SR6608指标引导(Vs Cisco)V1.0(20070817)

TAPE APPLICATION NOTECONNECTING THE M2488 TO ANIBM RISC SYSTEM 6000 RUNNING AIX 4.1.3FOREWORDThis application note describes the procedure to use when attaching to an IBM RISC System 6000 running AIX 4.1.3.Instructions cover installing the M2488 tape drive hardware and configuring the system to communicate with theM2488. The AIX manuals provide detailed descriptions of many of the operations performed in this application note.PROCEDUREYou must be superuser to perform the operations in this procedure.Displays are presented in this typeface:/etc/passwdUser entries are presented in this typeface:bootSTEP ACTION1Shut down the IBM RS/6000 and power the unit off.2Ensure that the M2488 is properly terminated and connect the M2488 tape drive to the RS/6000’s SCSI controller. The M2488 Cartridge Tape Drive Product Guide (part number CG00000-0115xx) may beuseful for configuration of the M2488. Set the SCSI target ID to either 4 or 5. Address 4 will be used forthe examples in this application note.3Power on the M2488 and wait for the power cycle to complete.4Turn the RS/6000 AC power on and reboot the system. The key should be set to the “Normal” position.5Log on as root.6During the boot sequence, the system adds the M2488 to its customized configuration table as a defined tape drive. Verify that the system has added the M2488.From the aixterm command line, type smit, then choose:•Select Devices•Select Tape Drive•Select List All Defined Tape DrivesCG00000-019001STEP ACTION6 (con’t)The system will display the tape drives connected to SCSI I/O controller(s) as in the example shownbelow (note that under “status” below, the system may return a status of “Defined” or “Available”):name status location descriptionrmt0Defined00-01-00-4, 0Other SCSI Tape DriveWhere:name the logical name of the M2488 (rmt0)status whether the drive is Defined (known, but not ready for use) or Available (readyfor use). If the status is reported as “Defined” go to Step 7. If the status is reportedas “Available” go to Step 9.location the SCSI ID of the M2488 (4, 0 in the example)description a short description of the tape drive type. The M2488 is added as “Other SCSItape drive”If status was returned as “Defined”, the M2488 has been added to the defined tape drive list asdescribed in Step 6. Now, change the M2488's status from Defined to Available (defined and readyfor use).When you are ready, select Done.7From the SMIT Devices -Tape Drive window select:•Configure a Defined Tape DriveThe system displays a list of defined tape drives. Select the M2488 by its logical address and loca-tion. The system responds by reporting the status of your command.To verify that the system has changed the status of the M2488 from defined to available, selectList All Defined Tape Drives. The system displays:name status location descriptionrmt0Available00-01-00-4, 0Other SCSI Tape DriveWhen you are ready, select Done.8If the system has returned a status of “Available,” you may want to change the attributes of theM2488 to meet the needs of the customer's system. Follow these instructions to change tape driveattributes.9From the SMIT Devices -Tape Drive window select:•Change / Show characteristics of a Tape DriveThe system displays a table of all of its defined tape drives. Select the M2488 by its logical addressand location.10Setting or changing M2488 AttributesThe system will display the attributes assigned to the M2488 tape drive.You can change the follow-ing attributes as necessary (recommended settings are in UPPER case).2 of 4CG00000-019001February 1996STEP ACTION10 (con’t)BLOCK size (0=variable length)0Use DEVICE BUFFERS during writes YESUse EXTENDED filemarks YESDo not set to NOBLOCKSIZE for variable length support0DENSITY setting #19DENSITY setting #29Set delay after a FAILED command10Set maximum delay for the READ/WRITE command120Select OK.11To leave SMIT, select Done,Cancel,Cancel, and Cancel. The SMIT window will close.12To test the M2488 save the “/etc/passwd” file to tape using the tar command:tar -cvf /dev/rmt0 /etc/passwdThe system responds with: a/etc/passwd 1 blocksNote: depending on the size of the file, a different number of blocks may be reported.13Verify that the “/etc/passwd” file was saved to tape by executing the following command:tar tf /dev/rmt0The system responds with: /etc/passwdInstallation and verification of the system is now complete.NOTESIt is assumed that the user has a standard M2488 and is familiar with the SCSI-2 standard and host operating system conventions.The user assumes all responsibility for understanding the interrelationships of this information with other affected software or system products. Fujitsu Computer Products of America (FCPA) provides this information as a service only, and assumes no responsibility for any damages which could result from the use of this information.The information in this application note is subject to change without notice and is not to be construed as a commit-ment by FCPA.February 1996CG00000-019001 3 of 44 of 4CG00000-019001February 1996。

TCC8900/9100/9200 WinCE BSP Driver Modification GuideSeptember, 2009TelechipsWinCE BSP TeamCONTENTS1.How to set CPU and BUS clocks on TCC8900 WinCE BSP1)Overview2)F_CPU: Available CPU Clock3)F_MBUS: Available Memory BUS(DDR2) Clock, clock change4)F_VBUS, F_VCOD2.Touch Driver3.Backlight Control Example Guide-Out Guide5.Serial Driver6.DRAM Control1)ODT(On Die Termination)2)DRAM Type Selection7.How to configure VFP (Vector Floating Point) on BSP8.Hive-based Registry Setup•Overview–TCC8900 have 4 PLL sources, each PLL is asserted to each BUS and peripheral –Below figure shows overview of clock settingsName DescriptionF_CPU CPU Clock FrequencyF_MBUS CPU Interface and Memory Bus ClockF_DBUS Bus Clock for Display Device (Video In/Out + Display Related Hardwares)F_GBUS Bus Clock for Graphic DeviceF_VBUS Bus Clock for Video Processing (Video Codec)F_VCOD Core Clock for Video Codec (Moving Video Only)F_IOBUS Bus Clock for I/O Interface DevicesF_SMUBus Clock for System Management UnitPLL0Nominal: 540MHz High: 800MHz PLL1Nominal: 560MHz High: 660MHzPLL2468MHz PLL3528MHzF_CPU F_MBUS F_DBUSF_GBUS F_VBUS F_VCOD F_SMU ADC LCD LVDSSDMMC USB Host1.1Nominal voltage High voltage 600MHz 280MHz 264MHz 264MHz330MHz F_IOBUS common176MHz 156MHz 176MHz156MHz 117MHz 264MHz 234MHz234MHz 39MHz UART 52MHz 156MHz 132MHz 48MHz132MHzCore Voltage 506MHz•F_CPU: Available CPU Clock–Below table shows available clock values of CPU.–You can change F_CPU in application layer by IOCTL. Refer below example60000005062500486000047250004556250438750042525004050000394875037800003712500364500035100003375000324000030375002970000283500027000002632500243000023625002227500216000020250001890000182250017500001687500162000014850001417500135000012150001015000945000810000675000607500540000405000Core Freq.(100Hz)-Application Example CodepCKCIOCTL.ioctlcode = IOCTL_CKC_SET_CHANGECPU ;pCKCIOCTL.cpuvalue = 5062500;KernelIoControl(IOCTL_HAL_TCCCKC , &, &pCKCIOCTL pCKCIOCTL pCKCIOCTL, , , sizeof(stckcioctl sizeof(stckcioctl sizeof(stckcioctl), &), &), &pCKCINFO pCKCINFO pCKCINFO, , sizeof(stckcinfo sizeof(stckcinfo), &), &), &returnedbyte returnedbyte returnedbyte););•F_MBUS: Available Memory BUS(DDR2) Clock–Below table shows available clock values of BUS.–You can change F_MBUS in application layer by IOCTL. Refer below exampleCaution:MEM_BUS = Source/(divisor+1)The divisor should not be “Even Number”or “ZERO”.If divisor is even number, system would be unstable.330000032000003120000300000029000002800000270600026060002500000240000023000002200000210000020000001900000180000017000001600000150000014500001410000Fmbus Unit (100hz)-Application Example CodepCKCIOCTL.ioctlcode = IOCTL_CKC_SET_CHANGEMEM ; // ; // IOCtrl IOCtrl Name Name --Update Update ioctl_code.h ioctl_code.h pCKCIOCTL.busvalue pCKCIOCTL.busvalue= 3200000; // 2640000;= 3200000; // 2640000;KernelIoControl(IOCTL_HAL_TCCCKC , &, &pCKCIOCTL pCKCIOCTL pCKCIOCTL, , , sizeof(stckcioctl sizeof(stckcioctl sizeof(stckcioctl), ), &pCKCINFO,sizeof(stckcinfo pCKCINFO,sizeof(stckcinfo), &), &), &returnedbyte returnedbyte returnedbyte););•F_xBUS: Available Clock–Below table shows available clock values of F_xBUS.–You can change F_xBUS in application layer by IOCTL. Refer below example2340000264000015600001760000117000013200009360001056000780000880000668600754300585000660000520000586700468000528000425500480000390000440000360000406200334300377100312000352000292500330000Fxbus Unit(100Hz)-Application Example CodepCKCIOCTL.ioctlcode = IOCTL_CKC_SET_CHANGEFBUS ; // ; // IOCtrl IOCtrl Name Name --Update Update ioctl_code.h ioctl_code.h pCKCIOCTL.pckcname = CLKCTRL5; // = CLKCTRL5; // Fvbus Fvbus pCKCIOCTL.pckcfreq = 2640000; // 2640000;KernelIoControl(IOCTL_HAL_TCCCKC , &, &pCKCIOCTL pCKCIOCTL pCKCIOCTL, , , sizeof(stckcioctl sizeof(stckcioctl sizeof(stckcioctl), &), &), &pCKCINFO pCKCINFO pCKCINFO, , sizeof(stckcinfo sizeof(stckcinfo), &), &), &returnedbyte returnedbyte returnedbyte););•F_MBUS–Before changing clock of DDR2, DDR2 should be paused.–Refer below flow chart.–Currently, changing clock of DDR2 is only supported on bootloader.1. Location of source code-Src\LIB\SOC\DDR\TCC89x\init_MEM.c 2. Function to be referred-volatile void init_bootddr(void)-void init_copybootddr(voidCopy init_bootddr() from DDR2 to SRAMPause DDR2Change Clock of DDR2Turn on DLL volatile void init_bootddr(void){…//PLL1 is assigned for clock of DDR2*(volatile unsigned long *)0xF0400024= 0x0000fa03; // pll pwr offif(lpll1 == 660) // to use 660, clock voltage should be increased{*(volatile unsigned long *)0xF0400024= 0x00006E02; // pms-pllout_660M *(volatile unsigned long *)0xF0400024= 0x80006E02; // pll pwr on }else if(lpll1 == 560){*(volatile unsigned long *)0xF0400024= 0x00008c03; // pms-pllout_560M *(volatile unsigned long *)0xF0400024= 0x80008c03; // pll pwr on }else{*(volatile unsigned long *)0xF0400024= 0x00008c03; // pms-pllout_560M *(volatile unsigned long *)0xF0400024= 0x80008c03; // pll pwr on }…// Set clock of DDR2*(volatile unsigned long *)0xF0400008 = (0x00200000 | ((lmem_div-1) << 4)|lmem_source); // CKC-CLKCTRL2 -Mem…}Turn off DLLGo DDR2Caution:MEM_BUS = Source/(divisor+1) // The divisor should not be “Even Number”or “ZERO”In case of above code, value of lmem_div should be “Even number”•F_MBUS–Compile procedureTouch Driver•You should modify MIN_X, MAX_X, MIN_Y, MAX_Y according to version of EVB.1.#ifdef _USING_GPIO_MODE_2.#define MAX_X 38043.#define MIN_X 2254.#define MAX_Y 36905.#define MIN_Y 4006.#else7.#if _OLD_BOARD_8.#define MAX_X 31009.#define MIN_X 105010.#define MAX_Y 268011.#define MIN_Y 136012.#else13.#define MAX_X 315014.#define MIN_X 97015.#define MAX_Y 269016.#define MIN_Y 134017.#endif 18.#endifFile Location: \Magellan \Src \DRIVERS \Touch2H/W Ver.: TCC89/91/9200_MAIN V0.1H/W Ver.: TCC89/91/9200_MAIN V1.0/1.1Backlight Control Example Guide•To control brightness of LCD backlight, modify value of “vTimerAddr->TMREF3”–Maximum value of that variable is BKL_LEVEL_MAXexamplevoid tca_bkl_init(unsigned int tmr_vaddr, unsigned int gpio_vaddr){PTIMER vTimerAddr= (PTIMER) tmr_vaddr;PGPIO vGpioAddr= (PGPIO) gpio_vaddr;vTimerAddr->TCFG3 = 0x124;vTimerAddr->TREF3 = BKL_LEVEL_MAX;vTimerAddr->TCFG3 = 0x125;BITCSET(vGpioAddr->GPAFN0, Hw32-Hw28, Hw29);BITSET(vGpioAddr->GPAEN,Hw7);BITSET(vGpioAddr->GPADAT,Hw7);}•IOCTLs–IOCTL_BLK_SETPOWER : set backlight 0 ~ 100–IOCTL_BLK_GETPOWER : get backlight valueWinCE BSP TV-Out Guide •Check Catalog Item –TvOut DriverSet TV Output FormatEnable TV-OutDisable TV-OutLCD OutputTV OutputSwitching: LCD-OutChanging: TV-Out FormatSwitching: TV-Out •Overview: Switching LCD/TV Output & Change TV-Out Format•Set TV Output Format–Synopsis•DeviceIoControl(handle, IOCTL_TVOUT_TYPE,&mode, sizeof(mode), NULL, NULL, NULL, NULL);–Parameters:•IOCTL_TVOUT_TYPE–IOCTL code for setting TV output format.–Refer to: ‘IOCTL Code Definition for TV-Out’•handle: TVOUT device handle.•mode : TV output format code–Data-type: unsigned int (4 bytes)–Value: Refer to‘Supported TV Output Format’•Enable TV-Out–Synopsis•DeviceIoControl(handle, IOCTL_TVOUT_OPEN,NULL, NULL, NULL, NULL, NULL, NULL);–Parameters:•IOCTL_TVOUT_OPEN–IOCTL code for enable TV-out.–Refer to: ‘IOCTL Code Definition for TV-Out’•handle: TVOUT device handle.•Disable TV-Out (Enabled LCD-Out)–Synopsis•DeviceIoControl(handle, IOCTL_TVOUT_CLOSE,NULL, NULL, NULL, NULL, NULL, NULL);–Parameters:•IOCTL_TVOUT_CLOSE–IOCTL code for disable TV-Out.–Refer to: ‘IOCTL Code Definition for TV-Out’•handle: TVOUT device handle.•Connect LCDC–Synopsis•DeviceIoControl(handle, IOCTL_TVOUT_CONNECT_LCDC, &id, sizeof(id), NULL, NULL, NULL, NULL);–Parameters:•IOCTL_TVOUT_CONNECT_LCDC–IOCTL code for connect LCDC0 or LCDC1–Default: Connected with LCDC1.•handle: TVOUT device handle.•id : LCDC Index–Data-type: unsigned int(4 bytes)–0: LCDC0, 1: LCDC1•API: Supported TV Output Format Definition/* Supported TV Output Format Code Definition*/#define NTSC_M0x0000#define NTSC_M_J0x0001#define NTSC_N0x0010#define NTSC_N_J0x0011#define NTSC_4430x0020#define PAL_M0x0100#define PAL_N0x0110#define PAL_B0x0120#define PAL_G0x0130#define PAL_H0x0140#define PAL_I0x0150#define PSEUDO_NTSC 0x1000#define PSEUDO_PAL0x1010•API: IOCTL Code Definition for TV-Out/* IOCTL Code for TV-Out */#define IOCTL_TVOUT_TYPE TCC_IOCTLCode(1200, METHOD_BUFFERED) #define IOCTL_TVOUT_OPEN TCC_IOCTLCode(1201, METHOD_BUFFERED) #define IOCTL_TVOUT_CLOSE TCC_IOCTLCode(1202, METHOD_BUFFERED) #define IOCTL_TVOUT_CONNECT_LCDC TCC_IOCTLCode(1203, METHOD_BUFFERED)int lcd_tvout(int mode_idx){int handle;unsigned int mode;switch(mode_idx){case 1 : mode = NTSC_M; break;case 2 : mode = NTSC_M_J; break;case 3 : mode = NTSC_N; break;case 4 : mode = NTSC_N_J; break;case 5 : mode = NTSC_443; break;case 6 : mode = PAL_M; break;case 7 : mode = PAL_N; break;case 8 : mode = PAL_B; break;case 9 : mode = PAL_G; break;case 10 : mode = PAL_H; break;case 11 : mode = PAL_I; break;case 12 : mode = PSEUDO_NTSC; break;case 13 : mode = PSEUDO_PAL; break;case 0 :default :mode = 0xFFFF;break;}handle = CreateFile(L"TVO1:", GENERIC_WRITE, NULL, NULL, OPEN_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);if ( handle == INVALID_HANDLE_VALUE)return -1;if(mode== 0xFFFF){DeviceIoControl(handle, IOCTL_TVOUT_CLOSE,NULL, NULL, NULL, NULL, NULL, NULL);}else{DeviceIoControl(handle, IOCTL_TVOUT_TYPE,&mode, sizeof(mode), NULL, NULL, NULL, NULL);ioctl(fd, TCC_LCD_FB_IOCTL_TVOUT_TYPE, &mode);DeviceIoControl(handle, IOCTL_TVOUT_CLOSE,NULL, NULL, NULL, NULL, NULL, NULL);}CloseHandle(handle);return 0;}•Example•TV-OUT Demo: Using TCDiagnostics application1.Run TCDiagnostics application2.Select [TV-Out]tab.3.Select TVOUT format•Using [Tv Type]combo box•NTSC_M, PAL_M, …4.Display to TV.•Using [TV Output]button5.Display to LCD.•Using [LCD Output]button•Channel and Port–Channel: TCC8900 provides 6 number of channels, UART 0~5•refer datasheet of TCC8900–Port: Port 0~5–In TCC8900 BSP, basically channel number and port number same•Channel and port of UART driver on TCC8900 Evaluation Board–Bluetooth: Port1 –GPS: Port5•GDMA–UART channel 0~3 only can use GDMA, other channel can not use GDMA1-1 (TX)1-0 (RX) 11COM23-1 (Reserved)3-0 (TX) 53COM1GDMAPort Channel•BOOL CPddUart::Init(DWORD nComNumber)(pddserial.cpp)//DMA TX UsagebUsingDMA=TRUE;// Set GDMA Number to be usedPTV_DMA(3,&pVirtualDmaAddr); // using DMA ch3// Set GDMAx Channel to be usedm_DmaNumber= 0;// Configure Buffer for GDMA ChannelTXBUFFADDR=(DWORD*)ptVtSysparam->DMA3.CH0_BUFFER; TXBUFFADDR_PHY=(DWORD*)ptPhySysparam->DMA3.CH0_BUFFER;// register DMA ISRSetupDmaISR(m_ComNumber, true);// Initialize interruptKernelIoControl(IOCTL_HAL_REQUEST_SYSINTR…..);m_DMATxEvent= CreateEvent(0,FALSE,FALSE,NULL); InterruptInitialize(m_dwSysIntrDMATx,m_DMATxEvent,0,0);//DMA RX UsageRXIntrusing=TRUE;//Set GDMA Number to be usedPTV_DMA(1,&pVirtualDmaAddr); // using DMA ch1// Set GDMAx Channel to be usedm_RXDmaNumber= 1;// Configure Buffer for GDMA ChannelRXBUFFADDR=(DWORD*)ptVtSysparam->DMA1.CH1_BUFFER; RXBUFFADDR_PHY=(DWORD*)ptPhySysparam->DMA1.CH1_BUFFER;// register DMA ISRSetupDmaISR(m_ComNumber, false);// Initialize interruptKernelIoControl(IOCTL_HAL_REQUEST_SYSINTR…..);m_DMATxEvent= CreateEvent(0,FALSE,FALSE,NULL); InterruptInitialize(m_dwSysIntrDMARx,m_DMARxEvent,0,0);TX Configuration of UART RX Configuration of UART•Change Port and change (COM1 COM2)Original Setting; Physical COM1;(GPS ch: 3, GPIO port: 5)[HKEY_LOCAL_MACHINE\Drivers\BuiltIn\Serial1] "COM_ChNum"=dword:3"COM_PortNum"=dword:5; Physical COM2; (BT ch: 1, GPIO port: 1)[HKEY_LOCAL_MACHINE\Drivers\BuiltIn\Serial2] "COM_ChNum"=dword:1"COM_PortNum"=dword:1Modified Setting; Physical COM1;(GPS ch: 3, GPIO port: 5)[HKEY_LOCAL_MACHINE\Drivers\BuiltIn\Serial1] "COM_ChNum"=dword:1"COM_PortNum"=dword:1; Physical COM2; (BT ch: 1, GPIO port: 1)[HKEY_LOCAL_MACHINE\Drivers\BuiltIn\Serial2] "COM_ChNum"=dword:3"COM_PortNum"=dword:5DRAM Control•ODT(On-Die-Termination) Enable/Disable–ODT is enabled normally.–Location of source:•Src\LIB\SOC\DDR\TCC89x\init_MEM.c–Function to refer•InitRoutine_Start(void) / init_bootdr(void), tag: //ZQCTRLHow to configure VFP (Vector Floating Point) on BSP•To use VFP on BSP, just check VFP option on catalog.-VFP option on OS design Wizard-VFP option on Catalog Items ViewHive-based Registry Setup •To use the hive-based registry–Add the “Hive-based Registry”catalog item.–Verify the following registry settingsin the “platform.reg”file; @CESYSGEN IF FILESYS_FSREGHIVE; HIVE BOOT SECTION[HKEY_LOCAL_MACHINE\init\BootVars]"SYSTEMHIVE"="Documents and Settings\\system.hv""PROFILEDIR"="Documents and Settings""Flags"=dword:3 ;"RegistryFlags"=dword:1 ;; END HIVE BOOT SECTION; @CESYSGEN ENDIF FILESYS_FSREGHIVE –Set the profile for the file sytem driver registry, “Nand.reg”; HIVE BOOT SECTION[HKEY_LOCAL_MACHINE\Drivers\BuiltIn\nand]"Dll"="nand.dll""Prefix"="DSK""Index"=dword:1"Profile"="Nand""IClass"=multi_sz:"{A4E7EDDA-E575-4252-9D6B-4195D48BB865}""Order"=dword:1"Flags"=dword:1000…[HKEY_LOCAL_MACHINE\System\StorageManager\Profiles\Nand] "MountFlags"=dword:0"MountAsBootable"=dword:1"MountAsRoot"=dword:1[HKEY_LOCAL_MACHINE\System\StorageManager\FATFS]"MountFlags"=dword:0; END HIVE BOOT SECTIONThank You。

