟 sunfire_6800_4810_4800_3800_docs 目錄以使用 Adobe ® Acrobat Reader 存取 PDF 檔案。

如果未安裝 Adobe Acrobat Reader ，您可以在下列網站免費下載：/products/acrobat/readstep.html # mkdir -p /cdrom/sunfire_6800_4810_4800_3800_docs # mount -o ro -F hfs /dev/dsk/c0t6d0s2 /cdrom/sunfire_6800_4810_4800_3800_docsSun Fire™ 6800/4810/4800/3800 系統入門Sun Fire 6800/4810/4800/3800系統文件清單系統規劃與現場準備Sun Fire 6800/4810/4800/3800 系統銷售前諮詢服務•Sun Fire 6800/4810/4800/3800 系統概觀手冊•Sun Fire 6800/4810/4800/3800 Systems Site Planning　Guide　系統安裝Sun Fire 6800/4810/4800/3800 系統套件•Sun Fire6800/4810/4800/3800 系統入門•Sun Fire 6800/4810/4800/3800 系統安裝指南•Sun Fire 6800/4810/4800/3800 Systems Hardware ProductNotes　Sun Fire 6800/4810/4800/3800 系統 Doc 光碟•Sun FireCabinet Installation and Reference Manual　•Sun Fire 4810/4800/3800系統機櫃安裝指南•Sun Fire 6800/4810/4800/3800 系統平台管理手冊管理Sun Fire 6800/4810/4800/3800 系統 Doc 光碟•Sun Fire 6800/4810/4800/3800 系統軟體版本注意事項•Sun Fire 6800/4810/4800/3800 系統平台管理手冊•Sun Fire 6800/4810/4800/3800 System Controller　Command Reference Manual　Sun Management Center User’s Guid　Solaris System Administration Guide　Sun Fire 6800/4810/4800/3800 Systems Dynamic　Reconfiguration User Guide　維修與疑難排解Sun Fire 6800/4810/4800/3800 系統 Doc 光碟•Sun Fire 6800/4810/4800/3800 Systems Service Manual　•Sun Fire 6800/4810/4800/3800 系統平台管理手冊Sun Management Center User’s Guid　Solaris System Administration Guide　全球化Sun Fire 6800/4810/4800/3800 系統套件•法文、韓文、簡體㆗文及繁體㆗文版Sun Fire 6800/4810/4800/3800 System Task Map與Sun Fire 6800/4810/4800/3800 系統安裝指南Sun Fire 6800/4810/4800/3800 系統 Doc 光碟•doc 光碟㆖提供了其他本土化的手冊。

Appendixfi-6800 Technical SpecificationsProduct nameFI-6800 Supported operating systems Microsoft ® Windows ® 2000 Professional / Microsoft ® Windows ® XP(32 bit/64 bit) /Microsoft ® Windows Server ™ 2003 / 2008 (32 bit/64 bit) / Microsoft ® Windows Vista ™ (32 bit/64 bit)[VRS]Microsoft ® Windows ® 2000 Professional / Microsoft ® Windows ® XPProfessional (32 bit) / Microsoft ® Windows Vista™ Enterprise/Business (32bit/64bit)Scanner typeADF (Automatic Document Feeder)+Manual Feed Scanning modesSimplex / Duplex, Color / Grayscale / Monochrome Image sensor typeColor CCD (Charge-coupled device) x 2 (front x 1, back x 1) Light sourceWhite LED array Document sizeMaximum: A3 (297 x 420mm or 12 x 17in.) (long document scanning: 3048mm (120in.)) Minimum: A8 Portrait (52 x 74mm or 2 x 3in.) Paper weight (Thickness)Less than A5 size : 0.050 to 0.25mm (41 to 209 g/m 2, or 11 to 56 lb) A4 to A5 size : 0.025 to 0.25mm (20 to 209 g/m 2, or 5.4 to 56 lb) Over A4 : 0.050 to 0.25mm (41 to 209 g/m 2, or 11 to 56 lb) Color *2Grayscale *2Scanning speed (A4 Landscape) *1Monochrome Simplex : 130ppm (200, 300dpi), Duplex: 260ipm (200, 300dpi) (Duplex: 260ipm (200dpi), 250ipm (300dpi) *With CGA board) Color *2 Grayscale *2Scanningspeed (A4 Portrait) *1 MonochromeSimplex : 100ppm (200, 300dpi), Duplex: 200ipm (200, 300dpi) (Duplex: 200ipm (200,300dpi) *With CGA board) Paper chute capacity (A4 Landscape) *3500 sheets (A4: 80 g/m 2 or 21 lb) Expected daily volume60,000 sheets/day Background colorsWhite / Black (Selectable) Optical resolution600dpi Color (24 bit) Grayscale (8 bit) Outputresolution *4Monochrome (1 bit) 50 to 600dpi (adjustable by 1 dpi increments) (100 / 150 / 200 / 240 / 300 / 400dpi) *With CGA board Output format Color:24bit,8bit(8bit and 4bit with driver)Grayscale:8bit(4bit with driver) Monochrome:1bitAD converter 1024 levels (10 bit)Interface *5 *6 Ultra SCSI, USB2.0, With CGA board : Ultra Wide SCSI, USB2.0Connector shape Ultra SCSI : Shield type 50 pin (pin type) , USB: B typeWith CGA board : Ultra Wide SCSI : Shield type 68 pin(pin type),USB: B typeSCSI Terminator Built-inImage processing (half-tone) Dither / Error diffusionVoltage or voltage range AC 100 to 240V ±10%Power consumption Operating: 200W or less (Sleep mode: less than 4W *10)Operating environment Temperature: 15 to 35°C (59 to 95°F )Relative humidity: 20 to 80% (Non-condensing)Dimensions: Width x Depth x Height *7460 x 430 x 310mm (18.1 x 16.9 x 12.2in.)Installation space: 860 x 1630 x 350mm (33.8 x 64.1 x 13.7in.)Weight 32kgIncluded software / drivers TWAIN, ISIS™, ScandAll PRO, Adobe® Acrobat®, QuickScan™ ProDemo,Image processing software (Trial), Kofax® VRS Professional, Scan toMicrosoft SharePointEnvironmental compatibility *8 ENERGY STAR®, and RoHSMulti-feed detection Yes (Standard) ultrasonic multi-feed defection sensorOthersLong paperscanning *93048 mm (120in.)Included items AC cable, USB cable, Setup DVD-ROM, Adobe® Acrobat®DVD-ROM,QuickScan™ Pro brochure*1 Actual scanning speeds are affected by data transmission and software processing times.*2 JPEG compressed figures.*3 Maximum capacity varies, depending upon paper weight.*4 Maximum output resolutions may vary, depending upon the size of the area being scanned andwhether the scanner is scanning in simplex or duplex.*5 You cannot use both SCSI and USB 2.0 interfaces at the same time.*6 You cannot connect multiple computers to the scanner using each type of interface cables at the sametime.*7 Excluding the ADF hopper.*8 PFU Limited, a Fujitsu company, has determined that this product meets RoHS requirements(2005/95/EC).*9 Capable of scanning documents that exceed A3 size in length. For long page scanning with standardI/F: Documents that exceed 432mm (17in.) are limited to 400dpi for lengths up to 863mm (34in.). Documents between 863mm and 3,048mm (120in.) in length are limited to 300dpi. Multi-image documents up 432mm in length are limited to 400dpi. For long page scanning with VRS: Documentsthat exceed 432mm (17in.) are limited to 300dpi for lengths up to 1,778mm (70in.). Documentsbetween 1,778mm and 3,048mm (120in.) in length are limited to 200dpi. Documents that exceed432mm can be scanned under any resolution for lengths up to 1,016mm (70in.) when used with ISIS.*10 Without CGA board interface.■OptionsPost Imprinter(Front side)(FI-680PRF)PA03575-D201Post Imprinter(Back side) (FI-680PRB) PA03575-D203The imprinter option enables users to print information on original documentsfor document management purposes. While the FI-680PRF (post imprinter)prints information on the front of documents, the FI-680PRB (post imprinter)prints information on the reverse-side of documents after they have beenscanned. Although both the FI-680PRF and the FI-680PRB may be attachedto the same scanner unit, both imprinters cannot be used simultaneously.■ConsumablesPick Roller PA03575-K011Lifetime: Every 600,000 sheets or one year. These rollers feed documents into the scanner.Separator Roller PA03575-K012Lifetime: Every 600,000 sheets or one year.These rollers feed documents through the scanner.Brake Roller PA03575-K013Lifetime: Every 600,000 sheets or one year.These rollers separate documents as they are being fed into the scanner.Print Cartridge CA00050-0262 Lifetime: 4,000,000 charactersFI-680PRF and FI-680PRB print head。