8-Port 10/100/1000 Mbps Desktop Gigabit Ethernet Unmanaged Switch, Metal Housing MODEL NUMBER:NG8Energy-efficient unmanaged switch sets up in seconds with no configuration required. Provides a Gigabit network connection for multiple devices. Ideal for home or small offices, workgroups and creative production environments.DescriptionThe NG8 8-Port 10/100/1000 Mbps Desktop Gigabit Ethernet Unmanaged Switch adds 10/100/1000 Mbps Ethernet capacity to your home office, small office, workgroup or creative production environment. Share large bandwidth-intensive files, such as CAD drawings and videos, at Gigabit speeds, improving efficiency and cutting costly downtime.This desktop switch features eight twisted-pair RJ45 Gigabit Ethernet ports that support auto-negotiable 10/100/1000 Mbps and auto MDI/MDIX cross-over detection functions for convenient plug-and-play capability. No configuration is required, so you can have your Gigabit network up and running immediately. Easy-to-read LEDs indicate connection and activity status for each port. IEEE 802.3x flow control allows smooth transmission of large files.The NG8 supports IEEE 802.3az Energy Efficient Ethernet standards by putting unused ports into a low-power state without interrupting network connections. It consumes very little input power—just a single watt. The detachable five-foot input cord with NEMA 1-15P plug connects to a protected UPS, generator or mains input AC source. The heavy-duty metal housing includes keyhole tabs for optional wall-mounting.FeaturesUnmanaged Network Switch for Home/Small Offices or Workgroups8 twisted-pair RJ45 Gigabit Ethernet portsAuto-negotiable 10/100/1000 MbpsAutomatic MDI/MDIX cross-over detection16 Gbps switching capacity (2 Gbps per port with full duplex)Easy-to-read LEDs indicate connection and activity status for each portSupports 9k jumbo framesMAC address table capacity of up to 4k addresses with automatic learning and agingSupports 802.3x flow control (full duplex) and back pressure (half duplex)Compliant with IEEE 802.3az Energy Efficient Ethernet Standards Automatically shifts unused ports to low-power state without interrupting network connectionConsumes very little input power—just 1WAlso meets IEEE 802.3ab, 802.3i, 802.3u and 802.3 standardsHeavy-Duty Metal Housing Fanless design for silent operationDetachable 5 ft. AC power cord with NEMA 1-15P plugPlug-and-play—no configuration necessaryKeyhole tabs for optional wall-mountingWorks with the Most Popular Web BrowsersThe NG8 is browser-based and works independently from the connected computer's operating system. Because switch compatibility is based on common hardware standards, rather than system software dependencies, the NG8 accommodates most platforms. Preferred web browsers include Google Chrome Highlights8 auto-negotiable 10/100/1000Mbps RJ45 portsqSupports auto MDI/MDIX cross-over functionqConsumes very little inputpower—just 1Wq2 Gbps switching capacity perport with full duplexqPlug and play with noconfiguration requiredqPackage IncludesNG8 8-Port 10/100/1000 MbpsDesktop Gigabit EthernetUnmanaged SwitchqExternal power supply w/NEMA 1-15P plug and 5 ft. cordqOwner’s manualq(on both Windows and macOS) and Microsoft Edge (Windows only).SpecificationsProduct Warranty Period(Worldwide)5-year limited warranty© 2023 Eaton. All Rights Reserved.Eaton is a registered trademark. All other trademarksare the property of their respective owners.。

第15章配置举例15.1 工程参考图15.1.1 三层交换工程参考图将DCRS-6608配置成为三层交换机第15.2.1 中配置举例的工程参考图见图 15-1。

图 15-1 DCRS-6608配置三层交换工程图工程参考图 15-1中，DCRS-6608硬件配置包括主MRS-6608-M（槽位5），备MRS-6608-M（槽位6），MRS-6608-B2GSJ或MRS-6608-B2GLJ（槽位2），MRS-6608-B2GSJ或MRS-6608-B2GLJ（槽位9），其他接口板可选。

OSPF多域以下第15.2.2 节列举配置举例的工程参考图见图 15-2。

图 15-2 OSPF多域路由配置工程图OSPF末梢区域以下第15.2.3 节列举配置举例的工程参考图见图 15-3。

图 15-3 OSPF末梢区域配置工程图OSPF虚连接以下第15.2.4 节列举配置举例的工程参考图见图 15-4。

图 15-4 OSPF虚连接配置工程图15.1.2 宽带接入工程参考图以下第15.3.1 节至第15.5.2 节列举配置举例的工程参考图见图 15-5。

15-2图 15-5 DCRS-6608配置宽带接入工程图工程参考图14-2中，DCRS-6608硬件配置包括主MRS-6608-M槽位5），备MRS-6608-M（槽位6），MRS-6608-2GM（槽位1），MRS-6608-16SFJ（槽位9），其他接口板可选。

DCRS-6608可以同时支持三层交换和宽带接入两种应用。

15.1.3 VRRP业务工程参考图以下第15.3.1 节列举配置举例的工程参考图见图15-6。

图 15-6 DCRS-6608配置vrrp业务工程图图15-6中，2台DCRS-6608做热备份，开通vrrp业务。

具体配置参见15.5节。

15-415.2 三层交换配置举例15.2.1 三层交换机静态路由配置案例配置说明把MRS-6608-16SFJ的9/2端口划分到VLAN2中，VLAN2配置IP地址192.168.2.1；把MRS-6608-16SFJ的9/3端口划分到VLAN3中，VLAN3配置IP地址192.168.3.1。

LBI-38814AMAINTENANCE MANUALEDACS ™SERIAL MODULE 19C852207G1SPECIFICATIONS*STATION FUNCTIONS Three RIC, One Reset and Three (Intra Cabinet Connection)Serial.COMMON CABLEStraight through connections 1-1,(Intra Cabinet Connection)2-2, etc. P01 and P02, DB-15 Male ConnectorsCONNECTORSDB-15J115 position receptacle assembly and J2Telephone J3Modular jack: 6-position thru J9*These specifications are intended primarily for the use of the service technician. Refer to the appropriate Specifications Sheet in the applicable maintenance manual for the complete specifications.TABLE OF CONTENTSPageSPECIFICATIONS................................................................................................................................1DESCRIPTION.....................................................................................................................................2CIRCUIT ANALYSIS...........................................................................................................................2OUTLINE DIAGRAM.........................................................................................................................3SCHEMA TIC DIAGRAM....................................................................................................................4PARTS LIST..........................................................................................................................................5WIRING LIST.......................................................................................................................................6DESCRIPTIONSerial Interface Module 19C852207G1 is used to collect and route serial data throughout an E nhanced D igital A cces-sible C ommunication S ystem(EDACS ™) through a com-mon 15 conductor cable. This module mounts on EDACS Interface Panel 19D904009 and consists of Two (2) DB-15female connectors J1 and J2 and seven (7) telephone type modular (RJ12) jack connectors J3 through J9. The connec-tions between connectors J1 and J2 are straight through 1-1,2-2, 3-3, etc. The connection between J1-7 and J2-7 is open and not used.Connectors J3 through J9 connect to the common con-nections between J1 and J2. Connectors J3, J4 and J5 are used for connecting serial data to/from R epeater I ntercon-nect C ontroller (RIC) shelves. Connector J6 connects RE-SET lines. Connectors J7, J8 and J9 are used to connect other SERIAL data as required.CIRCUIT ANALYSISThe Serial Interface Module maps up to fourteen (14)serial data circuits from a common cable to seven modular jacks. These modular jacks connect to the various input/out-puts within an EDACS (refer to Schematic Diagram 19C852205). The Serial Interface Module connections and functions are as follows:From Connects To Function J1/J2-1J7/J8/J9-2RX DATA J1/J2-2J7/J8/J9-4TX DATA J1/J2-3J3/J4/J5-5REC MASTER J1/J2-4J3/J4/J5-4TX MASTER J1/J2-5J3/J4/J5-6REC BACKUP J1/J2-6J3/J4/J5-2TX BACKUPJ1/J2-7 (Open Circuit)J1/J2-8J6-2, 3, 4, 5RESET J1/J2-9J7/J8/J9-3RX GND J1/J2-10J7/J8/J9-5TX GNDJ1/J2-11J3/J4/J5-3MASTER GND J1/J2-12No Connection SIG GND1J1/J2-13J3/J4/J5-1BACKUP GND J1/J2-14No Connection SIG GND2J1/J2-15No ConnectionGNDCopyright© July 1992, Ericsson GE Mobile Communications, Inc.Printed in U.S.A.NOTE1.J6/7/8/9 are four loaded (positions 1 and 6 are not used)2.The "P" numbers listed on the WIRING LIST (refer to the Table of Contents) refers to the connectors on the connecting cables, P01, P02,P03, etc.Ericsson GE Mobile Communications Inc.Mountain View Road •Lynchburg, Virginia 24502LBI-38814OUTLINE DIAGRAM LBI-38814EDACS Serial Interface Module(19C852207, Rev. 2)(19C852206, Component Side, Rev. 2)(19C852206, Solder Side, Rev. 2)COMPONENT SIDESOLDER SIDELBI-38814SCHEMATIC DIAGRAMEDACS Serial Interface Module(19C852205, Rev. 1)PARTS LIST LBI-38814EDACS™SERIAL INTERFACE MODULE19C852207G1Issue 1SYMBOL PART NUMBER DESCRIPTION— — — — — JACKS— — — —J119B209727P5315 position receptacle assembly withand s crew-locks.J2J3344A3288P1Modular jack: 6-position; sim tothru AMP 520425-3.J9— — — MISCELLANEOUS— —219C852206P1Printed Wire Board4N80P9004B6Machine screw: No. 4-40 x 1/4.*COMPONENTS, ADDED, DELETED OR CHANGED BY PRODUCTION CHANGESLBI-38814WIRING LISTEDACS SERIAL INTERFACE MODULE19C852207G1P01 - P02 ARE DB-15P03-P08 ARE RJ12 SIX CIRCUIT FOUR LOADED (POSITION 1 AND 6 N/C)P01-01P02-01P07-02P08-02P09-02RX DATA P01-02P02-02P07-04P08-04P09-04TX DATA P01-03P02-03P03-05P04-05P05-05REC MASTER P01-04P02-04P03-04P04-04P05-04TX MASTER P01-05P02-05P03-06P04-06P05-06REC BACKUP P01-06P02-06P03-02P04-02P05-02TX BACKUP P01-08P02-08P06-02RESETP01-08P02-08P06-03RESETP01-08P02-08P06-04RESETP01-08P02-08P06-05RESETP01-09P02-09P07-03P08-03P09-03RX GND P01-10P02-10P07-05P08-05P09-05TX GND P01-11P02-11P03-03P04-03P05-03MASTER GND P01-12P02-12SIG GND1 P01-13P02-13P03-01P04-01P05-01BACKUP GND P01-14P02-14SIG GND2 P01-15P02-15GND。

■左名飞李滕康总君一直以来，路由器的发展与网络趋势紧密关联。

以ChatGPT为代表的AIGC技术带来了业务数据的爆发式增长。

与此同时，物联网时代联网设备数量增多，对网络连接能力提出更高的建设和体验要求。

为了契合“双碳”战略，未来网络还呈现出网络智能化和节能的趋势。

新华三集团路由器产品线总经理汪小勇表示：“AI时代的到来，势必对网络提出更高的建设和体验要求，面向未来网络演进需求与趋势，新华三不断积累路由器核心技术，形成了从云原生网络操作系统、路由器系统架构到IPv6+技术方案等一整套完整的核心技术体系。

”面向AI时代愈发蓬勃的广域互联需求，新华三重磅发布新一代高性能全业务路由器产品SR6608-M。

凭借卓越的云原生操作系统Comware V9、SD-WAN业务加速引擎和IPv6+技术方案，全方位保障业务流程，凝结了三大核心网络技术，将为AI技术的创新发展进一步夯实网络基石。

云原生操作系统：SR6608-M搭载新一代Comware V9云原生操作系统，采用原生Linux内核并提供编程接口，方便第三方进行二次开发，共建开放兼容生态；容器化设计便于部署第三方应用，还可将设备作为网络资源与云计算资源统一，由云网管理平台定义和编排，实现云网融合、网随云动。

SD-WAN业务加速引擎：网络通信过程中，加解密业务需要消耗较多的CPU资源，SD-WAN业务加速引擎通过将SD-WAN加解密功能卸载到硬件引擎中，减少CPU压力，实现整机性能提升，单台设备即可解决客户总部海量分支SD-WAN汇聚性能需求，简化客户SD-WAN网络部署与管理。

IPv6+Ready：SR6608-M不仅支持如网络切片、随流检测和确定性转发等IPv6+2.0特性，同时还支持APN6应用感知，满足未来IPv6+3.0阶段高度自治网络的演进需求。

新华三把IPv6+设备和控制系统形成一个整体的方案，相对于传统产品而言，该方案的智能运维体验性做得更好。

L-A1.0软件使用说明为了能够使您尽享本系统操作的方便快捷，请您详细阅读本说明：一、 系统安装说明：打开您的电脑，启动操作系统之后，将本系统光盘放入光驱，打开我的电脑，打开光盘，会显示带有软件名称的文件夹，双击打开该文件夹，点击运行SETUP 文件，您就可以根据中文提示安装本系统了。

注：如软件安装过程中出现如下提示，请直接点击取消按钮。

此操作不影响软件的正常安装使用。

若您使用的是通过USB 口传输的巡检器，请您在安装完本软件系统后再安装USB 驱动，详细的安装程序请参考USB 驱动安装说明。

二、 软件操作说明：（一）软件登录、注销1、登录双击巡更管理系统图标，软件起动后，会出现以下登录界面，选择权限，然后输入相对应的密码，系统管理员初始密码为333；操作员密码为222；浏览者密码为111。

只要输入正确，便可登录成功；登录界面如下图：2、注销 操作员的注销，即更换操作员，使新的操作员用新的权限登录。

注销方法（如下图），选择菜单“操作员 用户注销”来实现。

（二）资源设置 资源设置分五部分组成：人员钮设置、地点钮设置、事件设置、棒号设置、系统设置，每一部分的设置如下：1、系统设置：在第一次进入软件后，应首先对系统进行设置。

系统设置分为基本信息写入和权限用户密码管理。

如下图，在此可输入公司名称、选择的串口号，并可在此对权限密码进行修改。

修改完毕点击保存即可。

注：巡检器与电脑是用串口进行数据传输的，默认使用的串口号为COM1，巡检器与电脑是用USB 口传输的，默认使用的串口号为COM3（具体情况可到设备管理器中查询），在系统设置完毕后请重新登录巡更系统。