SC6600H Audio Tester Application NotesVersion: 1.0.0HW-SC6600H-DS-00062007-09-01修订历史版本 日期 作者 说明 0.0.1 2007-09-01 Candy Zhi First draft.重要声明版权声明本文档中的任何内容受《中华人民共和国著作权法》的保护，版权所有 © 2007, 展讯通信有限公司，保留所有权利，但注明引用其他方的内容除外。

商标声明展讯通信有限公司和展讯通信有限公司的产品是展讯通信有限公司专有。

在提及其他公司及其产品时将使用各自公司所拥有的商标，这种使用的目的仅限于引用。

不作保证声明展讯通信有限公司不对此文档中的任何内容作任何明示或暗示的陈述或保证，而且不对特定目的的适销性及适用性或者任何间接、特殊或连带的损失承担任何责任。

保密声明本文档（包括任何附件）包含的信息是保密信息。

接收人了解其获得的本文档是保密的，除用于规定的目的外不得用于任何目的，也不得将本文档泄露给任何第三方。

目 录1Audio Tester 调试准备 (6)1.1NV Parameters Setting (6)1.2Download NV Parameters (9)2Audio Tester 软件环境 (14)2.1Channel Server Setting (14)2.2Audio Tester Setting (14)3Audio Tester 硬件环境 (17)3.1Test Setup (17)3.2Signal Connection Mode (18)4Audio Tester 使用解析 (19)4.1Detail Parameters Instruction (19)4.2DA Device / AD Device (19)4.3PGA Gain (20)4.4Digital gain (21)4.5EQ (21)4.6Side Tone (24)4.7AGC Switch (25)4.8Volume (25)4.9SampleRate (25)4.10AEC (25)4.11DePop（未实现） (25)4.12NG (25)4.13Volume Control (26)4.14Speaker off (26)4.15Mute (26)5Audio Tester 测试实例 (27)5.1Uplink Parameters Tuning (27)5.2Downlink Parameters Tuning (28)5.3Side tone Tuning (29)6Audio Tester 参数保存和更新 (31)6.1Audio Parameters Saving (31)6.2Audio Parameters Update (31)7Audio NV参数解析 (34)7.1Audio Structure (34)7.2Audio Structure Specification (34)7.3ARM Volume 设置方法 (37)1 Audio Tester 调试准备1.1 NV Parameters Setting使用 Audio Tester调试AUDIO参数前，先要对手机的NV参数进行设置：1、将手机串口0与PC连接。

H3C S6800 Series Data Center Switches Release Date: Nov,2022H3C Technologies Co., LimitedH3C S6800 Series Data Center SwitchesProduct overviewH3C S6800 series switch is H3C self-developed cloud ready data center intelligent switches. The S6800 series switch delivers cloud ready features, such as VXLAN, OpenFlow and EVPN, a rich set of features for data centers. As the most compact formed 10G/40G/100G solution in the industry, the S6800 series switch is perfectly matched for high density 10GE access or 40G/100G aggregation in intelligent data centers and cloud computing networks. The S6800 series switch can also fit nicely as the TOR switch of overlay networks.Product AppearanceThe S6800 series come in the following models:∙H3C S6800-54QF: 48*1/10G SFP Plus, 6*QSFP+S6800-54QF Front View S6800-54QF Rear View∙H3C S6800-54QT: 48*1/10GBase-T, 6*QSFP+S6800-54QT Front View S6800-54QT Rear View∙H3C S6800-32Q: 32*QSFP+ (40G)S6800-32Q Front View S6800-32Q Rear View∙H3C S6800-2C: 2 interface slotsS6800-2C Front View (Module Installed)S6800-2C Rear View∙H3C S6800-4C: 4 interface slotsS6800-4C Front View (Module Installed)S6800-4C Rear ViewProduct CharacteristicsFlexible port combination∙H3C S6800-2/4C support various types of interface cards, realize mixed configuration of high-density 10GE optical and copper port / 40GE / 100GE/MACsec/FC interface.∙For S6800-4C， It can support up to 96 10GE ports and 8 40GE ports, or 32 40GE high-speed interfaces.Data Center-Oriented Features∙The switch supports abundant data center features, including:∙H3C S6800 series switch supports VXLAN (Virtual eXtensible LAN), which provides two major benefits, higher scalability of Layer 2 segmentation and better utilization of available network paths.∙H3C S6800 series switch supports MP-BGP EVPN (Multiprotocol Border Gateway Protocol Ethernet Virtual Private Network) which can run as VXLAN control plane to simplify VXLAN configuration, eliminate traffic flooding and reduce full mesh requirements between VTEPs via the introduction of BGP RR.∙H3C S6800 series switch support Fiber Channel over Ethernet (FCoE), which permits storage, data, and computing services to be transmitted on one network, reducing the costs of network construction and maintenance.∙H3C S6800-2C/4C switch support Fiber Channel interface card, the ports can be switched to FC port to interoperate with FC SAN.∙H3C S6800 series switch support Priority-based Flow Control (PFC), Enhanced Transmission Selection (ETS) and Data Center Bridging eXchange (DCBX). These features ensure low latency and zero packet loss for FC storage and high-speed computing services.∙H3C S6800 series switch support TRILL (Transparent Interconnection of Lots of Links). TRILL is an innovative technology that changes the traditional way to build data center networks. By using TRILL technology, S6800 series switch becomes the ideal choice to build a large, high-performance, and scalable cloud data center networks that support live virtual machines.H3C Distributed Resilient Network Interconnection (DRNI)∙H3C S6800 series switch support DRNI, which enables links of multiple switches to aggregate into one to implement device-level link backup. DRNI is applicable to servers dual-homed to a pair of access devices for node redundancy.∙ Streamlined topology: DRNI simplifies the network topology and spanning tree configuration by virtualizing two physical devices into one logical device.∙Independent upgrading: The DR member devices can be upgraded independently one by one to minimize the impact on traffic forwarding.∙High availability: The DR system uses a keepalive link to detect multi-active collision to ensure that only one member device forwards traffic after a DR system splits.RoCE (RDMA over Converged Ethernet)∙Remote Direct Memory Access (RDMA) directly transmits the user application data to the storage space of the servers, and uses the network to fast transmit the data from the local system to the storage of the remote system. RDMA eliminates multiple data copying and context switching operations during the transmission process, and reduces the CPU load.∙RoCE supports RDMA on standard Ethernet infrastructures. H3C S6800 switch support RoCE and can be used to build a lossless Ethernet network to ensure zero packet loss.∙RoCE include the following key features, include PFC(Priority based Flow Control), ECN(Explicit Congestion Notification), DCBX(Data Center Bridging Capability Exchange Protocol), ETS(Enhanced Transmission Selection).Powerful SDN capacity∙ H3C S6800 series switch adopt the next-generation chip with more flexible OpenFlow, more resources and accurate ACL matching, which greatly improves the software-defined network (SDN) capabilities and meet the demand of data center SDN network.