2、棒号设置： 在使用巡检器之前需要将巡检器的棒号输入到软件中，以便识别。

点击“资源设置—>棒号设置”。

将巡检器与计算机连接好，并且将巡检器打开。

点击采集数据，会出现如下图所示：1140为该棒号码。

巡检器属性可以根据需要进行填写，也可以不填。

3、人员钮设置： 此选项用来对巡检人员进行设置，以便用于日后对巡检情况的查询。

NE20E-S4 Configuration Help1. New site or ExpansionThis parameter is used for the NE20E-S to choose to purchase a new chassis or theold chassis only expand LPU or upgrade software. If you want to purchase a newNE20E-S , select "New site". If the software upgrade of the different version or the old chassis only expand LPU, select "Expansion".2. Please select the versionV800R008 supports the following: Hardware: Replacement of old hard pipe cardswith the 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card H and 8-Port100/1000Base-X-SFP Physical Interface Card H Please confirm the correspondingiManager version is correct when you select the version: V800R005:thecorresponding iManager U2000 version is V100R009C00 or later; V800R006:thecorresponding iManager U2000 version is V200R014C50 or later; V800R007: thecorresponding iManager U2000 version is V200R015C50 or later; eSight version isV300R003C10 or later; V800R008: the corresponding iManager U2000 version isV200R016C50 or later; eSight version is V300R006C00 or later. V800R009: thecorresponding iManager U2000 version is V200R017C50 or later. V800R010: thecorresponding iManager U2000 version is V200R018C50 or later. V800R011: thecorresponding iManager U2000 version is V200R018C60 or later.3. Please select the version that after upgradingV800R008 supports the following:Hardware:Replacement of old hard pipe cards with the 2-Port 10GBase LAN/WAN-SFP+Physical Interface Card H and 8-Port 100/1000Base-X-SFP Physical Interface CardHPlease confirm the corresponding iManager version is correct when you select theversion:V800R005:the corresponding iManager U2000 version is V100R009C00 or later;V800R006:the corresponding iManager U2000 version is V200R014C50 or later;V800R007: the corresponding iManager U2000 version is V200R015C50 or later;eSight version is V300R003C10 or later;V800R008: the corresponding iManager U2000 version is V200R016C50 or later;eSight version is V300R006C00 or later.V800R009: the corresponding iManager U2000 version is V200R017C50 or later.V800R010: the corresponding iManager U2000 version is V200R018C50 or later.V800R011: the corresponding iManager U2000 version is V200R018C60 or later.4. Need the PPPoE/IPoE function or not(just for filtering card and license)This parameter is used to filtered PPPoE/IPoE function card and license:If Yes is selected, the license(per chassis) parameters that support PPPoE/IPoE will be display, and the board that support PPPoE/IPoE will be filtered out.If No is selected, the license parameters that support PPPoE/IPoE will be filtered out.5. Need Basic Software CD or notThe basic software has been loaded on the equipment and can be downloaded from .The CD is not delivered by default. If the CD is required by customer, please choose 'YES'.6. ===R01S300A Assembly===o 6.1 Please select the capacitance of Rechargeable battery 50Ah Rechargeable battery can supply power for 2-4 hours,92Ah for 4-8 hours.o 6.2 Please select the manufacturer of Rechargeable battery1.EnerSys is advised in high temperature area such as Middle East, Shuangdeng isadvised for other countries.2.Only Coslight and Shuangdeng can be chosen in following countries: China,Southeast, North Korea, Sudan, Iran, Cuban, Libya, Burma and so on.o 6.3 Please select the quantity of Heater1.Heater is not necessary when temperature is higher than -15 degrees centigrade.2.1pcs Heater is advised when temperature is between -15 and -20 degrees.3.2pcsHeaters are advised when temperature is lower than -20 degrees.7. ===Basic Configuration===o7.1 Please select the Portfolio Quotation of Basic Configuration1. The basic configuration includes Chassis, 2*MPUE1, 2*Power, Power cord/PGNDcable, without NSP, Software Charge or Document.2. The DC basic configuration includes DC Power cord (3m 6mm^2) and PGND cable(3m 6mm^2).o7.2 Please select the type of NSPNSP-120-E: provide NSP ability of 120G, support wide temperature range -40~-65.NSP-A: provide NSP ability of 120G, don't support wide temperature range, support value-added service (IPSEC/NAT/VxLan/value-added service).NSP-B: provide NSP ability of 240G, don't support wide temperature range, support value-added service (IPSEC/NAT/VxLan/value-added service).Network Service Processor (NSP-50)Network Service Processor (NSP-50-E, Apply for - 40~ 65degree scene)Network Service Processor (NSP-120-E)Network Service Processor (NSP-120)Network Service Processor(NSP-A)Network Service Processor(NSP-B)o7.3 Please select the quantity of NSPDouble NSPs are suggested for 1+1(Turbo) backup or 1:1 backup.o7.4 Need DC PDU or not1.Including DC PDU and PGND cable, without power cable(the length of power cableis calculated automatically);2.The PDU of S2/S4/S8 could support 2 chassises. The PDU of S16 could support 4 chassises. The quantity of power cable which connect the PDU to PDF(Power Distribution Frame) is calculated with total chassises bydefault.o7.5 Need update to MPUE1 or notNeed config MPUE1 to support PPPoE/IPoE functiono7.6 Please select the type of NSP to updateNeed config NSP-A/NSP-B to support PPPoE/IPoE function8. ===High speed Card===o8.1 1-Port 40GBase-CFP Physical Interface Card(PIC)1.Need work with V8R7C10 or later software version2.Need be fixed with NSP-120/NSP-A/NSP-B3.Does not support outdoor application1-Port 40GBase-CFP Physical Interface Card(PIC)o8.2 4-Port 10GBase LAN-SFP+ Physical Interface Card(PIC)Need be fixed with NSP-120/NSP-120-E, and NSP-50/NSP-50-E don't support this card.o8.3 4-Port 10GBase LAN/WAN-SFP+ Physical Interface CardSpecifications: 1)Support interface type:10GE LAN/WAN 2)Specifications list:/mm/docMaintain/mmMaintain.do?method=showMMDetail&f_i d=CIP180525031314083 Configuration precautions: 1)Need be fixed with NSP-A/NSP-B. Optical transceiver limit: 1)This card support GE/10GE auto-sensing.4-Port 10GBase LAN/WAN-SFP+ Physical Interface Cardo8.4 4-Port 10GBase-SFP+MACsec Interface CardNSP-A/NSP-B support this card. If configured NSP-A/NSP-B ,all of the Sub-slots can support this card.o8.5 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card(PIC)This card support GE/10GE auto-sensing.2-Port 10GBase LAN/WAN-SFP+ Physical Interface Cardo8.6 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card H1. Need work with NSP-A/NSP-B2.Mainly used in IP hard pipe scenario.o8.7 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card HSpecifications: 1)Support IP hard pipe 2)Support interface type:10GE 3)Specifications list:/mm/docMaintain/mmMaintain.do?method=showMMDetail&f_i d=CIP180525031314083 Configuration precautions: 1)Need work with NSP-A/NSP-B.2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card Ho8.8 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card E(PIC-E)1.Only NSP-A/NSP-B support this card.If configure with NSP-A/NSP-B, all slots can support this card.2.As this card with ETM chipset(enhanced Qos), it must insert in the slot which capacity bigger than 20G,or else the card would not register.o8.9 1-Port 10GBase LAN/WAN-SFP+ + 8-Port 100/1000Base-X-SFP Physical Interface CardThis card support GE/10GE auto-sensing.1-Port 10GBase LAN/WAN-SFP+ + 8-Port 100/1000Base-X-SFP Physical Interface Cardo8.10 20-Port 100/1000Base-X-CSFP/10-Port 100/1000Base-X-SFP Physical Interface Card(PIC)Specifications: 1)Support interface type: GE/FE 2)Specifications list:/mm/docMaintain/mmMaintain.do?method=showMMDetail&f_i d=CIP180525031314083 Configuration precautions: 1)Need configure with NSP-A/NSP-B, all slots can support this card. 2)20*GE CSFP card can be configured with both CSFP and SFP transceiver. Each CSFP transceiver can be work as 2 GE mode, while each SFP transceiver only work as 1 GE mode. 3)Don't support Electrical Transceiver.20-Port 100/1000Base-X-CSFP/10-Port 100/1000Base-X-SFP Physical InterfaceCard(PIC)o8.11 10-Port 100/1000Base-X-SFP Physical Interface Card10-Port 100/1000Base-X-SFP Physical Interface Cardo8.12 10-Port 100/1000Base-X-SFP Physical Interface Card H1.Need work with NSP-A/NSP-B2. Mainly used in IP hard pipe scenario.o8.13 10-Port 100/1000Base-X-SFP Physical Interface Card E(PIC-E)1.NSP-A/NSP-B support this card. If configure with NSP-A/NSP-B, all the sub-slot can support this card.2.As this card with ETM chipset(enhanced Qos), it must insert in the slot which capacity bigger than 10G, or else the card would not register.o8.14 8-Port 100/1000Base-X-SFP Physical Interface Card HSpecifications: 1)Support IP hard pipe 2)Support interface type:FE/GE3)Specifications list:/mm/docMaintain/mmMaintain.do?method=showMMDetail&f_i d=CIP180525031314083 Configuration precautions: 1)Need work with NSP-A/NSP-B.8-Port100/1000Base-X-SFP Physical Interface Card Ho8.15 8-Port 100/1000Base-RJ45 Physical Interface Card(PIC)8-Port100/1000Base-RJ45 Physical Interface Cardo8.16 8-Port 100/1000Base-X-SFP Physical Interface Card8-Port100/1000Base-X-SFP Physical Interface Card9. ===Low speed Card===o9.1 2-Port OC-3c/STM-1c (or 1-Port OC-12c/STM-4C) POS-SFP Physical Interface CardThe model exchange between 155M and 622M control by command. The default mode is 155M. Need configure corresponding Optical Transceiver.2-Port OC-3c/STM-1c (or 1-Port OC-12c/STM-4C) POS-SFP Physical Interface Cardo9.2 1-Port Channelized STM-1c POS-SFP Physical Interface CardNeed configure 155M SFP/eSFP Optical Transceiver.1-Port Channelized STM-1c POS-SFP Physical Interface Cardo9.3 4-Port Channelized STM-1c POS-SFP Physical Interface Card(PIC)Need configure 155M SFP/eSFP Optical Transceiver.4-Port Channelized STM-1c POS-SFP Physical Interface Card(PIC)o9.4 4-Port OC-3c/STM-1c POS-SFP Flexible Interface Card(PIC)Need configure 155M SFP/eSFP Optical Transceiver.4-Port OC-3c/STM-1c POS-SFP Physical Interface Cardo9.5 4 Channels GE/FE PoE Electrical Interface Board1. The calbes should be done on site.2. NSP-A/NSP-B support this card. If configure with NSP-A/NSP-B, all of the Sub-slots can support this card.o9.6 32-Port E1 Physical Interface Card(PIC,120ohm)Need configure E1 Cable32-Port E1 Physical Interface Card(120ohm)o9.7 32-Port E1 Physical Interface Card(PIC,75ohm)Need configure E1 Cable32-Port E1 Physical Interface Card(75ohm)o9.8 16-Port E1 Physical Interface Card(PIC,120ohm)Need configure E1 Cable16-Port E1 Physical Interface Card(120ohm)o9.9 16-Port E1 Physical Interface Card(PIC,75ohm)Need configure E1 Cable16-Port E1 Physical Interface Card(75ohm)o9.10 4-Channel FXS/FXO+2-Channel E&M+2-Channel RS232+2-Channel RS485 Board(MPA)1.NSP-50/NSP-120/NSP-120-E/NSP-A/NSP-B support this card.2. Two RS-485/RS-422 interfaces, based on the actual type of the peer deviceprepare cables on site.3. Two E&M interfaces, based on the actual type of the peer device prepare cableson site.4. Two RS-232 interfaces need to use a maximum of two RS-232 serial port cable.5. 4-channel FXS/FXS interface need to use a maximum of four standard phonelines.o9.11 6 Channels E&M Interface Board1. The calbes should be done on site.2. NSP-A/NSP-B support this card. If configure with NSP-A/NSP-B, all of the Sub-slots can support this card.o9.12 8-Channel V.35/X.21/V.24 Board(SA8)1. NSP-50/NSP-120/NSP-120-E/NSP-A/NSP-B support this card.2. The board supports 8-channel RS-232/X.21/V.24/V.35 interface.o9.13 4 Channels C37.94 Optical Interface and 4 Channels CoDir64K Electric Interface Board(MP8A)1. NSP-50/NSP-120/NSP-120-E/NSP-A/NSP-B support this card.2. You need to configure the SFP optical modules for Optical Interface and 120 ohmE1 cables for Electric Interface10. ===Multiplexing & Demultiplexing Card===o10.1 8-Channel Multiplexing & Demultiplexing Card1.This card does not need to configure Optical Transceiver.2.The port connected withdemultiplexing-port must configure CMDM Optical Transceiver.3.Multiplexing &Demultiplexing Card contains 1-channel Multiplexing and 8-channelDemultiplexing.Each channel need 2 PCS patch cords.8-Channel Multiplexing & Demultiplexing Card11. ===40G CFP Optical Transceiver===o11.1 High Speed Transceiver,CFP,850nm,4*10.3125Gb/s,mpo,MM,0.1km1.Need configure 40G MPO Patch Cord2.Does not support outdoor applicationo11.2 High Speed Transceiver,CFP,1271~1331nm CWDM-41.25Gb/s-LC-SM-10kmDoes not support outdoor applicationo11.3 High Speed Transceiver,CFP,4*10Gb/s(1310 NMBAND),41.25Gb/s,straight LC,SMF,40km,OMA OPTICALPOWER,40GBASE-ER4Does not support outdoor applicationo11.4 High Speed Transceiver,CFP,4*10Gb/s(1550 NM BAND),41.25Gb/s,-0dBm,4.5dBm,-22dBm,straight LC,SMF,80kmDoes not support outdoor application12. ===10G/GE Auto-adaptation XFP SFP+ Optical Transceiver===o12.1 XFP SFP+ Transceiver-SFP+-1310nm-10G/1G-Single-mode-LC-10kmOnly below boards supporting 10GE/GE auto-sensing optical transceiver:03031DJP 4-Port 10GBase LAN/WAN-SFP+ Physical Interface Card03031DJQ 1-Port 10GBase LAN/WAN-SFP+ + 8-Port 100/1000Base-X-SFP Physical Interface Card03030WGQ 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card13. ===155M SFP/eSFP Optical Transceiver===o13.1 Optical Transceiver,eSFP,1310nm,2.048Mb/s,LC,SM,2kmNeed configure with MP8A board.14. ===Software(The Base Software is provided automatically)===o14.1 Need software bundle(Basic software+PPPoE/IPoE) or notThe software bundle includes Basic software, PPPoE, IPoE, L2TP, 1588v2, 32KBRAS function access subscribers.o14.2 Need Flow Queue Enhanced License or notEach chassis has 32K by default,It can be raised to 256K by this licenseo14.3 Need PPPoE/IPoE Function or notOnly MPUE1+NSP-A/B+ Ethernet board support PPPoE/IPoE functiono14.4 Need L2TP Function or notBefore enabling the L2TP function, configure the PPPoE/IPoE license to support the basic BRAS functions. The L2TP license is mandatory for the LNS and LTS functions.The L2TP license is not required for the LAC function. LNS, LTS, LAC are all required to configure user license.o14.5 Need DAA Function or notBefore enabling the DAA function, configure the PPPoE/IPoE license to support the basic BRAS functions. The DAA license is mandatory for the DAA functions. TheDAA license is required to configure user license.o14.6 Please input the quantity of the BRAS function accesssubscribers(K)Need work together with the PPPoE/IPoE function license. A maximum of 32 licenses can be configured for an NE20E-So14.7 MACsec Port Function License(per 10GE)1.This license is used for 2-Port 100GBase-QSFP28/1-Port100GBase-QSFP28+4-Port 10GBase-SFP+MACsec and 4-Port 10GBase-SFP+MACsec Interface Card.2.Each 10G port could configure 1PCS.15. ===Patch Cord===o15.1 Please select the Client Interface Option of Patch Cord Default LC,10m.If need other specification. Please change it at "Bill of Configuration".o15.2 Please input the quality of demultiplexing port of this equipment1.This parameter is used for calculating the quantity of patch cords of demultiplexing-port. Multiplexing & Demultiplexing Card contains 1-channel Multiplexing and 8-channel Demultiplexing. Each channel need 2 PCS patch cords.2.The port connected with demultiplexing-port must configure CMDM OpticalTransceiver.o15.3 Please select the length of 40G MPO Patch Cord40G MPO optical module use this fiber16. ===Trunk Cable===o16.1 Please select synchronous signal typeThe device can supply Clock signal("2M primary clock")or 1588v2 signal("1PPS+TOD signal" or "DCLS signal").If need Clock signal, please configure E1 cable. If need 1588v2 signal, made network cable on site. Any question ,please refer toConfiguration Manual or contact developer.o16.2 Need to configure the synchronous signal input cable or not Need to configure this cable, while need to input "2M Primary Clock".o16.3 Need to configure the synchronous signal output cable or not Need to configure this cable, while need to output "2M Primary Clock".o16.4 ===RS232/FXS/FXO/E&M port cable===▪16.4.1 Please input the quantity of RS232MPA board supports RS232/RS485/RS422 interface, MPA board supports amaximum of two RS232 cable, two RS485/RS422.▪16.4.2 Please input the quantity of FXS/FXOMPA board supports four FXS/FXO interface, MPA board supports a maximum of need 4 standard phone lines.▪16.4.3 Need E&M Interface or not1.MPA board supports 2-channel E&M interface, MPA board supports a maximum of2 pieces of E&M cable.2.6 Channels E&M Interface Board supports 6-channel E&M interface, MPA boardsupports a maximum of 6 pieces of E&M cable.▪16.4.4 Need lightning arrester or notArrester must be configured when unshielded cable is used in outdoor.o16.5 ===SA8 board cable===▪16.5.1 Please input the quantity of X.21-DTESA8 board supports 8-channel X.21 interface,SA8 board must be equipped with an 8 records at most X.21 DTE cable▪16.5.2 Please input the quantity of X.21-DCESA8 board supports 8-channel X.21 interface,SA8 board must be equipped with an 8 records at most X.21 DCE cable▪16.5.3 Please input the quantity of V.24-DTESA8 board supports 8-channel V.24 interface,SA8 board must be equipped with an 8 records at most V.24 DTE cable▪16.5.4 Please input the quantity of V.24-DCESA8 board supports 8-channel V.24 interface,SA8 board must be equipped with an 8 records at most V.24 DCE cable▪16.5.5 Please input the quantity of V.35-DTESA8 board supports 8-channel V.35 interface,SA8 board must be equipped with an 8 records at most V.35 DTE cable▪16.5.6 Please input the quantity of V.35-DCESA8 board supports 8-channel V.35 interface,SA8 board must be equipped with an 8 records at most V.35 DCE cableo16.6 Please input the quantity of MP8A board cableMP8A board support SFP and RJ-45 interface,4 PCS fiber-Optical and 4PCS120ohm 1*E1 cable can be configured at most for each MP8A.17. ===Power Cable===o17.1 Need separate configure DC power cable or not1.No need configure by default. The basic configuration includes a 3m power cable.Need configure separately only when the length of power cable is notually, the device needs configure separate power cable only when it needs connect to the PDF directly.o17.2 Please input the length of each device DC power cable (m)By default, Huawei provides blue cables (-48V) and black cables (GND), and cables of the other colors need to be remarked for purchase and determine whether to purchase locally according to the actual situation.o17.3 Select the type of AC power cableSelect the type of AC power cable carefullyo17.4 Select the type of C13 power cable1.PDU:Power Distribution Unit, the special main jack for the rack.2.If the main jack in the rack is C13SF(as shown in figure), please select ""C13 PDU"" in the option ""Select the type of C13 power cable"", otherwise select ""ordinarilyC13"".3.A matching AC power cable is provided only when the AC power module is configured (or the device has the AC power module).C13 PDU SF Power SocketPDU Cable C13-C14o17.5 Select the type of C13 AC power cableSelect the right type of AC power cable according to actual situation, if you can not confirm which one to choose, please refer to the power cable pictures and configuration instructions in the HELP document.BS546C13ArgentinaC13Australia C13BrazilC13BritainC13China Denmark C13-C13C13EuropeSouth Africa C13IndiaC13ItalyC13Japan Korea C13-C13C13North AmericaC13SwitzerlandC13UKS(angled)o17.6 Select the type of C13 PDU power cable1.The recommended value is the power cable type allowed in the specific country. Do not change this value unless a specific power cable type is required.2.If you don't know how to choose, please refer to the file , which is in Configuration help and the catalog is Appendix A Power Cable.3.A matching AC power cable is provided only when the AC power module is configured (or the device has the AC power module).。

EDS-608Series8-port compact modular managed EthernetswitchesFeatures and Benefits•Modular design with4-port copper/fiber combinations•Hot-swappable media modules for continuous operation•Turbo Ring and Turbo Chain(recovery time<20ms@250switches),and STP/RSTP/MSTP for network redundancy•TACACS+,SNMPv3,IEEE802.1X,HTTPS,and SSH to enhance network security•Easy network management by web browser,CLI,Telnet/serial console, Windows utility,and ABC-01•Supports MXstudio for easy,visualized industrial network managementCertificationsIntroductionThe versatile modular design of the compact EDS-608Series allows users to combine fiber and copper modules to create switch solutions suitable for any automation network.The EDS-608’s modular design lets you install8Fast Ethernet ports,and the advanced Turbo Ring and Turbo Chain (recovery time<20ms)technology,RSTP/STP,and MSTP help increase the reliability and availability of your industrial Ethernet network.Models with an extended operating temperature range of-40to75°C are also available.The EDS-608Series supports several reliable and intelligent functions,including EtherNet/IP,Modbus TCP,LLDP,DHCP Option82,SNMP Inform,QoS,IGMP snooping,VLAN,TACACS+,IEEE 802.1X,HTTPS,SSH,SNMPv3,and more,making the Ethernet switches suitable for any harsh industrial environment.Additional Features and Benefits•Command line interface(CLI)for quickly configuring majormanaged functions•SNMP Inform for ensuring reliable event management•LLDP for automated topology discovery•DHCP Option82for IP address assignment with different policies•EtherNet/IP and Modbus TCP protocols for device managementand monitoring•Compatible with PROFINET protocol for transparent datatransmission•Automatic warning by exception through email and relay output•IGMP snooping and GMRP for filtering multicast traffic•Port-based VLAN,IEEE802.1Q VLAN,and GVRP to ease networkplanning•QoS(IEEE802.1p/1Q and TOS/DiffServ)to increase determinism•Port Trunking for optimum bandwidth utilization•SNMPv1/v2c/v3for different levels of network management•RMON for proactive and efficient network monitoring•Bandwidth management to prevent unpredictable network status•Lock port function for blocking unauthorized access based on MACaddress•Port mirroring for online debuggingSpecificationsInput/Output InterfaceDigital Inputs+13to+30V for state1-30to+3V for state0Max.input current:8mAAlarm Contact Channels Relay output with current carrying capacity of1A@24VDCEthernet InterfaceModule2slots for any combination of4-port interface modules,10/100BaseT(X)or100BaseFX Standards IEEE802.1D-2004for Spanning Tree ProtocolIEEE802.1p for Class of ServiceIEEE802.1Q for VLAN TaggingIEEE802.1s for Multiple Spanning Tree ProtocolIEEE802.1w for Rapid Spanning Tree ProtocolIEEE802.1X for authenticationIEEE802.3for10BaseTIEEE802.3ad for Port Trunk with LACPIEEE802.3u for100BaseT(X)and100BaseFXIEEE802.3x for flow controlEthernet Software FeaturesFilter GMRP,GVRP,IGMP v1/v2,Port-based VLANIndustrial Protocols EtherNet/IP,Modbus TCPManagement Back Pressure Flow Control,BOOTP,DHCP Option66/67/82,DHCP Server/Client,Flowcontrol,IPv4/IPv6,LLDP,Port Mirror,RARP,RMON,SMTP,SNMP Inform,SNMPv1/v2c/v3,Syslog,Telnet,TFTPMIB Bridge MIB,Ethernet-like MIB,MIB-II,P-BRIDGE MIB,Q-BRIDGE MIB,RMON MIBGroups1,2,3,9,RSTP MIBRedundancy Protocols Link Aggregation,MSTP,RSTP,STP,Turbo Chain,Turbo Ring v1/v2Security Broadcast storm protection,HTTPS/SSL,Port Lock,RADIUS,SSH,TACACS+Time Management NTP Server/Client,SNTPSwitch PropertiesIGMP Groups256MAC Table Size8KMax.No.of VLANs64Packet Buffer Size1MbitsPriority Queues4VLAN ID Range VID1to4094LED InterfaceLED Indicators PWR1,PWR2,FAULT,MSTR/HEAD,CPLR/TAILSerial InterfaceConsole Port RS-232(TxD,RxD,GND),8-pin RJ45(115200,n,8,1)DIP Switch ConfigurationEthernet Interface Turbo Ring,Master,Coupler,ReservePower ParametersConnection1removable6-contact terminal block(s)Input Voltage12/24/48VDC,Redundant dual inputsOverload Current Protection SupportedReverse Polarity Protection SupportedPhysical CharacteristicsIP Rating IP30Dimensions125x151x157.4mm(4.92x5.95x6.20in) Weight1,950g(4.30lb)Installation DIN-rail mounting,Wall mounting(with optional kit) Environmental LimitsOperating Temperature EDS-608:0to60°C(32to140°F)EDS-608-T:-40to75°C(-40to167°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsFreefall IEC60068-2-32EMC EN55032/35,EN61000-6-2/-6-4EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:6kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:4kV;Signal:4kVIEC61000-4-5Surge:Power:2kV;Signal:2kVIEC61000-4-6CS:10VIEC61000-4-8PFMFHazardous Locations ATEX,Class I Division2Maritime ABS,DNV-GL,LR,NKRailway EN50121-4Safety EN62368-1,UL508Shock IEC60068-2-27Traffic Control NEMA TS2Vibration IEC60068-2-6MTBFTime596,219hrsStandards Telcordia(Bellcore),GBWarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x EDS-608Series switchCable1x RJ45-to-DB9console cableDocumentation1x product certificates of quality inspection,Simplified Chinese1x product notice,Simplified Chinese1x quick installation guide1x warranty cardNote Modules from the CM-600Module Series need to be purchased separately for use withthis product.DimensionsOrdering InformationModel Name Layer Total No.of PortsModule10/100BaseT(X)and/or100BaseFXOperating Temp.EDS-608282slots for up to810/100BaseT(X)and/or100-BaseFX ports0to60°CEDS-608-T282slots for up to810/100BaseT(X)and/or100-BaseFX ports-40to75°CAccessories(sold separately)CM-600Module SeriesCM-600-4TX Fast Ethernet interface module with410/100BaseT(X)ports,RJ45connectors,-40to75°C operatingtemperatureCM-600-4MSC Fast Ethernet interface module with4100BaseFX multi-mode ports,SC connectors,-40to75°Coperating temperatureCM-600-4MST Fast Ethernet interface module with4100BaseFX multi-mode ports,ST connectors,-40to75°Coperating temperatureCM-600-4SSC Fast Ethernet interface module with4100BaseFX single-mode ports,SC connectors,-40to75°Coperating temperatureCM-600-3MSC/1TX Fast Ethernet interface module with110/100BaseT(X)port,RJ45connector,and3100BaseFX multi-mode ports,SC connectors,-40to75°C operating temperatureCM-600-3SSC/1TX Fast Ethernet interface module with110/100BaseT(X)port,RJ45connector,and3100BaseFX single-mode ports,SC connectors,-40to75°C operating temperatureCM-600-2MSC/2TX Fast Ethernet interface module with210/100BaseT(X)ports,RJ45connectors,and2100BaseFXmulti-mode ports,SC connectors,-40to75°C operating temperatureCM-600-2SSC/2TX Fast Ethernet interface module with210/100BaseT(X)ports,RJ45connectors,and2100BaseFXsingle-mode ports,SC connectors,-40to75°C operating temperatureStorage KitsABC-01Configuration backup and restoration tool for managed Ethernet switches and AWK Series wirelessAPs/bridges/clients,0to60°C operating temperaturePower SuppliesDR-120-24120W/2.5A DIN-rail24VDC power supply with universal88to132VAC or176to264VAC input byswitch,or248to370VDC input,-10to60°C operating temperatureDR-452445W/2A DIN-rail24VDC power supply with universal85to264VAC or120to370VDC input,-10to50°C operating temperatureDR-75-2475W/3.2A DIN-rail24VDC power supply with universal85to264VAC or120to370VDC input,-10to60°C operating temperatureMDR-40-24DIN-rail24VDC power supply with40W/1.7A,85to264VAC,or120to370VDC input,-20to70°Coperating temperatureMDR-60-24DIN-rail24VDC power supply with60W/2.5A,85to264VAC,or120to370VDC input,-20to70°Coperating temperatureSoftwareMXview-50Industrial network management software with a license for50nodes(by IP address)MXview-100Industrial network management software with a license for100nodes(by IP address)MXview-250Industrial network management software with a license for250nodes(by IP address)MXview-500Industrial network management software with a license for500nodes(by IP address)MXview-1000Industrial network management software with a license for1000nodes(by IP address)MXview-2000Industrial network management software with a license for2000nodes(by IP address)MXview Upgrade-50License expansion of MXview industrial network management software by50nodes(by IP address) Wall-Mounting KitsWK-75Wall-mounting kit,2plates,8screws,75x90x2.5mm©Moxa Inc.All rights reserved.Updated Jan11,2021.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

DCRS-6608机箱式三层交换机快速配置手册神州数码网络集团客户服务中心技术支持部目录关于本手册 (4)第一章硬件说明 (5)1.1DCRS-6608产品清单 (5)1.2DCRS-6608硬件安装说明 (5)1.3DCRS-6608模块指示灯说明 (8)1.4DCRS-6608硬件安装注意事项 (9)第二章安装前准备 (11)2.1DCRS-6608默认配置 (11)2.2串口本地管理 (11)2.3管理端口（EMP）管理 (13)2.4TELNET远程管理 (14)2.5管理员密码丢失恢复 (15)2.6恢复出厂配置 (15)2.7软件版本信息查看及升级 (16)2.8主备管理模块实现冗余 (26)2.9配置备份与恢复 (26)2.10用户和密码管理 (27)第三章功能配置 (29)3.1以太接口配置 (29)3.2生成树协议配置 (29)3.3端口聚合 (29)3.4端口镜像 (30)3.5静态MAC地址及MAC地址过滤 (31)3.6VLAN配置 (31)3.7静态路由配置 (33)3.8访问控制列表 (33)3.9DHCP RELAY功能的实现 (34)3.10SNMP简单网络管理的实现 (35)3.11VRRP冗余实现与配置 (35)3.12组播路由协议配置 (36)第四章典型应用 (38)4.1VLAN典型应用 (38)4.2访问控制列表典型应用 (39)4.3防病毒攻击典型应用 (40)4.4DHCPRELAY典型应用 (44)4.5组播路由典型应用 (45)第五章附录 (50)5.1Bootrom使用说明 (50)5.2常用系统状态监控命令 (52)5.3交换机常见问题诊断 (54)关于本手册本手册主要介绍DCRS-6608的常用命令，并举例进行说明，希望能够帮助用户快速的了解和使用DCRS-6608交换机。

虽然DCRS-6608支持命令行（CLI）、WEB、SNMP多种系统管理方法，本文只介绍命令行，如果需要得到更多的信息，请参考随机光盘附带《DCRS-6608-软件配置手册》。

Data SheetCisco 880 Series Integrated Services RoutersThe Cisco® 880 Series Integrated Services Routers (ISRs) combine Internet access, security, voice, and wireless services onto a single, secure device that is simple to use and manage for small businesses and enterprise small branch offices and teleworkers. The Cisco 880 Series delivers features including firewall, content filtering, VPNs, and wireless LANs (WLANs) at broadband speeds to small offices. Easy deployment and centralized management features enable enterprises or service providers to deploy the Cisco 880 Series in small branch offices or small businesses. Product OverviewCisco 880 Series Integrated Services Routers are fixed-configuration routers that provide collaborative business solutions for secure voice and data communication to small businesses and enterprise teleworkers. They offer concurrent broadband services over third-generation (3G), Metro Ethernet, and multiple DSL technologies to provide business continuity. Wireless 802.11n and 3G offer LAN and WAN mobility. The routers provide the performance required for concurrent services, including firewall, intrusion prevention, content filtering, and encryption for VPNs; optional 802.11g/n for mobility; and quality-of-service (QoS) features for optimizing voice and video applications. In addition, the web-based Cisco Configuration Professional configuration tool simplifies setup and deployment. Centralized management capabilities give network managers visibility and control of the network configurations at the remote site.Cisco 880 Series Integrated Services Routers offer:●High performance for broadband access in small offices and small branch-office and teleworker sites●Collaborative services with secure analog, digital voice, and data communication●Business continuity and WAN diversity with redundant WAN links: Fast Ethernet, Multimode G.SHDSL(Ethernet in the First Mile [EFM] and ATM), Multimode DSL (very-high-data-rate DSL 2 [VDSL2] andasymmetric DSL 2 and 2+ [ADSL2 and ADSL2+, respectively]), 3G, and ISDN●Voice-enabling features:◦Cisco Unified Communications Manager Express (5 user), which offers innovative key system and small private-branch-exchange (PBX) capabilities for small and medium-sized business customers◦Survivable Remote Site Telephony (SRST) voice continuity for enterprise small branch-office and teleworker sites◦Cisco Unified Border Element (Cisco UBE) IP-IP voice gateway functions for connecting to Session Initiation Protocol (SIP) trunking services as a replacement for Primary Rate Interface (PRI) or foreign-exchange-office (FXO) voice connectivity to the service provider. Note: Cisco Unified Border Elementsupport for the Cisco 880 Series has feature limitations as compared to the Cisco Integrated ServicesRouters Generation 2 (ISR G2) Routers. Go to /go/cube for the full set of CiscoUnified Border Element features. Cisco Unified Border Element limitations on Cisco 880 Routers arelisted later in this document.●Enhanced security, including:◦Firewall with advance application and control for email, Instant Messaging (IM), and HTTP traffic◦Site-to-site remote-access and dynamic VPN services: IP Security (IPsec) VPNs (Triple Data Encryption Standard [3DES] or Advanced Encryption Standard [AES]), Dynamic Multipoint VPN (DMVPN), GroupEncrypted Transport VPN with onboard acceleration, and Secure Sockets Layer (SSL) VPN◦Intrusion prevention system (IPS): An inline, deep-packet inspection feature that effectively mitigates a wide range of network attacks◦Content filtering: A subscription-based integrated security solution that offers category-based reputation rating; keyword blocking; and protection against adware, malware, spyware, and Uniform ResourceLocator (URL) blocking●Four-port 10/100 Fast Ethernet managed switch with VLAN support; two ports support Power over Ethernet(PoE) for powering IP phones or external access points●Secure 802.11g/n access-point option based on draft 802.11n standard with support for autonomous orCisco Unified WLAN architectures●Newer Cisco 880 Series (part numbers C881-K9, C886VA-K9, C886VAJ-K9, C887VA-K9, C887VAM-K9and C888-K9), which are fanless, providing a quiet, comfortable working environment in small offices●CON/AUX port for console or external modem●One USB 1.1 port for security eToken credentials, booting from USB, and loading configuration●Easy setup, deployment, and remote-management capabilities through web-based tools and Cisco IOS®SoftwareFigure 1 shows a Cisco 881 Integrated Services Router.Figure 1. Cisco 881 Integrated Services Router with Integrated 802.11n Access PointTables 1 and 2 list the routers that currently make up the Cisco 880 data, voice, and SRST series, respectively. Table 1. Cisco 880 Series Data ModelsTable 2. Cisco 880 Series Voice ModelsThe Cisco 880 Series is ideal for small branch offices and teleworkers who need to be connected to larger enterprise networks as well as small businesses for either voice or data applications. These routers help extend corporate networks to secure remote sites while giving users access to the same applications found in a corporate office. When users require WLAN access, visibility and control of network security are even more critical at the remote site. The Cisco 880 Series meets this need with a single device that combines integrated 802.11g/n capabilities with security features such as Wi-Fi Protected Access (WPA), including authentication with IEEE 802.1x with Cisco Extensible Authentication Protocol (LEAP) and Protected EAP (PEAP) and encryption with WPA Temporal Key Integrity Protocol (TKIP). (Refer to the wireless solution overview and security data sheet for more information.) The Cisco 880 Series models that include the integrated access point can use either autonomous or Cisco Unified WLAN modes. In Cisco Unified WLAN mode, as part of an enterprise WLAN architecture, all WLAN functions are centrally managed through Cisco Wireless LAN Controllers and the Cisco Wireless Control System (WCS).Service providers and value-added resellers can take advantage of the Cisco 880 Series to provide a true business-class broadband service. Business customers are using broadband access to connect to the Internet or to connect offices together, and they require a platform that incorporates voice and security without sacrificing performance. The Cisco 881V and Cisco 887VA-V voice routers offer industry-leading voice gateway capability with the ability enable Cisco Unified Communications Manager Express or SRST as required. Many of these customers are connecting computers in offices through WLANs; having a single device for both WAN and WLAN access provides a new option for managed services. These customers also require a higher level of support to keep their networks operational. Services with these customers should be simple to set up, while allowing a level of remote management and troubleshooting to address support inquiries quickly. The Cisco 880 Series meets the requirements of small offices and managed services providers.Figure 2 shows deployment scenarios.Figure 2. Deployment ScenariosApplicationsThe Cisco 880 Series is ideally suited for deployment in a small office or in a small office that is part of a large network, most often with a secure VPN connection. These types of offices can include the following:●Small remote office: The Cisco 880 Series can connect users in a small remote office, such as aninsurance, lawyer, or sales office. When connecting to the main office, VPN encryption and integratedsecurity such as firewall and intrusion prevention protect the network at the perimeter. The Cisco 880 with the Cisco Unified Border Element Series can also support connection to SIP trunking voice-over-IP (VoIP) services the service provider offers. Additionally, IT managers can centrally manage the remote site toquickly troubleshoot any network problems. For added reliability, customers can also use the integrated 3G or ISDN backup or connect through an external modem if the primary broadband link fails. Integratedsecure unified WLAN connectivity simplifies the deployment and management devices at the remote site.Redundant WAN links offer business continuity, enabling nondisruptive business operation.●Virtual office: The Cisco 880 Series is ideal for corporate teleworkers who have a mix of broadbandconnection types such as DSL, 3G, and Metro Ethernet. The Cisco 880 Voice Gateway and SRST Series provides a secure virtual office with all the collaborative services such as data, voice, and fax services.SRST helps ensure voice services are operational in case of WAN link failure, and redundant WAN links help ensure business continuity. QoS features in the Cisco 880 Series allow for connection of an IP oranalog phone to the router, giving voice traffic precedence over data applications. Integrated WLAN support in the Cisco 880 Series helps ensure that if wireless connectivity is used it is secure. (Refer to the Cisco Virtual Office Solution, /go/cvo, for more information.)●Remote call-center agent: Similar to teleworking applications, this solution extends the Cisco IP ContactCenter solution for telephone call-center agents to remote sites. With a high-quality, secure connectionthrough the Cisco 880 Series, call-center agents can be dispersed away from costly call-center facilitieswhile maintaining secure and productive voice and data access in their homes. SRST and business-continuity solutions in the Cisco 880 Series provide reliability and continuous business operation.Alternatively, the remote call-center agent can be provided with SIP trunking service with servicedemarcation provided by Cisco Unified Border Element features, and the central call center can forwardcalls to the remote call-center agent through the remote-office SIP trunk.●Retail VPN: Retail stores migrating from dialup connections for point-of-sale transactions can use the Cisco880 Series to take advantage of low-cost broadband access with the required security to comply withpayment-card-industry (PCI) and other data security requirements. They can then add multiple devices and applications to the store network to take advantage of the increased bandwidth and also incorporateoptional WLAN support to enable secure mobility and enhance productivity.●Managed services: Service providers and value-added resellers can use the Cisco 880 Series as a platformto offer differentiated business-class security, voice, and WLAN services for small business customers. With built-in analog and digital voice ports and the ability to upgrade to a five-user Cisco Unified Communications Manager Express IP PBX, service providers can now offer all the Cisco Unified Communications benefits to small and medium-sized businesses. The SIP trunking connectivity features of the Cisco 880 with the Cisco Unified Border Element Series Router can provide the high-quality VoIP service needed through the service provider cloud.Features and BenefitsTable 3 lists the features and benefits of the Cisco 880 Series Integrated Services Routers.Table 3. Features and Benefits of Cisco 880 Series RoutersSummaryCisco 880 Series Integrated Services Routers combine increased network performance with advanced security to allow small-office customers to get the most from their broadband connections for both data and voice applications. With models supporting different broadband technologies such as DSL, 3G, and Metro Ethernet, the Cisco 880 Series can be deployed at any small-office location. Optional integrated 802.11g/n wireless capabilities provide true business-class WAN and WLAN access in a single solution. With the Cisco 880 Series, enterprise IT managers and service providers can take advantage of a solution that can be easily set up at the remote site and can be centrally managed to reduce ongoing operational costs.Product SpecificationsCisco IOS Software SupportTable 4 lists the minimum Cisco IOS Software releases and the default Cisco IOS Software feature sets.Table 4. Cisco IOS Software Releases and Default Cisco IOS Software Feature Sets* Cisco 881V, 887VA-V, 881 SRST, and 888 SRST run the Cisco 880 voice universal image, which shares the same data and security features as the Advanced IP feature sets of Cisco 880 data models.Tables 5 and 6 list Cisco IOS Software features of the Cisco 880 Series.Table 5. Cisco IOS Software Features on Cisco 880 Series: Advanced Security Feature Set (Default)Table 6. Cisco IOS Software Features on Cisco 880 Series: WLAN Features (Available with Wireless Option)16Cisco IOS Software Advanced IP Services Feature Set (Optional Software Upgrade)The Advanced IP Services software image has all the features of the Advanced Security software image with the addition of the features listed in Tables 7 through 10.Table 7. Cisco IOS Software Features on Cisco 880 Series: Advanced IP Services Feature Set (Optional Software Upgrade)Table 8. Cisco IOS Software Features on Cisco 880V Series: Advanced IP Services Feature SetTable 9. Cisco IOS Software Features on Cisco 880 SRST Series: Advanced IP Services Feature SetTable 10. Cisco IOS Software Features on Cisco 880 Series with Cisco Unified Border Element: Advanced IP Services Feature SetSystem SpecificationsTables 11 and 12 list the system specifications for the Cisco 880 Series Routers. Table 11. System Specifications●Nonoperating temperature: -4 to 149°F (-20 to 65°C)●Nonoperating humidity: 5 to 95% relative humidity (noncondensing)Table 12. Wireless LAN and 3G SpecificationsDSL SpecificationsTables 13 through 21 list the DSL features specifications and DSL access multiplexer (DSLAM) interoperability support for the Cisco 880 Series Routers. For more information and details about DSLAM and line-card interoperability, please refer to the following document: What Is Cisco ISR and ISR G2 xDSL Interoperability?Table 13. DSL Features SpecificationsMultimode DSL (VDSL2 and ADSL2/2+)(886VA and 887VA models)●Broadcom Chipset●Dying gasp●IEEE 802.1q VLAN tagging●Independent DSL firmware loadingVDSL2●ITU G.993.2 (VDSL2)●997 and 998 band plans●VDSL2 profiles: 8a, 8b, 8c, 8d, 12a, 12b, and 17a●U0 band support (25-276 kHz)●Ethernet PTM mode only based on IEEE 802.3ah 64/65 octet encapsulation●DELT Diagnostics ModeADSL2/2+●ADSL over basic telephone service with Annex A and Annex B ITU G. 992.1 (ADSL), G.992.3 (ADSL2), andG.992.5 (ADSL2+)●ADSL over basic telephone service with Annex M (extended upstream bandwidth) G.992.3 (ADSL2) andG.992.5 (ADSL2+)◦Cisco 887VA-M is optimized for PSD Mask EU-64 M9.◦Cisco 887VA-M supports UK Annex M.●G.994.1 ITU Ghs●Reach-extended ADSL2 (G.922.3) Annex L for increased performance on loop lengths greater than 16,000feet from central office●T1.413 ANSI ADSL DMT issue 2 compliance●DSL Forum TR-067 conformity●Inpulse Noise Protection (INP) and extended INP●Downstream Power Back-Off (DPBO)●ATM mode onlyADSL specifications (886 and 887 models) ●ST-Microelectronics 20190 Chipset●ADSL over basic telephone service with Annex A and Annex B ITU G. 992.1 (ADSL), G.992.3 (ADSL2), andG.992.5 (ADSL2+)●ADSL over basic telephone service with Annex M (extended upstream bandwidth) G.992.3 (ADSL2) andG.992.5 (ADSL2+)◦Cisco 887-M is optimized for PSD Mask EU-64 M9.◦Cisco 887M supports UK Annex M only with Huawei 5300 DSLAM and its EADB line card with customer-premises-equipment (CPE) firmware Version 4.0.17.●G.994.1 ITU G.hs●Reach-extended ADSL2 (G.922.3) Annex L for increased performance on loop lengths greater than 16,000 feet from central office●T1.413 ANSI ADSL DMT issue 2 compliance●DSL Forum TR-067 conformity●Does not provide interoperability with carrierless amplitude modulation/phase modulation (CAP)-based ADSL lines●Dying gasp●IEEE 802.1q VLAN tagging with Cisco IOS Software Release 15.1(1)T or laterVDSL2 specifications (887V models) ●Broadcom Chipset●ITU G.993.2 (VDSL2) over basic telephone service only●997 and 998 band plans, over basic telephone service only●VDSL2 profiles supported: 8a, 8b, 8c, 8d, 12a, 12b, and 17a●U0 band support (25276 kHz)●Ethernet PTM mode only based on IEEE 802.3ah 64/65 octet encapsulation ●DELT Diagnostics Mode●IEEE 802.1q VLAN taggingG.SHDSL (ATM mode) specifications (Cisco 888) ●Conexant/Ikanos Chipset●2- and 4-wire modes●Symmetrical WAN speeds up to 2.304 Mbps over a single copper pair and up to 4.608 Mbps over two copper pairs using ITU-T G.991.2 Annex A and Annex B●Wetting current (Section A.5.3.3 of G.991.2)●Dying gasp; uses power status bit (Section 7.1.2.5.3 of G.991.2) for signalingG.SHDSL (EFM mode) specifications (Cisco 888E) ●Conexant/Ikanos Chipset●2-wire mode●Symmetrical WAN speeds up to 2.304 Mbps over a single copper pair using ITU-T G.991.2 Annex A and Annex B●Symmetrical WAN speeds from 768 kbps to 5.696 Mbps over a single copper pair using ITU-T G.991.2 AnnexF and Annex G●Symmetrical WAN speeds up to 22.784 Mbps over four copper pairs using IEEE 802.3ah EFM bonding●Wetting current (Section A.5.3.3 of G.991.2)●Dying gasp; uses power status bit (Section 7.1.2.5.3 of G.991.2) for signaling●Rate adaptionMultimode G.SHDSL (EFM/ATM) specifications (Cisco 888EA) ●Lantiq Chipset●4-pair support●Compliance with standard based on ITU Recommendation G.991.2●Support for G.SHDSL Annexes A (U.S. signaling) and B (European signaling)●Support for Annexes F and G●Symmetrical WAN speeds up to 1 x 2304 kbps over single copper pair, up to 2 x 2304 kbps over two copper pairs, up to 3 x 2304 kbps over three copper pairs, and up to 4 x 2304 kbps over four copper pairs using ITU-TG.991.2 Annexes A and B●Symmetrical WAN speeds up to 1 x 5696 kbps over single copper pair, up to 2 x 5696 kbps over two copper pairs, up to 3 x 5696 kbps over three copper pairs, and up to 4 x 56964 kbps over four copper pairs using ITU-T G.991.2 Annexes F and G●Support for EFM bonding; supports up to four SHDSL pairs bonding●In ATM mode, support for maximum of 8 permanent virtual circuits (PVCs)●Support for dying gasp and wetting current●Support for point-to-point configuration●Support for 802.1Q, QinQ, trunk, and VLAN tagging●Support for ATM CoS and IP QoS features, 802.1P, and DSCP●Support for EFM (IEEE 802.3ah) OA&M●Ability to configure multiple G.SHDSL EFM EHWICs per Cisco 1921, 1941, 2900, and 3900 Series Routers●Compliance with single RJ-45 connector system requirementsTable 14. Multimode DSL DSLAM Interoperability for Cisco 887VATable 15. Multimode DSL DSLAM Interoperability for Cisco 886VATable 16. ADSL-over-ISDN DSLAM Interoperability for Cisco 886Table 17. ADSL over Basic Telephone Service DSLAM Interoperability for Cisco 887 and 887MTable 18. VDSL2 DSLAM Interoperability for Cisco 887VTable 19. G.SHDSL DSLAM Interoperability for Cisco 888Table 20. G.SHDSL DSLAM Interoperability for Cisco 888ETable 21. Multimode G.SHDSL DSLAM Interoperability for Cisco 888EA-K9Ordering InformationTable 22 lists ordering information for the Cisco 880 Series. To place an order, visit the Cisco ordering homepage. Table 22. Ordering Information* Each software part number has the Cisco IOS Software release number at the end of the string. For example, the part number of IOS 12.4(20)T data universal image for Cisco 880 series is S880DUK9-12420T.** This Memory license is only valid for C881-K9, C886VA-K9, C886VAJ-K9, C887VA-K9, C887VAM-K9 and C888-K9Cisco License Manager is a secure client- and server-based application used to manage Cisco IOS Software activation and licenses. For more information about Cisco License Manager, visit /go/clm. Cisco Services for the Branch OfficeServices from Cisco and our certified partners can help you reduce the cost and complexity of branch-office deployments. We have the depth and breadth of experience across technologies to architect a blueprint for a branch-office solution to meet your company's needs. Planning and design services align technology with business goals and can increase the accuracy, speed, and efficiency of deployment. Technical services help maintain operational health, strengthen software application functions, solve performance problems, and lower expenses. Optimization services are designed to continually improve performance and help your team succeed with newtechnologies. For more information, please visit /go/services.。