∙ H3C S6800 series switch support standard OpenFlow protocol, which can be integrated and managed by H3C VCFC controller or H3C cloud or mainstream cloud platforms or a third-party controller to support flexible network customization and automated management. Users and third-party controllers can use standard interfaces to develop and deploy a dedicated network management strategy for rapid business deployment, functional expansion, and intelligent device management.MACsec∙H3C S6800 series switch supports hardware level encryption technology MACsec (802.1ae), which is an industry-standard security technology that provides secure communication for all traffic on Ethernet links. Compared with traditional application-based software encryption technology, MACsec provides point to-point security on Ethernet links between directly connected nodes and is capable of identifying and preventing most security threats.Outstanding security control policies∙H3C S6800 series switch supports AAA, RADIUS and user account based authentication, IP, MAC, VLAN, port-based user identification, dynamic and static binding; when working with the H3C iMC platform, it can conduct real time management, instant diagnosis and crackdown on illicit network behavior.∙H3C S6800 series switch supports enhanced ACL control logic, which enables an enormous amount of in-port and out- port ACL, and delegate VLAN based ACL. This simplifies user deployment process and avoids ACL resource wastage. S6800 switch series can also take advantage of Unicast Reverse Path Forwarding (uRPF). When the device receives a packet, it will perform the reverse check to verify the source address from which the packets are supposedly originated, and will drop the packet if such path doesn’t exist. This will curb the increasingly common originating address spoofing.Flexible choice of airflow∙To cope with data center cooling aisle design, the H3C S6800 series switch comes with flexible airflow design, which features bi-cooling aisles in the front and back. Users may also choose the direction of airflow (from front to back or vice versa) by selecting a different fan tray.Multiple Reliability∙H3C S6800 series switch provides multiple reliability protection at both switch and link levels. With overcurrent, overvoltage, and overheat protection, all models have a redundant pluggable powermodule, which enables flexible configuration of AC or DC power modules based on actual needs. The entire switch supports fault detection and alarm for power supply and fan, allowing fan speed tochange to suit different ambient temperatures.Excellent manageability∙H3C S6800 series switch provides a rich management interface, including console, external network and USB. Management protocols such as SNMPv1/v2/v3 are supported aside from iMC ManagementConsole. The network administrator may activate control through CLI, TELNET, SSH, SNMP, RESTful API, which gives maximum flexibility in accessing and managing the device. The administrator may also choose SSH2.0 and SSL encryption to shield the management session.Product SpecificationHardware SpecificationItem S6800-54QF S6800-54QT S6800-32Q S6800-2C S6800-4CDimensions (H × W × D) 44×440×400mm1.73×17.32×15.75in44×440×460mm1.73×17.32×18.11in43.6×440×660mm1.72×17.32×18.11in44.2×440×660mm1.74×17.32×18.11in88.1×440×660mm3.4×17.32×18.11inWeight ≤13kg (28.66 lb) ≤13kg (28.66 lb) ≤13kg (28.66 lb) ≤16Kg (35.27 lb) ≤27Kg (59.52 lb) Serial console port 1 1 1 1 1Out-of-bandmanagement portOne GE copper port and one GE fiber portMini USB console port 11 11 1USB port 1 1 1 1 1QSFP+ port 6 6 32 