C H A P T E R2-1Cisco ASR 1001-X Router Hardware Installation GuideOL-32376-022Cisco ASR 1001-X Router Supported Hardware ComponentsThis chapter contains information about the supported hardware components on the Cisco ASR 1001-X Router, and contains the following sections:•Supported Hardware Components, page 2-1•Supported Half-Height SPAs, page 2-2•Supported Small Form-Factor Pluggable (SFP and SFP+) Transceivers, page 2-3•Supported NIMs, page 2-4•Cisco ASR 1001-X Router Power Supplies, page 2-5Supported Hardware ComponentsTable 2-1 lists the hardware components supported on the Cisco ASR 1001-X Router.T able 2-1Supported Hardware ComponentsComponent Description Chassis 1 RU form factorEthernet Ports Six built-in Gigabit Ethernet and two built-in 10-Gigabit Ethernet ports ESPA nonmodular, fixed ESP with a default throughput of 2.5 Gbps, which is upgradable with a software-activated performance license of 5 Gbps, 10 Gbps, or 20 Gbps.Route Processor Single integrated route processor SIP Integrated SIPSPA Slots 1 half-height (HH) SPA bay NIM Slots 1USB Slots2Chapter2 Cisco ASR 1001-X Router Supported Hardware Components Supported Half-Height SPAsSupported Half-Height SPAsTable2-1 lists the supported half-height SPAs on the Cisco ASR 1001-X Router.Supported Half-HeightSPAsT able2-2Supported Half-Height SPAsPID DescriptionSPA-1X10GE-L-V2Cisco 1-Port 10GE LAN-PHYSPA-1XCHSTM1/OC31-port Channelized STM-1/OC-3c to DS0SPA-1XOC12-POS1-port OC12/STM4 POSSPA-2XOC12-POS2-port OC12/STM4 POSSPA-4XOC12-POS4-port OC-12/STM-4 POSSPA-8XOC12-POS8-port OC12/STM4SPA-1XOC3-ATM-V21-port OC-3c/STM-1 ATMSPA-2X1GE-V2Cisco 2-Port Gigabit EthernetSPA-2XCT3/DS02-port Channelized T3 to DS0SPA-2XOC3-POS2-port OC3/STM1 POSSPA-8XOC3-POS8-port OC-3/STM-1 POSSPA-1XOC48POS/RPR1-port OC48/STM16 POS/RPRSPA-2XOC48POS/RPR2-port OC48/STM16 POS/RPRSPA-2XT3/E32-port Clear Channel T3/E3SPA-3XOC3-ATM-V23-port OC-3c/STM-1 ATMSPA-4X1FE-TX-V2Cisco 4-Port Fast Ethernet (TX)SPA-4XCT3/DS04-port Channelized T3 to DS0SPA-4XOC3-POS4-port OC3/STM1 POSSPA-4XOC48POS/RPR4-port OC48/STM16 POS/RPR Shared PortAdaptersSPA-OC192POS-XFP1-port OC192/STM64 POS/RPR XFP OpticsSPA-4XT-SERIAL Cisco 4-port serial SPASPA-4XT3/E34-port Clear Channel T3/E3SPA-5X1GE-V2Cisco 5-Port Gigabit EthernetSPA-8X1FE-TX-V2Cisco 8-Port Fast Ethernet (TX)SPA-8X1GE-V2Cisco 8-Port Gigabit EthernetSPA-8XCHT1/E18-port Channelized T1/E1 to DS0SPA-1XOC12-ATM-V21-port OC12 STMSPA-DSP Digital Signal Processor SPASPA-1X10GE-WL-V2Cisco 1-port 10GE LAN/WAN-PHYSPA-2CHT3-CE-ATM2-Port Channelized T3/E3 ATM and CircuitEmulation SPACisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter2 Cisco ASR 1001-X Router Supported Hardware ComponentsSupported Small Form-Factor Pluggable (SFP and SFP+) TransceiversT able2-2Supported Half-Height SPAs (continued)PID DescriptionSPA-4XOC3-POS-V24-port OC-3/STM-1 POSSPA-2X1GE-SYNCE1Cisco Synchronous Ethernet SPASPA-8XT3/E3Cisco 8-Port Clear Channel T3/E3 Shared PortAdapterSPA-24CHT1-CE-ATM Cisco 24 Port T1/E1/J1 Circuit Emulation SPA1.There is a limitation for clock switchover scenarios between the Cisco ASR 1001-X Router's built-in ports and theMetronome SPA. All the other functionalities on the Metronome SPA are supported.Supported Small Form-Factor Pluggable (SFP and SFP+) TransceiversTable2-3 and Table2-4 list the supported SFP optics and SFP copper interfaces on the Cisco ASR1001-X Router.T able2-3Supported 1 GE SFP Optics and SFP Copper InterfacesPID DescriptionSFP-GE-S1000BASE-SX SFP (DOM)GLC-SX-MMD1000BASE-SX SFP transceiver module, MMF,850nm, DOMSFP-GE-L1000BASE-LX/LH SFP (DOM)GLC-LH-SMD1000BASE-LX/LH SFP transceiver module,MMF/SMF, 1310nm, DOMSFP-GE-Z1000BASE-ZX Gigabit Ethernet SFP (DOM)SFP-GE-T1000BASE-T SFP (NEBS 3 ESD)GLC-BX-U1000BASE-BX SFP, 1310NMGLC-BX-D1000BASE-BX SFP, 1490NMGLC-GE-100FX100FX SFP on GE portsGLC-SX-MM GE SFP, LC connector SX transceiverGLC-LH-SM GE SFP, LC connector LX/LH transceiverGLC-EX-SMD GE SFP, LC Connector, EX transceiverGLC-ZX-SMD1000BASE-ZX SFP transceiver module, SMF,1550nm, DOMDWDM-SFP1000BASE DWDMCWDM-SFP1000BASE CWDMCisco ASR 1001-X Router Hardware Installation Guide OL-32376-02Cisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsSupported NIMsSupported NIMsThe Cisco ASR 1001-X Router supports the following NIM form factors:•NIM-SSD •NIM-T1/E1NIM-SSDTable 2-5 lists the supported NIM with Solid State Disk (SSD) on the Cisco ASR 1001-X Router:NIM-T1/E1Table 2-6 lists the supported T1/E1 NIMs on the Cisco ASR 1001-X Router:T able 2-4Supported 10 GE SFP Optics and SFP Copper InterfacePIDDescriptionSFP-10G-SR 10GBASE-SR SFP+ Module for MMF SFP-10G-SR-X SFP-10G-LR 10GBASE-LR SFP+ Module for SMF SFP-10G-LR-X SFP-10G-ER 10GBASE-ER SFP+ Module for SMF SFP-10G-ZR10GBASE-ZR SFP+ Module for SMFT able 2-5Supported NIM SSDsPart Number DescriptionNIM-SSD NIM Carrier Card for SSD drives SSD-SATA-200G 200 GB, SATA Solid State Disk SSD-SATA-400G400 GB, SATA Solid State DiskT able 2-6Supported NIM-T1/E1sPart NumberNumber of Ports Clear-Channel Data MFT Packet VoiceUnstructuredE1 (G.703) Support Channelized Data NI M -1M FT-T1/E1 1Yes No No No NI M -2M FT-T1/E1 2Yes No No No NI M -4M FT-T1/E1 4Yes No No No NIM-8MFT-T1/E18Yes No No No NI M -1CE1T1-PRI 1YesNoYesYes2-5Cisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsCisco ASR 1001-X Router Power SuppliesCisco ASR 1001-X Router Power SuppliesThe Cisco ASR 1001-X Router supports AC and DC power supply options. The modular chassisconfigurations support the installation of two power supplies for redundancy. When an external power supply fails or is removed, the other power supply provides power requirements for the chassis. This allows you to hot-swap the power supply without impacting the functionality of the router.Power Supplies for the Cisco ASR 1001-X RouterEach Cisco ASR 1001-X Router power supply provides 250 W of output power. The power supplies are used in a 1 +1 redundant configuration. There is no input switch on the faceplate of the power supplies. A power supply is switched from Standby to On by way of a system chassis STANDBY/ON switch. When facing the rear of the chassis, power supply slot 0 (PS0) is to the left (next to the power supply standby switch) and power supply slot 1(PS1) is to the right.The Cisco ASR 1001-X Router supports the following power supplies:•Cisco ASR 1001-X Router AC power supply—Provides 250 W output power with DC voltage output of +12 V. The AC power supply operates between +85 and +264 VAC. The AC power supply current shares on the 12 V output and is used in a dual hot pluggable configuration.•Cisco ASR 1001-X Router DC power supply—Provides 242 W output power with DC voltage output of +12 V. The power supply operates between –40 and –72 VDC. The DC power supply current shares on the 12 V output and is used in a dual hot-pluggable configuration.NoteThe Cisco ASR 1001-X Router can support two AC or two DC power supplies. Do not install mixed AC and DC power supply units in the same chassis.Figure 2-1 shows both the DC and AC power supplies for the Cisco ASR 1001-X Router.NI M -2CE1T1-PRI 2Yes No Yes Yes NI M -8CE1T1-PRI 8YesNoYesYesT able 2-6Supported NIM-T1/E1s (continued)Part NumberNumber of Ports Clear-Channel Data MFT Packet VoiceUnstructuredE1 (G.703) Support Channelized Data2-6Cisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsCisco ASR 1001-X Router Power SuppliesNote2-7Cisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsCisco ASR 1001-X Router Power SuppliesCisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsCisco ASR 1001-X Router Power SuppliesAC/DC Power System Input Range and Voltage for the Cisco ASR 1001-X RouterThe power supply DC Input Range is –40 to –72 VDC, and the AC Input Range is +85 to +264 VAC. Table 2-7 describes the Cisco ASR 1001-X Router power supply LEDs.Power Cords Supported by the Cisco ASR 1001-X RouterTable 2-8 lists the power cords that are supported by the Cisco ASR 1001-X Router.T able 2-7Cisco ASR 1001-X Router—AC and DC Power Supply LEDsLED Color and State DescriptionOK - (Solid green)Input power is on and within the normal operating range. On the AC unit, the LED is solid green when the system in powered on. When the system is powered off, the LED will blink until the AC power is removed.OK - (Blinking Green at the rate of one blink per second)Input power that is within the normal operating range is being supplied, but the Standby switch is in the Standby position (and not in the On position).Fail - (Red)Power output has failed.OffPower supply is shut down.T able 2-8Power Cords Supported by the Cisco ASR 1001-X RouterPower Cord Item Number Description CAB-AC Power Cord, 110 V CAB-ACA Plug Power Cord, Australia, 10 A CAB-ACC Power Cord, ChinaCAB-ACE AC Power Cord, Europe, C13, CEE 7, 1.5 M CAB-ACI AC Power Cord, Italy, C13, CEI 23-16, 2.5 mCAB-ACR AC Power Cord, Argentina, C13, EL 219 (IRAM 2073), 2.5mCAB-ACS AC Power Cord, Switzerland, C13, IEC 60884-1, 2.5 m CAB-ACU AC Power Cord, UK, C13, BS 1363, 2.5 m CAB-IND AC Power Cord, IndiaCAB-JPN AC Power Cord, Japan, C13, JIS C 8303, 2.5 m CAB-L620P-C13-US Power Cord, 250 VAC, 15A, NEMA L6-20 to C13, U.S.CAB-L620P-C13-JPN Power Cord, 250 VAC, 15A, NEMA L6-20 to C13, JapanCAB-C13-CBN Cabinet JumperPower Cord, 250 VAC 10 A, C14-C13 ConnectorsCisco ASR 1001-X Router Hardware Installation GuideOL-32376-02Chapter 2 Cisco ASR 1001-X Router Supported Hardware ComponentsCisco ASR 1001-X Router Power SuppliesCAB-C13-C14-JMPR Cabinet JumperPower Cord, 250 VAC 13 A, C14-C15 Connector CAB-C13-C14-2M Power Cord Jumper, C13-C14 Connectors, 2-Meter LengthCAB-C13-C14-ACPower Cord Jumper, C13-C14 Connectors, 3-Meter LengthT able 2-8Power Cords Supported by the Cisco ASR 1001-X Router (continued)Power Cord Item Number DescriptionChapter2 Cisco ASR 1001-X Router Supported Hardware Components Cisco ASR 1001-X Router Power SuppliesCisco ASR 1001-X Router Hardware Installation GuideOL-32376-02。

IEC 61008IntroductionIEC 61008 is an international standard for residual current operated circuit-breakers with integral overcurrent protection (RCBOs). It specifies the requirements and test methods for RCBOs, which offer protection against:1.Residual current faults.2.Overcurrent faults.This standard aims to ensure the safety of electrical installations and protect people from electric shocks and fires caused by faults in the electrical system. In this document, we will discuss the key aspects of IEC 61008, including its scope, requirements, and test methods.ScopeThe scope of IEC 61008 covers RCBOs designed for household and similar purposes with rated voltages not exceeding 440 V AC and rated currents not exceeding 125 A. These devices are designed to provide protection against:1.Earth faults.2.Phase-to-neutral faults.3.Overcurrent faults.The standard applies to RCBOs used in fixed installations and portable applications. However, it does not cover RCBOs for industrial applications where specific standards, such as IEC 60947 series, are more applicable.RequirementsIEC 61008 specifies various requirements for RCBOs, including the following:1.Construction: The RCBO should be constructed in away that ensures proper electrical, thermal, and mechanical performance.2.Rated voltage and current: The RCBO should besuitable for the rated voltage and current specified.3.Rated residual operating current: The RCBO shouldhave a specified rated residual operating current thatenables it to detect and respond to residual current faults.4.Trip time: The RCBO should trip within a specifiedtime under both normal and fault conditions to preventelectric shock and fires.5.Temperature rise: The RCBO should not excessivelyheat up during normal operation.6.Dielectric properties: The RCBO should haveappropriate dielectric properties to ensure insulation and withstand voltage requirements.7.Breaking capacity: The RCBO should have aspecified breaking capacity to handle overcurrent faults.8.Indication and labeling: The RCBO should haveproper labeling to indicate its characteristics and ensuresafe usage.Test MethodsIEC 61008 also provides various test methods to verify compliance with the requirements. Some of the important test methods include:1.Verification of rated residual operating current: Thistest is conducted to verify the RCBO’s ability to detect and respond to residual current faults within the specifiedrange.2.Trip time test: This test measures the time taken bythe RCBO to trip under both normal and fault conditions.3.Temperature rise test: This test measures thetemperature rise of the RCBO during its normal operation to ensure it remains within acceptable limits.4.Dielectric test: This test checks the insulation andwithstand voltage properties of the RCBO under specified conditions.5.Breaking capacity test: This test determines theability of the RCBO to handle overcurrent faults within the specified breaking capacity.ConclusionIEC 61008 plays a vital role in ensuring the safety of electrical installations by specifying the requirements and test methods for RCBOs. These devices provide protection against residual current faults and overcurrent faults, minimizing the risk of electric shocks and fires. By following this standard, manufacturers can produce RCBOs that meet the necessary safety standards, ensuring the well-being of users and increasing the overall reliability of electrical systems.。

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致谢！方正科技集团股份有限公司二OO四年目次1 注意事项 (1)1.1特别提示 (1)1.2注意事项 (1)2 SRCZCR RAID卡的描述 (6)2.1概述 (6)2.2SRCZCR R AID卡性能特征 (6)3 SRCZCR RAID卡的安装 (7)3.1概述 (7)3.2安全措施 (7)3.3SCSI设备的速率 (7)3.4SCSI连线 (7)3.5SCSI设备ID的设置 (7)3.6SCSI终结器的设置 (8)3.7如何正确连接SRCZCR R AID卡和SCSI设备 (8)4 固化管理软件STORAGE CONSOLE (STORCON) (9)4.1概述 (9)4.2运行S TOR C ON (9)4.3E XPRESS S ETUP菜单 (9)4.4C ONFIGUER H OST D RIVES (10)4.5配置一个新的磁盘阵列 (10)4.6M ONITOR菜单 (14)5 SRCZCR卡下操作系统的安装 (17)5.1安装W INDOWS NT4.0 (17)5.2安装W INDOWS 2000S ERVER或A DVANCE S ERVER (19)5.3安装NOVELL N ETWARE (21)5.4安装NETWARE5.1 (22)6 图形化管理软件STORAGE CONSOLE PLUS (STORCON+) (27)6.1概述 (27)6.2安装S TORAGE C ONSOLE P LUS (S TOR C ON+) (27)6.3运行S TORAGE C ONSOLE P LUS (S TOR C ON+) (28)6.4控制选项 (28)6.5选择RAID SRCZCR R AID卡 (31)6.6P HYSICAL C ONFIGURATION窗口 (31)6.7配置R AID卡 (32)6.8配置SCSI通道 (34)6.9配置SCSI硬盘 (36)6.10L OGICAL C ONFIGURATION窗口 (38)6.11T HE S TATISTICS窗口 (48)6.12T HE E VENT窗口 (48)6.13S TORAGE C ONSOLE P LUS (S TOR C ON+)帮助 (49)7 远程控制 (51)7.1安装 (51)7.2设置R AID卡以实现远程监控 (53)7.3E-M AIL事件通知配置工具 (55)7.4远程控制 (57)7.5事件提示 (59)8 故障诊断 (60)1 注意事项1.1 特别提示为了便于理解和引起您的注意，当涉及产品安全或需关注的信息时我们将在本章节或在后面的章节中按下列等级和特别的警示用语向您提示，这些特别的警示用语表示方法如下：♦【危险】--表示对高度危险要警惕♦【警告】--表示对中度危险要警惕♦【注意】--表示对轻度危险要关注♦【禁止】--表示危险的操作需禁止♦【提醒】--表示安全或其他内容需关注本章节中为您提供的安全信息并不是全部的，为了您的安全和利益，我们会根据需要将部分产品安全信息编排到使用手册的后面章节中，不论这些安全信息置于何处，您均应仔细阅读。