2 -SFP port 48 - - - -1/10GBASE-T port - 48 - - - Expansion slot - - - 2 4CPU 1GHz@2Core 1GHz@2Core 1GHz@2Core 1GHz@2Core 1GHz@2Core Flash/SDRAM 1GB/4GB 1GB/4GB 1GB/4GB 1GB/4GB 1GB/4GB Latency <1μm <1μm <1μm <1μm <1μm Switching capacity 1.44Tbps 1.44Tbps 2.56Tbps 1.44Tbps 2.56Tbps Forwarding capacity 1080Mpps 1080Mpps 1440Mpps 1080Mpps 1440Mpps Buffer(byte) 16M 16M 16M 16M 16MAC-input voltage Related voltage range: 100V to 240V AC, 50/60Hz Maximum voltage range: 90V to 290V AC,DC-input voltage Related voltage range: -38.4V to -72V DCPower module slot 2 2 2 2 4Fan tray slot Three hot-swappable fan Five hot-swappable fan Two hot-swappable fanAir flow direction From front to rear or from rear to frontStatic power consumption 250W ACSingle AC：65WDual AC：71W450W ACSingle AC：68WDual AC：79W450W DCSingle DC：67WDual DC：76WSingle AC：103WDual AC：109WSingle DC：107WDual DC：113WSingle AC: 132WDual AC: 145WSingle DC: 128WDual DC: 142WSingle AC: 95WDual AC: 110WSingle DC: 91WDual DC: 105WDual AC: 135WThree AC: 150WFour AC: 165WDual DC: 131WThree DC: 145WFour DC: 155WTypical power consumption 250W ACSingle AC：165WDual AC：175W450W ACSingle AC：166WDual AC：175W450W DCSingle AC：103WDual AC：109WSingle DC：107WDual DC：113WSingle AC: 291WDual AC: 301WSingle DC: 291WDual DC: 299WSingle AC:439WDual AC: 450WSingle DC：443WDual DC: 445WDual AC: 827WThree AC: 837WFour AC: 856WDual DC: 823WThree DC: 825WFour DC: 828WItem S6800-54QF S6800-54QT S6800-32Q S6800-2C S6800-4CMaximum heat consumption(BTU/hour)250W ACSingle AC：563WDual AC：597W450W ACSingle AC：566WDual AC：597W450W DCSingle DC：566WDual DC：583WSingle AC：351WDual AC：372WSingle DC：365WDual DC：385WSingle AC: 993WDual AC: 1027WSingle DC: 993WDual DC: 1020WSingle AC:1498WDual AC:1535WSingle DC：1511WDual DC: 1518WDual AC: 2822WThree AC: 2856WFour AC: 2920WDual DC: 2808WThree DC: 2815WFour DC: 2825WOperatingtemperature0℃ to 45℃ (32°F to 113°F)Operating humidity 5% to 95%, noncondensingMTBF(year)63.1246.9341.147.245.96 MTTR(hour)11111 Software SpecificationItem Feature descriptionDevice Virtualization IRFM-LAG(DRNI) S-MLAGNetwork Virtualization BGP-EVPN VxLAN EVPN ESVxLAN L2 VxLAN gatewayL3 VxLAN gateway Distributed VxLAN gateway Centrilized VxLAN gateway EVPN VxLANmanual configured VxLAN IPv4 VxLAN tunnelQinQ VxLAN accessSDN H3C SeerEngine-DCLossless network PFC and ECNDCBXRDMA and ROCEPFC deadlock watchdogTraffic analysis SflowItem Feature descriptionProgrammability AnsiblePython//TCL/Restful API to realize DevOps automated operation and maintenance Openflow1.3NetconfVLAN Port-based VLANsMac-based VLAN ,Subnet-based VLAN and Protocol VLAN VLAN mappingQinQMVRP(Multiple VLAN Registration Protocol)Super VLANPVLANMAC address Dynamic learning and aging of mac address entries Dynamic,static and blackhole entriesMac address limiting on portsIPv4 routing RIP(Routing Information Protocol) v1/2OSPF (Open Shortest Path First) v1/v2ISIS(Intermediate System to Intermediate system) BGP (Border Gateway Protocol)Routing policyVRRPPBRIPv6 routing RIPng OSPF v3IPv6 IS IS BGP4+ Routing policy VRRPPBRMPLS/VPLS Support L3 MPLS VPNSupport L2 VPN: VLL (Martini, Kompella) Support MCESupport MPLS OAMSupport VPLS, VLLSupport hierarchical VPLS and QinQ+VPLS access Support P/PE functionSupport LDP protocolSupport L3 MPLS VPNSupport L2 VPN: VLL (Martini, Kompella) Support MCEItem