IP8800/S6700IP8800/S6600IP8800/S6300IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒjƒ…ƒAƒ‹’ù•³Ž‘—¿•iVer. 11.9.AˆÈ•~•j [IP8800ƒ‚ƒfƒ‹•ê—p”Å]2012”N12ŒŽ25“ú”-•s•i•‰”Å•j•¡ ‚Í‚¶‚ß‚É–{Ž‘—¿‚Í•CIP8800/S6700•EIP8800/S6600•E IP8800/S6300ƒ\ƒtƒgƒEƒFƒA ƒ}ƒjƒ…ƒAƒ‹•iAll Rights Reserved, Copyright(C), 2006, 2012, NEC Corp.)‚Ì’ù•³“à—e‚ɂ‚¢‚Ä•à–¾‚·‚é‚à‚Ì‚Å‚·•B–{‘•’u‚̃}ƒjƒ…ƒAƒ‹‚ð“ǂޕꕇ‚Í•C ‚±‚ÌŽ‘—¿‚à‚ ‚킹‚Ä‚¨“ǂ݉º‚³‚¢•B–{Ž‘—¿‚̑ΕۂƂȂéƒ}ƒjƒ…ƒAƒ‹ˆê——‚ðˆÈ‰º‚ÉŽ¦‚µ‚Ü‚·•B•€”Ô ƒ}ƒjƒ…ƒAƒ‹–¼•Ì ƒ}ƒjƒ…ƒAƒ‹”Ô•† ”-•s ‚P IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒh Vol.1(Ver. 11.7‘Ήž”Å) IP88S63-S001-C0 2012”N1ŒŽ‚Q IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒh Vol.2(Ver. 11.7‘Ήž”Å) IP88S63-S002-C0 2012”N1ŒŽ‚R IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒh Vol.3(Ver. 11.7‘Ήž”Å) IP88S63-S003-C0 2012”N1ŒŽ‚S IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.1(Ver. 11.7‘Ήž”Å) IP88S63-S004-C0 2012”N1ŒŽ‚T IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.2(Ver. 11.7‘Ήž”Å) IP88S63-S010-30 2012”N1ŒŽ‚U IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.3(Ver. 11.7‘Ήž”Å) IP88S63-S005-C0 2012”N1ŒŽ‚V IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.1(Ver. 11.7‘Ήž”Å) IP88S63-S006-C0 2012”N1ŒŽ‚W IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.2(Ver. 11.7‘Ήž”Å) IP88S63-S011-30 2012”N1ŒŽ‚X IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX Vol.3(Ver. 11.7‘Ήž”Å)IP88S63-S007-C0 2012”N1ŒŽ‚P‚O IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹ƒ•ƒbƒZ•[ƒW•Eƒ•ƒOƒŒƒtƒ@ƒŒƒ“ƒX(Ver. 11.7‘Ήž”Å)IP88S63-S008-C0 2012”N1ŒŽ‚P‚P IP8800/S6700¥IP8800/S6600¥IP8800/S6300ƒ\ƒtƒgƒEƒFƒAƒ}ƒj ƒ…ƒAƒ‹MIB ƒŒƒtƒ@ƒŒƒ“ƒX(Ver. 11.7‘Ήž”Å)IP88S63-S009-C0 2012”N1ŒŽ•¡ •¤•Wˆê——Cisco ‚Í•C•Ä•‘Cisco Systems, Inc.‚Ì•Ä•‘‚¨‚æ‚Ñ‘¼‚Ì•‘•X‚É‚¨‚¯‚é“o˜^•¤•W‚Å‚·•B Ethernet ‚Í•C•xŽmƒ[ƒ•ƒbƒNƒXŠ”Ž®‰ïŽÐ‚Ì“o˜^•¤•W‚Å‚·•BGSRP ‚Í•CƒAƒ‰ƒNƒTƒ‰ƒlƒbƒgƒ••[ƒNƒXŠ”Ž®‰ïŽÐ‚Ì“o˜^•¤•W‚Å‚·•BInternet Explorer ‚Í•C•Ä•‘Microsoft Corporation ‚Ì•Ä•‘‹y‚Ñ‚»‚Ì‘¼‚Ì•‘‚É‚¨‚¯‚é“o˜^•¤•W‚Ü‚½‚Í•¤•W‚Å‚·•B IPX ‚Í•CNovell,Inc.‚Ì•¤•W‚Å‚·•BMicrosoft ‚Í•C•Ä•‘Microsoft Corporation ‚Ì•Ä•‘‚¨‚æ‚Ñ‚»‚Ì‘¼‚Ì•‘‚É‚¨‚¯‚é“o˜^•¤•W‚Ü‚½‚Í•¤•W‚Å‚·•B sFlow ‚Í•C•Ä•‘‚¨‚æ‚Ñ‚»‚Ì‘¼‚Ì•‘‚É‚¨‚¯‚é•Ä•‘InMon Corp.‚Ì“o˜^•¤•W‚Å‚·•B UNIX‚Í•CThe Open Group‚Ì•Ä•‘‚È‚ç‚Ñ‚É‘¼‚Ì•‘‚É‚¨‚¯‚é“o˜^•¤•W‚Å‚·•B VitalQIP•C VitalQIP Registration Manager ‚Í•CLucent technologies ‚Ì•¤•W‚Å‚·•B VLANaccessClient ‚Í•CNEC ƒ\ƒtƒg‚Ì•¤•W‚Å‚·•BWindows ‚Í•C•Ä•‘Microsoft Corporation ‚Ì•Ä•‘‚¨‚æ‚Ñ‚»‚Ì‘¼‚Ì•‘‚É‚¨‚¯‚é“o˜^•¤•W‚Ü‚½‚Í•¤•W‚Å‚·•B ƒC•[ƒTƒlƒbƒg‚Í•C•xŽmƒ[ƒ•ƒbƒNƒXŠ”Ž®‰ïŽÐ‚Ì“o˜^•¤•W‚Å‚·•B‚»‚Ì‚Ù‚©‚Ì‹L•Ú‚̉ïŽÐ–¼•C•»•i–¼‚Í•C‚»‚ꂼ‚ê‚̉ïŽÐ‚Ì•¤•W‚à‚µ‚-‚Í“o˜^•¤•W‚Å‚·•B•¡‚²’•ˆÓ‚±‚̃}ƒjƒ…ƒAƒ‹’ù•³Ž‘—¿‚Í•C‰ü—Ç‚Ì‚½‚ß•C—\••‚È‚-•Ï•X‚·‚é•ê•‡‚ª‚ ‚è‚Ü‚·•B•¡”-•s2012”N12ŒŽ25“ú”-•s(•‰”Å)•¡’˜•ìŒAll Rights Reserved, Copyright(C), 2006, 2012, NEC Corp.–ÚŽŸVol.1•iVer. 11.7‘Ήž”Å•j•iIP88S63-S001-C0•j‚Ì’ù•³“à—e (5)1. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒhVol.2•iVer. 11.7‘Ήž”Å•j•iIP88S63-S002-C0•j‚Ì’ù•³“à—e (7)2. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒhVol.3•iVer. 11.7‘Ήž”Å•j•iIP88S63-S003-C0•j‚Ì’ù•³“à—e (11)3. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒhVol.1•iVer. 11.7‘Ήž”Å•j•iIP88S63-S004-C0•j‚Ì’ù•³“à—e (12)4. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.2•iVer. 11.7‘Ήž”Å•j•iIP88S63-S005-C0•j‚Ì’ù•³“à—e (13)5. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.3•iVer. 11.7‘Ήž”Å•j•iIP88S63-S005-C0•j‚Ì’ù•³“à—e (15)6. ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.1•iVer. 11.7‘Ήž”Å•j•iIP88S63-S006-C0•j‚Ì’ù•³“à—e (15)7. ‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.2•iVer. 11.7‘Ήž”Å•j•iIP88S63-S007-C0•j‚Ì’ù•³“à—e (15)8. ‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX9. ‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.3•iVer. 11.7‘Ήž”Å•j•iIP88S63-S007-C0•j‚Ì’ù•³“à—e (15)Ver. 11.7‘Ήž”Å•j•iIP88S63-S008-C0•j‚Ì’ù•³“à—e (15)10. ƒ•ƒbƒZ•[ƒW¥ƒ•ƒOƒŒƒtƒ@ƒŒƒ“ƒX•i11. MIBƒŒƒtƒ@ƒŒƒ“ƒX•i Ver. 11.7‘Ήž”Å•j•iIP88S63-S009-C0•j‚Ì’ù•³“à—e (15)Vol.1•i Ver. 11.7‘Ήž”Å•j1.ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒh•i IP88S63-S001-C0•j‚Ì’ù•³“à—e11.‘•’u‚ÌŠÇ—•(1)11.2.1 ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“•E‰^—pƒRƒ}ƒ“ƒhˆê——•y’ù•³•z•u•\11-15 ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhˆê——•v‚ð’ù•³‚µ‚Ü‚·•B [Ver.11.9.A]•y’ù•³“à—e•z•\11-15 ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhˆê——(2)11.2.9 Ž©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚Ì•Ý’è•y’ljÁ•z•u11.2.9 Ž©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚Ì•Ý’è•v‚ð’ljÁ‚µ‚Ü‚·•B[Ver.11.9.A]•y’ljÁ•z11.2.9 Ž©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚Ì•Ý’è–{‘•’u‚Å‚Í•C–{‘•’uˆ¶‚̃Šƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ðŽó•M‚·‚é•Û‚Ì—D•æ“x‚ð•Ï•X‚Å‚«‚Ü‚·•BŽ©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚ð•Ý’è‚·‚邱‚Æ‚Å•C–{•Ý’è‚ð•s‚Á‚Ä‚¢‚Å‚«‚Ü‚·•B‚»‚Ì‚½‚ß•CCPU ‚È‚¢Žž‚æ‚è‚à•‚‚¢—D•æ“x‚ŃŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ðŽó•M‚Å•ˆ—•‚·‚éƒpƒPƒbƒg‚Ìçtçs‚ªŒp‘±‚µ‚Ä‚¢‚é•Û‚É•C–{•Ý’è‚ð•s‚Á‚Ä‚¢‚È‚¢•ê•‡‚Æ”äŠr‚µ‚ăŠƒ‚•[ƒg’[––‚©‚ç‚Ì‘€•ì‚ª‚µ‚â‚·‚-‚È‚è‚Ü‚·•B‚È‚¨•C–{‘•’u‚ÍTCPƒwƒbƒ_‚̈¶•æƒ|•[ƒg”Ô•†‚ª23•itelnetƒvƒ•ƒgƒRƒ‹•j‚¨‚æ‚Ñ22•isshƒvƒ•ƒgƒRƒ‹•j‚Å‚ ‚éƒpƒPƒbƒg‚ðƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Æ‚µ‚Ä”FŽ¯‚µ‚Ü‚·•BŽ©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚̓Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒsystem change-remotelogin-priority‚ð•Ý’è‚·‚邱‚Æ‚Å•C–{‘•’u‚Ì‚·‚ׂĂ̒ʕMƒ|•[ƒg‚ÅŽó•M‚·‚é–{‘•’uˆ¶‚̃Šƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ɑ΂µ‚Ä—LŒø‚É‚È‚è‚Ü‚·•B’•ˆÓ1.–{•Ý’è‚ð—LŒø‚É‚µ‚½•ê•‡•CƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ÌŽó•M•ó‹µ‚É‚æ‚è•C–{‘•’u‚ªƒTƒ|•[ƒg‚·‚éƒvƒ•ƒgƒRƒ‹‚Ì•§ŒäƒpƒPƒbƒg‚ªŽó•M•o—ˆ‚¸•C’Ê•M‚ª•Ø’f‚³‚ê‚é•ê•‡‚ª‚ ‚è‚Ü‚·•B‚±‚Ì‚½‚ß•C“K—p‚·‚éƒlƒbƒgƒ••[ƒN‚ɑ΂µ‚ÄŽ–‘O‚ÌŒŸ•Ø‚ð•\•ª‚É•s‚¤‚±‚Æ‚ð•…•§‚¢‚½‚µ‚Ü‚·•B–{•Ý’è‚ð—LŒø‚É‚µ‚½•Û‚É’Ê•M‚ª•Ø’f‚³‚ê‚錻•Û‚ª”-•¶‚µ‚½•ê•‡‚Í•C–{•Ý’è‚ð•í•œ‚µ‚Ä‚-‚¾‚³‚¢•B2.ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Æ“¯‚¶—D•æ“x•C‚Ü‚½‚Í•C‚æ‚è•‚—D•æ‚ÉCPU‚Å•ˆ—•‚·‚éƒpƒPƒbƒg‚Åçtçs‚ª”-•¶‚µ‚Ä‚¢‚é•ê•‡•C–{•Ý’è‚ð—LŒø‚É‚µ‚Ä‚¢‚Ä‚àƒŠƒ‚•[ƒg’[––‚©‚ç‘€•ì‚Å‚«‚È‚¢•ê•‡‚ª‚ ‚è‚Ü‚·•B3.sshƒvƒ•ƒgƒRƒ‹‚ð—p‚¢‚½–{‘•’uˆ¶‚̃tƒ@ƒCƒ‹“]‘—‚̃pƒPƒbƒg‚à•C–{•Ý’è‚ð—LŒø‚É‚µ‚Ä‚¢‚È‚¢Žž‚æ‚è‚à•‚‚¢—D•æ“x‚ÅŽó•M‚µ‚Ü‚·•B‚»‚Ì‚½‚ß•C sshƒvƒ•ƒgƒRƒ‹‚ð—p‚¢‚½–{‘•’uˆ¶‚̃tƒ@ƒCƒ‹“]‘—‚ð•s‚¤•ê•‡‚Í•C–{‘•’u‚ªƒTƒ|•[ƒg‚·‚éƒvƒ•ƒgƒRƒ‹‚Ì•§ŒäƒpƒPƒbƒg‚ւ̉e‹¿‚É‚Í•\•ª’•ˆÓ‚µ‚Ä‚-‚¾‚³‚¢•B4.–{‘•’u‚ªCPU‚Å•ˆ—•‚·‚éƒpƒPƒbƒg‚Ìçtçs‚ªŒp‘±‚µ‚Ä‚¢‚é•ê•‡•CƒAƒhƒŒƒX‰ðŒˆ‚ª•o—ˆ‚È‚¢ARPƒe•[ƒuƒ‹‚܉”\•«‚ª‚ ‚è‚Ü‚·•B‚»‚Ì‚½‚ß•Cƒlƒbƒgƒ••[ƒN•\•¬‚ɉž‚¶‚½ƒXƒ^ƒeƒBƒbƒN‚½‚̓Xƒ^ƒeƒBƒbƒN NDPƒe•[ƒuƒ‹‚ð•ì•¬‚µ‚Ä‚-‚¾‚³‚¢•B•i1•jŽ©‘•’uˆ¶ƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚̃Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“•m•Ý’è‚̃|ƒCƒ“ƒg•n–{•Ý’è‚ð—LŒø‚É‚·‚é‚Æ•CƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ÌŽó•M•ó‹µ‚É‚æ‚è•C•§ŒäƒpƒPƒb ƒg‚ªŽó•M•o—ˆ‚¸•C’Ê•M‚ª•Ø’f‚³‚ê‚é•ê•‡‚ª‚ ‚è‚Ü‚·•B‚±‚Ì‚½‚ß•C“K—p‚·‚éƒlƒbƒgƒ••[ƒN‚ɑ΂µ‚ÄŽ–‘O‚ÌŒŸ•Ø‚ð•\•ª‚É•s‚¤‚±‚Æ‚ð•…•§‚¢‚½‚µ‚Ü‚·•B•mƒRƒ}ƒ“ƒh‚É‚æ‚é•Ý’è•n1. (config)#system change-remotelogin-priority–{‘•’uˆ¶‚̃Šƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ð•C–{•Ý’è‚ð—LŒø‚É‚µ‚Ä‚¢‚È‚¢Žž‚æ‚è‚à—D•æ“I‚ÉŽó•M‚µ‚Ü‚·•B2.ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒhVol.2•i Ver. 11.7‘Ήž”Å•j •i IP88S63-S002-C0•j‚Ì’ù•³“à—e6.‘—•M•§Œä(1)6.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‰ð•à•y’ljÁ•z‚¸‚ê‚Ü‚·•B•j •u6.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‰ð•à•v‚ð’ljÁ‚µ‚Ü‚·•B•iˆÈ•~‚̕ߔԕ†‚Í•C[Ver.10.6.A]•y’ljÁ•z6.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‰ð•à6.1.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ÌŠT—vŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚Í•C–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚Ì—D•æ“x‚ð•Ï•X‚µƒtƒŒ•[ƒ€‚̃Lƒ…•[”Ô•†‚ðŒˆ’è‚·‚é‹@”\‚Å‚·•B‚±‚Ì•ß‚Å•à–¾‚·‚鎩‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̈ʒu‚¯‚ðŽŸ‚Ì•}‚ÉŽ¦‚µ‚Ü‚·•B•}6-1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̈ʒu‚¯6.1.2 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•XŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x‚Ì•Ï•X‚̓Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒh spontaneous-packet priority‚ÅŽw ’肵‚Ü‚·•BŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ƃtƒ••[•§Œä‚ð‘g‚Ý•‡‚킹‚邱‚Æ‚É‚æ‚Á‚Ä•Cƒtƒ••[•§Œä‚ÅŽw’肵‚½’†ŒpƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚æ‚è•ã‚°‘—•M‚·‚邱‚Æ‚Å•Cƒtƒ••[•§Œä‚ÅŽw’肵‚½’†ŒpƒtƒŒ•[ƒ€‚Ì’x‰…‚ð’ጸ‚³‚¹‚邱‚Æ‚ª‚Å‚«‚Ü‚·•B‚È‚¨•CŽw’肵‚½ƒpƒPƒbƒg—D•æ“x‚Í–{‘•’u‚Ì‚·‚ׂẴC•[ƒTƒlƒbƒgƒCƒ“ƒ^ƒtƒF•[ƒX‚ɑ΂µ‚Ä—LŒø‚É‚È‚è‚Ü‚·•BŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ðŽw’肵‚È‚¢•ê•‡•C‚Ü‚½‚Í•î•ñ‚ð•í•œ‚µ‚½•ê•‡‚Í•CŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚Í8‚Å“®•ì‚µ‚Ü‚·•BŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ðŽŸ‚Ì•\‚ÉŽ¦‚µ‚Ü‚·•B•\6-1 •§Œä‰Â”\‚ÈŽ©”-ƒtƒŒ•[ƒ€Ží•Ê‚ƃpƒPƒbƒg—D•æ“x‚ÌŠÖŒW6.1.3 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•XŽg—pŽž‚Ì’•ˆÓŽ–•€(1) Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•XŽ©‘•’u”-ƒpƒPƒbƒg‚Ì—D•æ“x•Ï•X‚Å•§Œä‰Â”\‚ȃtƒŒ•[ƒ€‚Í•Cƒvƒ•ƒgƒRƒ‹•§ŒäƒtƒŒ•[ƒ€‚ª‘½•”‘ΕۂɂȂè‚Ü‚·•B‚µ‚½‚ª‚Á‚Ä•C•u–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð‰º‚°‚é•v“®•ì‚ðŽw’è‚·‚é‚Æ•C–{‘•’u”-‚̃vƒ•ƒgƒRƒ‹•§ŒäƒtƒŒ•[ƒ€‚ð‘—•M‚Å‚«‚È‚-‚Ȃ邱‚Æ‚ª‚ ‚è‚Ü‚·•B‚±‚̂悤‚ÈŒ»•Û‚ª”-•¶‚µ‚½•ê•‡‚Í•C•u–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð•ã‚°‚é•v“®•ì‚ðŽÀŽ{‚µ‚Ä‚-‚¾‚³‚¢•B(1)6.2 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“•y’ljÁ•z•u6.2 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“•v‚ð’ljÁ‚µ‚Ü‚·•B•iˆÈ•~‚̕ߔԕ†‚Í•C‚¸‚ê‚Ü‚·•B•j[Ver.10.6.A]•y’ljÁ•z6.2 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃Rƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“6.2.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚Ì•Ý’è–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð•Ý’肵‚Ü‚·•B•m•Ý’è‚̃|ƒCƒ“ƒg•nŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚Í•C–{‘•’u‚ÌŠî–{“I‚È“®•ì•ðŒ•‚ð•Ý’è‚·‚é‚à‚Ì‚Å‚ ‚邽‚ß•C•K‚¸ŽÀ‰^—p‚ðŠJŽn‚·‚é•Å•‰‚Ì’iŠK‚ŕݒ肵‚ĉº‚³‚¢•B•mƒRƒ}ƒ“ƒh‚É‚æ‚é•Ý’è•n1. (config)#spontaneous-packet priority layer-2 6 layer-3 5–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚郌ƒCƒ…2ƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð6•CƒŒƒCƒ…3ƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð5‚ɕݒ肵‚Ü‚·•B(2)6.3 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃IƒyƒŒ•[ƒVƒ‡ƒ“•y’ljÁ•z•u6.3 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃IƒyƒŒ•[ƒVƒ‡ƒ“•v‚ð’ljÁ‚µ‚Ü‚·•B•iˆÈ•~‚̕ߔԕ†‚Í•C ‚¸‚ê‚Ü‚·•B•j[Ver.10.6.A]•y’ljÁ•z6.3 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚̃IƒyƒŒ•[ƒVƒ‡ƒ“show qos queueingƒRƒ}ƒ“ƒh‚É‚æ‚Á‚Ä•CŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚Ì“à—e‚ðŠm”F‚µ‚Ü‚·•B6.3.1 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ÌŠm”FŽ©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ÌŠm”F•û–@‚ðŽŸ‚Ì•}‚ÉŽ¦‚µ‚Ü‚·•B•}6-2 Ž©‘•’u”-ƒpƒPƒbƒg—D•æ“x•Ï•X‚ÌŠm”F> show qos queueing interface 1/1 outboundDate 2008/01/01 12:00:00 UTCNIF1/Port11 (outbound)Max_Queue=8, Rate=100Mbit/s, Schedule_mode=pqQueue1: Qlen=0, Peak_Qlen=0, Limit_Qlen=255, Drop_mode=tail_dropdiscard send_pkt discard_pkt send_byte1 0 0 02 0 0 03 0 0 04 0 0 0total 0 0 0::Queue5: Qlen=0, Peak_Qlen=2, Limit_Qlen=255, Drop_mode=tail_dropdiscard send_pkt discard_pkt s end_byte1 2248 0 452.0k2 0 0 03 0 0 04 0 0 0total 2248 0 452.0kQueue6: Qlen=0, Peak_Qlen=2, Limit_Qlen=255, Drop_mode=tail_dropdiscard send_pkt discard_pkt send_byte1 1528 0 231.0k2 0 0 03 0 0 04 0 0 0total 1528 0 231.0k::Queue8: Qlen=0, Peak_Qlen=0, Limit_Qlen=255, Drop_mode=tail_dropdiscard send_pkt discard_pkt send_byte1 0 0 02 0 0 03 0 0 04 0 0 0total 0 0 0>Queue5•C Queue6‚ÌQlen‚Ì’l‚ªƒJƒEƒ“ƒg‚³‚ê‚Ä‚¢‚邱‚Æ‚ðŠm”F‚µ‚Ü‚·•B‚È‚¨•C‚±‚Ì•\Ž¦—á‚Í•CNIFŽí•Ê‚ÌNK1G-24S‚Ü‚½‚ÍNH1G-24S‚Ì—á‚Å‚·•B3.ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒKƒCƒhVol.3•i Ver. 11.7‘Ήž”Å•j •i IP88S63-S003-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•B11.7‘Ήž”Å•j•i IP88S63-S004-C0•j‚Ì’ù•³“à—e9.‘•’u‚ÌŠÇ—•(1)system c hange-remotelogin-priority•y’ljÁ•z•usystem change-remotelogin-priority•v‚ð’ljÁ‚µ‚Ü‚·•B[Ver.11.9.A]•y’ljÁ•zsystem change-remotelogin-priority’Ê•Mƒ|•[ƒg‚ÅŽó•M‚·‚é–{‘•’uˆ¶‚̃Šƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x‚ð•‚‚-‚µ‚Ü‚·•B•m“ü—ÍŒ`Ž®•n•î•ñ‚Ì•Ý’èsystem change-remotelogin-priority•î•ñ‚Ì•í•œno system change-remotelogin-priority•m“ü—̓‚•[ƒh•n(config)•mƒpƒ‰ƒ••[ƒ^•n‚È‚µ•mƒRƒ}ƒ“ƒh•È—ªŽž‚Ì“®•ì•n’Ê•Mƒ|•[ƒg‚ÅŽó•M‚·‚é–{‘•’uˆ¶‚̃Šƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚Ì—D•æ“x‚ð•Ï•X‚µ‚Ü‚¹‚ñ•B •m’Ê•M‚ւ̉e‹¿•n‚È‚µ•m•Ý’è’l‚Ì”½‰fŒ_‹@•n•Ý’è’l•Ï•XŒã•C‚·‚®‚ɉ^—p‚É”½‰f‚³‚ê‚Ü‚·•B•m’•ˆÓŽ–•€•n1. systemˆÈ•~‚̃pƒ‰ƒ••[ƒ^‚ɑ΂µ‚Ä•C•âŠ®‹@”\•Cƒwƒ‹ƒv‹@”\‚ª“®•ì‚µ‚Ü‚¹‚ñ•B2. systemˆÈ•~‚̃pƒ‰ƒ••[ƒ^‚ɑ΂µ‚Ä•C“ü—̓Gƒ‰•[ˆÊ’uŽw“E‹@”\‚ª•³‚µ‚-“®•ì‚µ‚Ü‚¹‚ñ•B3. –{•Ý’è‚ð—LŒø‚É‚·‚é‚Æ•CƒŠƒ‚•[ƒgƒ•ƒOƒCƒ“ƒvƒ•ƒgƒRƒ‹ƒpƒPƒbƒg‚ÌŽó•M•ó‹µ‚É‚æ‚è•C•§ŒäƒpƒPƒbƒg‚ªŽó•M•o—ˆ‚¸•C’Ê•M‚ª•Ø’f‚³‚ê‚é•ê•‡‚ª‚ ‚è‚Ü‚·•B‚±‚Ì‚½‚ß•C“K—p‚·‚éƒlƒbƒgƒ••[ƒN‚ɑ΂µ‚ÄŽ–‘O‚ÌŒŸ•Ø‚ð•\•ª‚É•s‚¤‚±‚Æ‚ð•…•§‚¢‚½‚µ‚Ü‚·•B•mŠÖ˜AƒRƒ}ƒ“ƒh•n‚È‚µ11.7‘Ήž”Å•j•i IP88S63-S005-C0•j‚Ì’ù•³“à—e4.QoS(1)spontaneous-packet priority•y’ljÁ•z•uspontaneous-packet priority•v‚ð’ljÁ‚µ‚Ü‚·•B[Ver.10.6.A]•y’ljÁ•zspontaneous-packet priority–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð•Ý’肵‚Ü‚·•B–{ƒRƒ}ƒ“ƒh‚Í•C–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ð•Ï•X‚µ‚Ü‚·•B–{ƒRƒ}ƒ“ƒh‚Í•C–{‘•’u‚ÌŠî–{“I‚È“®•ì•ðŒ•‚ð•Ý’è‚·‚é‚à‚Ì‚Å‚ ‚邽‚ß•C•K‚¸ŽÀ‰^—p‚ðŠJŽn‚·‚é•Å•‰‚Ì’iŠK‚ŕݒ肵‚ĉº‚³‚¢•B‰^—p’†‚Ì•Ï•X‚Í‚¨Š©‚ß‚µ‚Ü‚¹‚ñ•B‚±‚̃Rƒ}ƒ“ƒh‚ð•Ý’肵‚È‚¢•C‚Ü‚½‚Í•î•ñ‚ð•í•œ‚µ‚½‚Æ‚«‚Í•CŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D •æ“x‚Í8‚Å“®•ì‚µ‚Ü‚·•B•m“ü—ÍŒ`Ž®•n•î•ñ‚Ì•Ý’è•E•Ï•Xspontaneous-packect priority {layer-2 <Class> | layer-3 <Class> | layer-2 <Class> layer-3<Class>}•î•ñ‚Ì•í•œno spontaneous-packet priority•m“ü—̓‚•[ƒh•n(config)•mƒpƒ‰ƒ••[ƒ^•n{layer-2 <Class> | layer-3 <Class> | layer-2 <Class> layer-3 <Class>}–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚郌ƒCƒ…2•CƒŒƒCƒ…3ƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚ðŽw’肵‚Ü‚·•B1. –{ƒpƒ‰ƒ••[ƒ^•È—ªŽž‚Ì•‰Šú’l•È—ª‚Å‚«‚Ü‚¹‚ñ•B2. ’l‚Ì•Ý’è”͈Í1•`8(10•i•”)‚ðŽw’肵‚Ü‚·•B•mƒRƒ}ƒ“ƒh•È—ªŽž‚Ì“®•ì•n–{‘•’u‚ªŽ©”-“I‚É‘—•M‚·‚éƒtƒŒ•[ƒ€‚̃pƒPƒbƒg—D•æ“x‚Í8‚Å“®•ì‚µ‚Ü‚·•B•m’Ê•M‚ւ̉e‹¿•n‚·‚ׂẴC•[ƒTƒlƒbƒg‰ñ•ü‚ª•Ä•‰Šú‰»‚³‚ê•C VLAN‚ð•\•¬‚µ‚Ä‚¢‚éƒ|•[ƒg‚ňꎞ“I‚Ƀf•[ƒ^‘—Žó•M•s ‰Â‚Æ‚È‚è‚Ü‚·•B—D•æ“x‚ð•Ï•X‚µ‚½•ê•‡‚Í•CƒpƒPƒbƒg‚ª”pŠü‚³‚ê‚邱‚Æ‚ª‚ ‚è‚Ü‚·•BƒpƒPƒbƒg”pŠü‚ª”-•¶‚µ‚½•ê•‡‚Í•C ƒfƒtƒHƒ‹ƒg‚Ì—D•æ“x‚É‚µ‚ĉº‚³‚¢•B•m•Ý’è’l‚Ì”½‰fŒ_‹@•n•Ý’è’l‚ð•Ï•X‚µ‚½•ê•‡‚Í•CƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“‚ð•Û‘¶‚µ‚½‚ ‚Æ‚Å–{‘•’u‚ð•Ä‹N“®‚µ‚ĉº‚³‚¢•B•Ä‹N“®‚µ‚È‚¢•ê•‡‚Í•Ý’è’l‚ª‰^—p‚É”½‰f‚³‚ê‚Ü‚¹‚ñ•B•m’•ˆÓŽ–•€•n1. –{•Ý’è‚ð—LŒø‚É‚·‚邽‚ß‚É‚Í•CƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“‚ð•Û‘¶‚µ‚½‚ ‚Æ•C‘•’u‚Ì•Ä‹N“®‚ª•K—v‚Å‚·•B2. –{ƒRƒ}ƒ“ƒh‚Å‚Í•C•âŠ®‹@”\•Cƒwƒ‹ƒv‹@”\‚ª“®•ì‚µ‚Ü‚¹‚ñ•B3. –{ƒRƒ}ƒ“ƒh‚Å‚Í•C“ü—̓Gƒ‰•[ˆÊ’uŽw“E‹@”\‚ª•³‚µ‚-“®•ì‚µ‚Ü‚¹‚ñ•B6.ƒRƒ“ƒtƒBƒOƒŒ•[ƒVƒ‡ƒ“ƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.3•i Ver.11.7‘Ήž”Å•j•i IP88S63-S005-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•BVol.1•i Ver. 11.7‘Ήž”Å•j 7.‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒX•i IP88S63-S006-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•B8.‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.2•i Ver. 11.7‘Ήž”Å•j •i IP88S63-S007-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•B9.‰^—pƒRƒ}ƒ“ƒhƒŒƒtƒ@ƒŒƒ“ƒXVol.3•i Ver. 11.7‘Ήž”Å•j •i IP88S63-S007-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•BVer. 11.7‘Ήž”Å•j 10.ƒ•ƒbƒZ•[ƒW¥ƒ•ƒOƒŒƒtƒ@ƒŒƒ“ƒX•i•i IP88S63-S008-C0•j‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•B11.MIBƒŒƒtƒ@ƒŒƒ“ƒX•i Ver. 11.7‘Ήž”Å•j•i IP88S63-S009-C0•j ‚Ì’ù•³“à—e’ù•³‚·‚é“à—e‚Í‚ ‚è‚Ü‚¹‚ñ•B。

附录A 命令总索引本命令索引包括手册中所出现的全部命令，按字母序排列，左边为命令行，右边为该命令所在的功能模块和页码。

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Aabr-summary (OSPF area view) IP路由表显示命令1-1abr-summary (OSPFv3 area view) 静态路由命令1-1 access-limit GRE命令1-1 accounting default GRE命令1-2 accounting login GRE命令1-3 accounting optional GRE命令1-4 accounting ppp GRE命令1-5acl 防火墙命令1-4acl (User interface view) RMON命令1-1acl ipv6 防火墙命令1-19acl ipv6 name 防火墙命令1-20acl name 防火墙命令1-5 activation-key RMON命令1-2add hop IPv6 OSPFv3命令1-1 aggregate 邻接表命令1-1 aging-time L2TP命令1-10ah authentication-algorithm ALG命令1-1alg QoS命令1-1allow l2tp MPLS TE命令1-1 application aging-time 帧中继QoS命令1-1apply access-vpn vpn-instance IPv6 静态路由命令1-1apply as-path IS-IS命令1-1apply comm-list delete IS-IS命令1-2apply community IS-IS命令1-2apply cost IS-IS命令1-4apply cost-type IS-IS命令1-4 apply default output-interface IP性能命令1-1 apply extcommunity IS-IS命令1-5 apply ip-address default next-hop IP性能命令1-2 apply ip-address next-hop IP性能命令1-2 apply ip-address next-hop IS-IS命令1-26 apply ip-precedence IP性能命令1-3 apply ipv6 next-hop IS-IS命令1-32 apply isis IS-IS命令1-6 apply local-preference IS-IS命令1-7 apply mpls-label IS-IS命令1-8 apply origin IS-IS命令1-8 apply output-interface IP性能命令1-4 apply preference IS-IS命令1-9 apply preferred-value IS-IS命令1-10 apply tag IS-IS命令1-11 area (OSPF view) IP路由表显示命令1-2 area (OSPFv3 view) 静态路由命令1-2 area-authentication-mode 流分类命令1-1 arp check enable 逻辑接口命令1-1 arp max-learning-num 逻辑接口命令1-1 arp source-suppression enable 逻辑接口命令1-11 arp source-suppression limit 逻辑接口命令1-12 arp static 逻辑接口命令1-2 arp timer aging 逻辑接口命令1-3 asbr-summary IP路由表显示命令1-3 ascii HA命令2-5 aspf-policy L2TP命令1-11 attribute QoS命令1-1 authentication default GRE命令1-6 authentication login GRE命令1-7 authentication ppp GRE命令1-8 authentication-algorithm ALG命令2-1 authentication-method ALG命令2-1authentication-mode IP路由表显示命令1-4 authentication-mode RMON命令1-5 authorization command GRE命令1-9 authorization default GRE命令1-10 authorization login GRE命令1-11 authorization ppp GRE命令1-12 auto-cost enable 流分类命令1-2 auto-execute command RMON命令1-3 Bbackup startup-configuration HA命令1-15 balance (BGP/BGP-VPN instance view) 邻接表命令1-2 balance (IPv6 address family view) RIP命令1-1 bandwidth-reference (IS-IS view) 流分类命令1-3 bandwidth-reference (OSPF view) IP路由表显示命令1-5 baudrate WAN接口命令1-1 bestroute as-path-neglect (BGP/BGP-VPN instance view) 邻接表命令1-3 bestroute as-path-neglect (IPv6 address family view) RIP命令1-2 bestroute compare-med (BGP/BGP-VPN instance view) 邻接表命令1-4 bestroute compare-med (IPv6 address family view) RIP命令1-2 bestroute med-confederation (BGP/BGP-VPN instance view) 邻接表命令1-5 bestroute med-confederation (IPv6 address family view) RIP命令1-3 bgp 邻接表命令1-6 bims-server ARP命令1-1 binary HA命令2-6 bootfile-name ARP命令1-2 boot-loader NAT命令1-1 bye PKI命令1-35 bye HA命令2-6 Cca identifier QoS命令1-2 cable WAN接口命令1-12 car MPLS L2VPN命令2-7cbs MPLS L3VPN命令1-1 ccc interface in-label out-label IPv6 RIPng命令1-1 ccc interface out-interface IPv6 RIPng命令1-2 cd PKI命令1-35 cd HA命令1-1 cd HA命令2-7 cdup PKI命令1-36 cdup HA命令2-8 ce IPv6 RIPng命令1-3 certificate domain ALG命令2-2 certificate request entity QoS命令1-3 certificate request from QoS命令1-3 certificate request mode QoS命令1-4 certificate request polling QoS命令1-5 certificate request url QoS命令1-6 channel-set (CE1 Interface view) WAN接口命令1-13 checkzero BGP命令1-1 checkzero IPv6 BGP命令1-1 cir MPLS L3VPN命令1-2 cir allow MPLS L3VPN命令1-3 circuit-cost 流分类命令1-3 classifier behavior MPLS L2VPN命令2-16 clock CPOS接口命令1-1 clock POS接口命令1-1 clock (CE1 Interface) WAN接口命令1-14 clock (Serial Interface view) WAN接口命令1-2 clock datetime NetStream命令1-1 clock summer-time one-off NetStream命令1-2 clock summer-time repeating NetStream命令1-3 clock timezone NetStream命令1-4 close HA命令2-8 code (CE1 Interface) WAN接口命令1-15 code nrzi WAN接口命令1-3 combo enable 以太网接口命令1-1command-privilege NetStream命令1-5 common-name QoS命令1-7 compare-different-as-med (BGP/BGP-VPN instance view) 邻接表命令1-7 compare-different-as-med (IPv6 address family view) RIP命令1-4 confederation id 邻接表命令1-8 confederation nonstandard 邻接表命令1-9 confederation peer-as 邻接表命令1-9 configure-user count NetStream命令1-6 congestion-threshold MPLS L3VPN命令1-4 connection IPv6 RIPng命令1-4 controller cpos CPOS接口命令1-2 controller e1 WAN接口命令1-15 copy HA命令1-2 cost-style 流分类命令1-4 country QoS命令1-7 crc CPOS接口命令1-2 crc POS接口命令1-2 crc WAN接口命令1-4 crc WAN接口命令1-16 crl check QoS命令1-8 crl update-period QoS命令1-9 crl url QoS命令1-10 cryptoengine enable ALG命令1-2 cut connection GRE命令1-13 Ddampening (BGP/BGP-VPN instance view) 邻接表命令1-10 dampening (IPv6 address family view) RIP命令1-5 databits RMON命令1-6 data-flow-format (HWTACACS scheme view) GRE命令1-60 data-flow-format (RADIUS scheme view) GRE命令1-31 debugging HA命令2-9 debugging 设备管理命令1-7 default IP路由表显示命令1-5default cost 静态路由命令1-2 default cost (RIP view) BGP命令1-1 default cost (RIPng view) IPv6 BGP命令1-1 default ipv4-unicast 邻接表命令1-12 default local-preference (BGP/BGP-VPN instance view) 邻接表命令1-12 default local-preference (BGP-VPNv4 subaddress Family view) IPv6 静态路由命令1-2 default local-preference (IPv6 address family view) RIP命令1-6 default med (BGP/BGP-VPN instance view) 邻接表命令1-13 default med (BGP-VPNv4 subaddress Family view) IPv6 静态路由命令1-2 default med (IPv6 address family view) RIP命令1-6 default-cost (OSPF area view) IP路由表显示命令1-6 default-cost (OSPFv3 area view) 静态路由命令1-3 default-route imported (BGP/BGP-VPN instance view) 邻接表命令1-14 default-route imported (IPv6 address family view) RIP命令1-7 default-route originate BGP命令1-2 default-route-advertise (IS-IS view) 流分类命令1-5 default-route-advertise (OSPF view) IP路由表显示命令1-7 delete PKI命令1-37 delete HA命令1-2 delete HA命令2-10 delete hop IPv6 OSPFv3命令1-2 delete ipv6 static-routes all IPv6 IS-IS命令1-1 delete static-routes all OSPF命令1-1 description 以太网接口命令1-2 description (for IPv4) 防火墙命令1-6 description (for IPv6) 防火墙命令1-21 description (OSPF/OSPF area view) IP路由表显示命令1-8 description (VPN Instance view) IPv6 静态路由命令1-3 destination MPLS基本配置命令1-1 detect WAN接口命令1-5 detect L2TP命令1-12 detect-ais WAN接口命令1-17 dh ALG命令2-3 dhcp enable ARP命令1-2dhcp enable ARP命令2-1 dhcp relay address-check ARP命令2-2 dhcp relay information enable ARP命令2-2 dhcp relay information format ARP命令2-3 dhcp relay information strategy ARP命令2-4 dhcp relay release ip ARP命令2-5 dhcp relay security static ARP命令2-6 dhcp relay security tracker ARP命令2-7 dhcp relay server-detect ARP命令2-7 dhcp relay server-group ARP命令2-8 dhcp relay server-select ARP命令2-9 dhcp select relay ARP命令2-10 dhcp select server global-pool ARP命令1-3 dhcp server detect ARP命令1-4 dhcp server forbidden-ip ARP命令1-5 dhcp server ip-pool ARP命令1-6 dhcp server ping packets ARP命令1-6 dhcp server ping timeout ARP命令1-7 dhcp server relay information enable ARP命令1-8 dir PKI命令1-37 dir HA命令1-3 dir HA命令2-11 disconnect HA命令2-12 display acl 防火墙命令1-7 display acl ipv6 防火墙命令1-22 display adjacent-table IPv6基础命令1-1 display arp 逻辑接口命令1-4 display arp ip-address逻辑接口命令1-5 display arp source-suppression 逻辑接口命令1-12 display arp timer aging 逻辑接口命令1-6 display arp vpn-instance 逻辑接口命令1-7 display aspf all L2TP命令1-14 display aspf interface L2TP命令1-15 display aspf policy L2TP命令1-16display aspf session L2TP命令1-17 display bgp group 邻接表命令1-15 display bgp ipv6 group RIP命令1-8 display bgp ipv6 network RIP命令1-10 display bgp ipv6 paths RIP命令1-11 display bgp ipv6 peer RIP命令1-12 display bgp ipv6 routing-table RIP命令1-13 display bgp ipv6 routing-table as-path-acl RIP命令1-15 display bgp ipv6 routing-table community RIP命令1-16 display bgp ipv6 routing-table community-list RIP命令1-17 display bgp ipv6 routing-table dampened RIP命令1-18 display bgp ipv6 routing-table dampening parameter RIP命令1-19 display bgp ipv6 routing-table different-origin-as RIP命令1-20 display bgp ipv6 routing-table flap-info RIP命令1-21 display bgp ipv6 routing-table label RIP命令1-22 display bgp ipv6 routing-table peer RIP命令1-23 display bgp ipv6 routing-table regular-expression RIP命令1-24 display bgp ipv6 routing-table statistic RIP命令1-25 display bgp l2vpn IPv6 RIPng命令1-5 display bgp network 邻接表命令1-17 display bgp paths 邻接表命令1-18 display bgp peer 邻接表命令1-19 display bgp routing-table 邻接表命令1-21 display bgp routing-table as-path-acl 邻接表命令1-22 display bgp routing-table cidr 邻接表命令1-23 display bgp routing-table community 邻接表命令1-24 display bgp routing-table community-list 邻接表命令1-25 display bgp routing-table dampened 邻接表命令1-26 display bgp routing-table dampening parameter 邻接表命令1-27 display bgp routing-table different-origin-as 邻接表命令1-28 display bgp routing-table flap-info 邻接表命令1-29 display bgp routing-table peer 邻接表命令1-30 display bgp routing-table regular-expression 邻接表命令1-31 display bgp routing-table statistic 邻接表命令1-32display bgp vpnv4 all routing-table IPv6 静态路由命令1-4 display bgp vpnv4 group IPv6 静态路由命令1-6 display bgp vpnv4 network IPv6 静态路由命令1-8 display bgp vpnv4 paths IPv6 静态路由命令1-9 display bgp vpnv4 peer IPv6 静态路由命令1-10 display bgp vpnv4 route-distinguisher routing-table IPv6 静态路由命令1-16 display bgp vpnv4 routing-table label IPv6 静态路由命令1-19 display bgp vpnv4 vpn-instance routing-table IPv6 静态路由命令1-21 display boot-loader NAT命令1-2 display brief interface 以太网接口命令1-2 display ccc IPv6 RIPng命令1-11 display channel NTP命令1-1 display clipboard NetStream命令1-7 display clock NetStream命令1-8 display configure-user NetStream命令1-9 display connection GRE命令1-14 display controller cpos CPOS接口命令1-3 display controller cpos e1 CPOS接口命令1-8 display controller cpos t1 CPOS接口命令1-9 display controller e1 WAN接口命令1-17 display cpu-usage NAT命令1-3 display current-configuration NetStream命令1-9 display debugging 设备管理命令1-8 display debugging ospfv3 静态路由命令1-4 display device NAT命令1-5 display device manuinfo NAT命令1-7 display dhcp client ARP命令3-1 display dhcp relay ARP命令2-10 display dhcp relay security ARP命令2-11 display dhcp relay security statistics ARP命令2-12 display dhcp relay security tracker ARP命令2-13 display dhcp relay server-group ARP命令2-14 display dhcp relay statistics ARP命令2-14 display dhcp server conflict ARP命令1-8display dhcp server expired ARP命令1-9 display dhcp server forbidden-ip ARP命令1-11 display dhcp server free-ip ARP命令1-10 display dhcp server ip-in-use ARP命令1-11 display dhcp server statistics ARP命令1-12 display dhcp server tree ARP命令1-14 display diagnostic-information NetStream命令1-11 display dns domain DHCP命令1-1 display dns dynamic-host DHCP命令1-2 display dns ipv6 dynamic-host IP单播策略路由命令1-1 display dns ipv6 server IP单播策略路由命令1-2 display dns server DHCP命令1-3 display domain GRE命令1-15 display environment NAT命令1-8 display explicit-path IPv6 OSPFv3命令1-2 display fan NAT命令1-10 display fib IP地址命令1-1 display fib ip-address IP地址命令1-3 display fib statistics IP地址命令1-4 display fib statistics vpn-instance IPv6 静态路由命令1-23 display fib vpn-instance IPv6 静态路由命令1-24 display firewall ethernet-frame-filter L2TP命令1-1 display firewall-statistics L2TP命令1-2 display forwarding policy IPv6基础命令1-1 display fr class-map MPLS L3VPN命令1-4 display fr dlci-switch 帧中继命令1-1 display fr fragment-info MPLS L3VPN命令1-6 display fr inarp-info 帧中继命令1-2 display fr interface 帧中继命令1-3 display fr lmi-info 帧中继命令1-3 display fr map-info 帧中继命令1-5 display fr pvc-info 帧中继命令1-6 display fr statistics 帧中继命令1-8 display fr switch-table MPLS L3VPN命令1-8display ftp client configuration HA命令2-13 display ftp-server HA命令2-1 display ftp-user HA命令2-2 display history-command NetStream命令1-12 display history-command RMON命令1-7 display hotkey NetStream命令1-13 display hwtacacs GRE命令1-61 display icmp statistics IP地址命令1-5 display ike peer ALG命令2-4 display ike proposal ALG命令2-5 display ike sa ALG命令2-6 display info-center NTP命令1-2 display interface 以太网接口命令1-4 display interface loopback PPP命令1-1 display interface mfr 帧中继命令1-9 display interface mfr PPP命令1-2 display interface mp-group HDLC命令1-1 display interface mp-group PPP命令1-4 display interface null PPP命令1-5 display interface pos POS接口命令1-2 display interface tunnel MPLS基本配置命令1-2 display interface virtual-template HDLC命令1-2 display interface virtual-template PPP命令1-6 display ip as-path IS-IS命令1-12 display ip community-list IS-IS命令1-12 display ip extcommunity-list IS-IS命令1-13 display ip host DHCP命令1-4 display ip interface 域名解析命令1-1 display ip interface brief 域名解析命令1-3 display ip interface pos POS接口命令1-4 display ip ip-prefix IS-IS命令1-27 display ip ipv6-prefix IS-IS命令1-33 display ip netstream cache ACL命令1-1 display ip netstream export ACL命令1-3display ip policy-based-route IP性能命令1-5 display ip policy-based-route setup IP性能命令1-6 display ip policy-based-route statistics IP性能命令1-7 display ip relay-route IPv6基础命令1-14 display ip relay-tunnel IPv6基础命令1-15 display ip routing-table IPv6基础命令1-1 display ip routing-table acl IPv6基础命令1-4 display ip routing-table ip-address IPv6基础命令1-8 display ip routing-table ip-prefix IPv6基础命令1-10 display ip routing-table protocol IPv6基础命令1-12 display ip routing-table statistics IPv6基础命令1-13 display ip socket IP地址命令1-6 display ip statistics IP地址命令1-10 display ip vpn-instance IPv6 静态路由命令1-25 display ipsec policy ALG命令1-2 display ipsec policy-template ALG命令1-5 display ipsec proposal ALG命令1-6 display ipsec sa ALG命令1-7 display ipsec statistics ALG命令1-10 display ipsec tunnel ALG命令1-12 display ipv6 fib IP单播策略路由命令1-3 display ipv6 fibcache IP单播策略路由命令1-4 display ipv6 host IP单播策略路由命令1-5 display ipv6 interface IP单播策略路由命令1-6 display ipv6 interface pos POS接口命令1-5 display ipv6 neighbors IP单播策略路由命令1-8 display ipv6 neighbors count IP单播策略路由命令1-10 display ipv6 pathmtu IP单播策略路由命令1-10 display ipv6 relay-route IPv6基础命令1-25 display ipv6 relay-tunnel IPv6基础命令1-26 display ipv6 routing-table IPv6基础命令1-16 display ipv6 routing-table acl IPv6基础命令1-17 