Feature descriptionMPLS/VPLS IGMP snoopingMLD snoopingIPv4 and IPv6 multicast VLAN IPv4 and IPv6 PIM snooping IGMP and MLDPIM and IPv6 PIMMSDPMuticast vlanMuticast VPNReliability LACPSTP/RSTP/MSTP protocol, PVST compatibleSTP Root Guard and BPDU GuardRRPP and ERPSEthernet OAMSmartlinkDLDPBFD for OSPF/OSPFv3, BGP/BGP4, IS-IS/IS-ISv6, PIM/IPM for IPv6 and Static route VRRP and VRRPELACPSTP/RSTP/MSTP protocol, PVST compatibleSTP Root Guard and BPDU GuardFC/FOCE FC, FC subcard is supported on S6800-2C/S6800-4C FCOEQOS Weighted Random Early Detection (WRED) and tail dropFlexible queue scheduling algorithms based on port and queue, including strict priority (SP), WeightedDeficit Round Robin (WDRR), Weighted Fair Queuing (WFQ), SP + WDRR, and SP + WFQ.Traffic shapingPacket filtering at L2 (Layer 2) through L4 (Layer 4); flow classification based on source MAC address, destination MAC address, source IP (IPv4/IPv6) address, destination IP (IPv4/IPv6) address, port, protocol, and VLAN to apply qos policy,including mirroring,redirection,priority remark etc. Committed access rate (CAR)Account by packet and byteCOPPWeighted Random Early Detection (WRED) and tail dropFlexible queue scheduling algorithms based on port and queue, including strict priority (SP), WeightedDeficit Round Robin (WDRR), Weighted Fair Queuing (WFQ), SP + WDRR, and SP + WFQ.Traffic shapinggRPCItem Feature descriptionConfiguration and maintenance Console telnet and SSH terminals SNMPv1/v2/v3ZTPSystem logFile upload and download via FTP/TFTP BootRom update and remote update NQAping,tracertNTPPTP(1588v2)GIR Graceful Insertion and RemovalSecurity and management Macsec, Macsec subcard is supported on S6800-2C/4C, and only 100G macsec subcard can supp 256-bit AES encryptionHierarchical management and password protection of usersAuthentication methods,including AAA,RADIUS and HWTACACSSupport DDos, ARP attack and ICMP attack functionIP-MAC-port binding and IP Source GuardSSH 2.0HTTPSSSLPKIBoot ROM access control (password recovery)RMONEMC FCC Part 15 Subpart B CLASS A ICES-003 CLASS AVCCI CLASS ACISPR 32 CLASS AEN 55032 CLASS AAS/NZS CISPR32 CLASS A CISPR 24EN 55024EN 61000-3-2EN 61000-3-3ETSI EN 300 386GB/T 9254YD/T 993IEEE Standard 802.3x/802.3ad/802.3AH/802.1P/802.1Q/802.1X/802.1D/802.1w/802.1s/802.1AG 802.1x/802.1Qbb/802.1az/802.1QazUL 60950-1CAN/CSA C22.2 No 60950-1IEC 60950-1Performance and scalabilityData Center ApplicationThe typical data center application is an EVPN-VxLAN design,S125G-AF or S125X-AF swithes work as spine or spine/border, S68XX series work as leaf and border or ED. From this design ,the usrs can get a non-blocking large L2 system.Order informationNew H3C Technologies Co., LimitedBeijing HeadquartersTower 1, LSH Center, 8 Guangshun South Street, Chaoyang District, Beijing, ChinaZip: 100102Hangzhou HeadquartersNo.466 Changhe Road, Binjiang District, Hangzhou, Zhejiang, ChinaZip: 310052 Copyright ©2022 New H3C Technologies Co., Limited Reserves all rightsDisclaimer: Though H3C strives to provide accurate information in this document, we cannot guarantee that details do not contain any technical error or printing error. Therefore, H3C cannot accept responsibility for any inaccuracy in this document. H3C reserves the right for the modification of the contents herein without prior notification。