display ipv6 routing-table ipv6-address IPv6基础命令1-18 display ipv6 routing-table ipv6-address1ipv6-address2IPv6基础命令1-19display ipv6 routing-table ipv6-prefix IPv6基础命令1-20 display ipv6 routing-table protocol IPv6基础命令1-21 display ipv6 routing-table statistics IPv6基础命令1-22 display ipv6 routing-table verbose IPv6基础命令1-23 display ipv6 socket IP单播策略路由命令1-11 display ipv6 statistics IP单播策略路由命令1-13 display isis brief 流分类命令1-6 display isis debug-switches 流分类命令1-8 display isis graceful-restart status 流分类命令1-9 display isis interface 流分类命令1-10 display isis license 流分类命令1-12 display isis lsdb 流分类命令1-14 display isis mesh-group 流分类命令1-17 display isis name-table 流分类命令1-18 display isis peer 流分类命令1-19 display isis route 流分类命令1-21 display isis route ipv6 路由策略命令1-1 display isis spf-log 流分类命令1-24 display isis statistics 流分类命令1-26 display isis traffic-eng advertisements IPv6 OSPFv3命令1-3 display isis traffic-eng link IPv6 OSPFv3命令1-7 display isis traffic-eng network IPv6 OSPFv3命令1-8 display isis traffic-eng statistics IPv6 OSPFv3命令1-10 display isis traffic-eng sub-tlvs IPv6 OSPFv3命令1-11 display l2tp session MPLS TE命令1-2 display l2tp tunnel MPLS TE命令1-3 display l2vpn ccc-interface vc-type IPv6 RIPng命令1-12 display local-user GRE命令1-17 display logbuffer NTP命令1-4 display logbuffer summary NTP命令1-7 display logfile buffer NTP命令1-8 display logfile summary NTP命令1-9 display memory NAT命令1-10 display mfr 帧中继命令1-10display mfr PPP命令1-7 display mpls ilm IPv6 IS-IS命令1-1 display mpls interface IPv6 IS-IS命令1-2 display mpls l2vc IPv6 RIPng命令1-14 display mpls l2vpn IPv6 RIPng命令1-16 display mpls l2vpn connection IPv6 RIPng命令1-19 display mpls l2vpn forwarding-info IPv6 RIPng命令1-22 display mpls label IPv6 IS-IS命令1-4 display mpls ldp IPv6 IS-IS命令1-5 display mpls ldp cr-lsp IPv6 IS-IS命令1-7 display mpls ldp interface IPv6 IS-IS命令1-8 display mpls ldp lsp IPv6 IS-IS命令1-10 display mpls ldp peer IPv6 IS-IS命令1-12 display mpls ldp remote-peer IPv6 IS-IS命令1-14 display mpls ldp session IPv6 IS-IS命令1-16 display mpls ldp vpn-instance IPv6 IS-IS命令1-19 display mpls lsp IPv6 IS-IS命令1-20 display mpls lsp statistics IPv6 IS-IS命令1-23 display mpls nhlfe IPv6 IS-IS命令1-25 display mpls route-state IPv6 IS-IS命令1-26 display mpls rsvp-te IPv6 OSPFv3命令1-12 display mpls rsvp-te established IPv6 OSPFv3命令1-14 display mpls rsvp-te peer IPv6 OSPFv3命令1-15 display mpls rsvp-te psb-content IPv6 OSPFv3命令1-17 display mpls rsvp-te request IPv6 OSPFv3命令1-19 display mpls rsvp-te reservation IPv6 OSPFv3命令1-21 display mpls rsvp-te rsb-content IPv6 OSPFv3命令1-22 display mpls rsvp-te sender IPv6 OSPFv3命令1-25 display mpls rsvp-te statistics IPv6 OSPFv3命令1-26 display mpls static-cr-lsp IPv6 OSPFv3命令1-29 display mpls static-l2vc IPv6 RIPng命令1-23 display mpls static-lsp IPv6 IS-IS命令1-27 display mpls statistics interface IPv6 IS-IS命令1-29 display mpls statistics lsp IPv6 IS-IS命令1-31display mpls te cspf tedb IPv6 OSPFv3命令1-31 display mpls te link-administration admission-control IPv6 OSPFv3命令1-37 display mpls te link-administration bandwidth-allocation IPv6 OSPFv3命令1-38 display mpls te tunnel IPv6 OSPFv3命令1-40 display mpls te tunnel path IPv6 OSPFv3命令1-42 display mpls te tunnel statistics IPv6 OSPFv3命令1-43 display mpls te tunnel-interface IPv6 OSPFv3命令1-44 display nat address-group AAA RADIUS1-1HWTACACS命令1-2 display nat all AAA RADIUSHWTACACS命令display nat outbound AAA RADIUS1-3HWTACACS命令1-4 display nat server AAA RADIUSHWTACACS命令1-5 display nat statistics AAA RADIUSHWTACACS命令display ntp-service sessions IPSec命令1-1 display ntp-service status IPSec命令1-2 display ntp-service trace IPSec命令1-4 display ospf abr-asbr IP路由表显示命令1-9 display ospf asbr-summary IP路由表显示命令1-10 display ospf brief IP路由表显示命令1-12 display ospf cumulative IP路由表显示命令1-14 display ospf error IP路由表显示命令1-16 display ospf interface IP路由表显示命令1-18 display ospf lsdb IP路由表显示命令1-20 display ospf mpls-te IPv6 OSPFv3命令1-47 display ospf nexthop IP路由表显示命令1-23 display ospf peer IP路由表显示命令1-24 display ospf peer statistics IP路由表显示命令1-26 display ospf request-queue IP路由表显示命令1-28 display ospf retrans-queue IP路由表显示命令1-29 display ospf routing IP路由表显示命令1-30 display ospf sham-link IPv6 静态路由命令1-26 display ospf traffic-adjustment IPv6 OSPFv3命令1-50display ospf vlink IP路由表显示命令1-32 display ospfv3 静态路由命令1-5 display ospfv3 interface 静态路由命令1-6 display ospfv3 lsdb 静态路由命令1-8 display ospfv3 lsdb statistic 静态路由命令1-10 display ospfv3 next-hop 静态路由命令1-11 display ospfv3 peer 静态路由命令1-12 display ospfv3 peer statistic 静态路由命令1-14 display ospfv3 request-list 静态路由命令1-15 display ospfv3 retrans-list 静态路由命令1-17 display ospfv3 routing 静态路由命令1-19 display ospfv3 statistic 静态路由命令1-21 display ospfv3 topology 静态路由命令1-22 display ospfv3 vlink 静态路由命令1-23 display pki certificate QoS命令1-10 display pki certificate access-control-policy QoS命令1-12 display pki certificate attribute-group QoS命令1-13 display pki crl domain QoS命令1-14 display policy-based-route IP性能命令1-8 display port-mapping L2TP命令1-18 display power NAT命令1-11 display ppp mp HDLC命令1-4 display pppoe-server session HDLC命令2-1 display proxy-arp 逻辑接口命令2-1 display public-key local PKI命令1-1 display public-key peer PKI命令1-3 display qos car interface MPLS L2VPN命令1-1 display qos carl MPLS L2VPN命令1-2 display qos cbq interface MPLS L2VPN命令3-15 display qos cq interface MPLS L2VPN命令3-7 display qos cql MPLS L2VPN命令3-8 display qos gts interface MPLS L2VPN命令1-6 display qos lr interface MPLS L2VPN命令1-8 display qos policy MPLS L2VPN命令2-17display qos policy interface MPLS L2VPN命令2-18 display qos policy interface MPLS L3VPN命令1-9 display qos pq interface MPLS L2VPN命令3-1 display qos pql MPLS L2VPN命令3-2 display qos rtpq interface MPLS L2VPN命令3-23 display qos wfq interface MPLS L2VPN命令3-13 display qos wred interface MPLS L2VPN命令4-1 display radius scheme GRE命令1-32 display radius statistics GRE命令1-34 display reboot-type NAT命令1-12 display rip BGP命令1-3 display rip database BGP命令1-5 display rip interface BGP命令1-6 display rip route BGP命令1-7 display ripng IPv6 BGP命令1-2 display ripng database IPv6 BGP命令1-3 display ripng interface IPv6 BGP命令1-5 display ripng route IPv6 BGP命令1-6 display rmon alarm SSH2.0命令1-1 display rmon event SSH2.0命令1-2 display rmon eventlog SSH2.0命令1-3 display rmon history SSH2.0命令1-4 display rmon prialarm SSH2.0命令1-6 display rmon statistics SSH2.0命令1-7 display route-policy IS-IS命令1-14 display saved-configuration HA命令1-16 display schedule reboot NAT命令1-12 display session relation-table 帧中继QoS命令1-2 display session statistics 帧中继QoS命令1-3 display session table 帧中继QoS命令1-5 display sftp client source PKI命令1-4 display snmp-agent community VRRP命令1-1 display snmp-agent group VRRP命令1-2 display snmp-agent local-engineid VRRP命令1-3display snmp-agent mib-view VRRP命令1-4 display snmp-agent statistics VRRP命令1-5 display snmp-agent sys-info VRRP命令1-7 display snmp-agent trap-list VRRP命令1-8 display snmp-agent usm-user VRRP命令1-9 display ssh client source PKI命令1-5 display ssh server PKI命令1-5 display ssh server-info PKI命令1-7 display ssh user-information PKI命令1-8 display startup HA命令1-18 display stop-accounting-buffer GRE命令1-37 display stop-accounting-buffer GRE命令1-63 display switchover state 会话管理命令1-1 display tcp ipv6 statistics IP单播策略路由命令1-16 display tcp ipv6 status IP单播策略路由命令1-19 display tcp statistics IP地址命令1-11 display tcp status IP地址命令1-14 display tftp client configuration HA命令3-1 display this NetStream命令1-14 display time-range 防火墙命令1-1 display traffic behavior MPLS L2VPN命令2-9 display traffic classifier MPLS L2VPN命令2-1 display trapbuffer NTP命令1-9 display tunnel-info IPv6 OSPFv3命令1-51 display tunnel-policy IPv6 静态路由命令1-28 display udp ipv6 statistics IP单播策略路由命令1-19 display udp statistics IP地址命令1-15 display user-interface RMON命令1-7 display users RMON命令1-10 display version NetStream命令1-15 display virtual-access HDLC命令1-3 display virtual-access PPP命令1-8 display vrrp Rsh命令1-1 display vrrp statistics Rsh命令1-3dns domain DHCP命令1-5 dns resolve DHCP命令1-6 dns server DHCP命令1-6 dns server ipv6 IP单播策略路由命令1-20 dns-list ARP命令1-15 domain GRE命令1-20 domain default GRE命令1-20 domain-authentication-mode 流分类命令1-28 domain-id IPv6 静态路由命令1-29 domain-name ARP命令1-16 duplex 以太网接口命令1-6 du-readvertise IPv6 IS-IS命令1-33 du-readvertise timer IPv6 IS-IS命令1-34 Ee1 channel-set CPOS接口命令1-11 e1 set clock CPOS接口命令1-12 e1 set flag CPOS接口命令1-13 e1 set frame-format CPOS接口命令1-14 e1 set loopback CPOS接口命令1-15 e1 shutdown CPOS接口命令1-16 e1 unframed CPOS接口命令1-16 ebgp-interface-sensitive 邻接表命令1-32 ebs MPLS L3VPN命令1-11 enable link-local-signaling IP路由表显示命令1-33 enable log IP路由表显示命令1-34 enable out-of-band-resynchronization IP路由表显示命令1-34 enable snmp trap updown VRRP命令1-10 enable traffic-adjustment IPv6 OSPFv3命令1-52 enable traffic-adjustment advertise IPv6 OSPFv3命令1-53 encapsulation-mode ALG命令1-13 encryption-algorithm ALG命令2-9 escape-key RMON命令1-11 esp authentication-algorithm ALG命令1-14esp encryption-algorithm ALG命令1-15 exchange-mode ALG命令2-10 execute HA命令1-4 exit PKI命令1-38 expired ARP命令1-17 explicit-path IPv6 OSPFv3命令1-54 export route-policy IPv6 静态路由命令1-30 ext-community-type IPv6 静态路由命令1-30 Ffifo queue-length MPLS L3VPN命令1-12 file prompt HA命令1-5 filter IP路由表显示命令1-35 filter MPLS L2VPN命令2-10 filter-policy export IPv6 BGP命令1-8 filter-policy export (BGP/BGP-VPN instance view) 邻接表命令1-33 filter-policy export (BGP-VPNv4 subaddress Family view) IPv6 静态路由命令1-31 filter-policy export (IPv6 address family view) RIP命令1-26 filter-policy export (IS-IS view) 流分类命令1-29 filter-policy export (OSPF view) IP路由表显示命令1-36 filter-policy export (OSPFv3 view) 静态路由命令1-24 filter-policy export （RIP view） BGP命令1-10 filter-policy import (BGP/BGP-VPN instance view) 邻接表命令1-34 filter-policy import (BGP-VPNv4 subaddress Family view) IPv6 静态路由命令1-32 filter-policy import (IPv6 address family view) RIP命令1-27 filter-policy import (IS-IS view) 流分类命令1-31 filter-policy import (OSPF view) IP路由表显示命令1-37 filter-policy import (OSPFv3 view) 静态路由命令1-25 filter-policy import （RIP view） BGP命令1-11 filter-policy import (RIPng view) IPv6 BGP命令1-9 firewall aspf L2TP命令1-19 firewall default L2TP命令1-3 firewall enable L2TP命令1-4 firewall ethernet-frame-filter L2TP命令1-5firewall fragments-inspect L2TP命令1-5 firewall fragments-inspect [ high | low ] L2TP命令1-6 firewall packet-filter L2TP命令1-7 firewall packet-filter ipv6 L2TP命令1-8 fixdisk HA命令1-6 flag CPOS接口命令1-17 flag POS接口命令1-6 flash-flood 流分类命令1-32 flow-control 以太网接口命令1-7 flow-control RMON命令1-12 format HA命令1-6 forwarding policy IPv6基础命令1-1 fqdn QoS命令1-15 fr class MPLS L3VPN命令1-12 fr congestion-threshold MPLS L3VPN命令1-13 fr de del MPLS L3VPN命令1-14 fr del inbound-interface MPLS L3VPN命令1-15 fr del protocol MPLS L3VPN命令1-16 fr dlci 帧中继命令1-13 fr inarp 帧中继命令1-14 fr interface-type 帧中继命令1-15 fr lmi n391dte 帧中继命令1-16 fr lmi n392dce 帧中继命令1-17 fr lmi n392dte 帧中继命令1-18 fr lmi n393dce 帧中继命令1-19 fr lmi n393dte 帧中继命令1-20 fr lmi t392dce 帧中继命令1-21 fr lmi type 帧中继命令1-22 fr map ip 帧中继命令1-22 fr switch 帧中继命令1-23 fr switching 帧中继命令1-24 fr traffic-policing MPLS L3VPN命令1-17 fr traffic-shaping MPLS L3VPN命令1-18 fragment MPLS L3VPN命令1-18frame-format CPOS接口命令1-18 frame-format POS接口命令1-8 frame-format (CE1 Interface) WAN接口命令1-19 fr-class MPLS L3VPN命令1-19 free ftp user HA命令2-2 free user-interface RMON命令1-14 ftp HA命令2-13 ftp client source HA命令2-15 ftp ipv6 HA命令2-16 ftp server enable HA命令2-3 ftp timeout HA命令2-4 ftp update HA命令2-4 Ggateway-list ARP命令1-18 get PKI命令1-39 get HA命令2-17 graceful-restart (BGP view) 邻接表命令1-35 graceful-restart (IS-IS view) 流分类命令1-32 graceful-restart (MPLS-LDP view) IPv6 IS-IS命令1-35 graceful-restart (OSPF view) IP路由表显示命令1-38 graceful-restart help IP路由表显示命令1-39 graceful-restart interval (IS-IS view) 流分类命令1-33 graceful-restart interval (OSPF view) IP路由表显示命令1-40 graceful-restart mpls ldp IPv6 IS-IS命令1-36 graceful-restart suppress-sa 流分类命令1-34 graceful-restart timer neighbor-liveness IPv6 IS-IS命令1-36 graceful-restart timer reconnect IPv6 IS-IS命令1-37 graceful-restart timer recovery IPv6 IS-IS命令1-38 graceful-restart timer restart 邻接表命令1-36 graceful-restart timer wait-for-rib 邻接表命令1-37 gratuitous-arp-learning enable 逻辑接口命令1-10 gratuitous-arp-sending enable 逻辑接口命令1-10 gre checksum MPLS基本配置命令1-4gre key MPLS基本配置命令1-5 group (BGP/BGP-VPN instance view) 邻接表命令1-37 group (IPv6 address family view) RIP命令1-27 gts MPLS L2VPN命令2-11 Hha slave-ignore-version-check 会话管理命令1-2 header NetStream命令1-16 help PKI命令1-39 history-command max-size RMON命令1-14 hops-count IPv6 IS-IS命令1-39 host-advertise IP路由表显示命令1-40 host-route BGP命令1-12 hotkey NetStream命令1-18 hwtacacs nas-ip GRE命令1-64 hwtacacs scheme GRE命令1-65 Iidlecode (CE1 Interface) WAN接口命令1-20 idle-cut GRE命令1-21 idle-mark WAN接口命令1-5 idle-timeout RMON命令1-15 id-type ALG命令2-10 if-match MPLS L2VPN命令2-2 if-match acl IP性能命令1-9 if-match acl IS-IS命令1-28 if-match as-path IS-IS命令1-15 if-match community IS-IS命令1-16 if-match cost IS-IS命令1-17 if-match extcommunity IS-IS命令1-17 if-match interface IS-IS命令1-18 if-match ip IS-IS命令1-29 if-match ip-prefix IS-IS命令1-29 if-match ipv6 IS-IS命令1-34if-match mpls-exp MPLS L2VPN命令5-1 if-match mpls-label IS-IS命令1-19 if-match packet-length IP性能命令1-10 if-match route-type IS-IS命令1-20 if-match tag IS-IS命令1-21 ike local-name ALG命令2-11 ike next-payload check disabled ALG命令2-12 ike peer (System view) ALG命令2-13 ike proposal ALG命令2-13 ike sa keepalive-timer interval ALG命令2-14 ike sa keepalive-timer timeout ALG命令2-15 ike sa nat-keepalive-timer interval ALG命令2-16 ike-peer (IPSec policy view/IPSec policy template view) ALG命令1-16 import route-policy IPv6 静态路由命令1-33 import-route IPv6 BGP命令1-9 import-route (BGP/BGP-VPN instance view) 邻接表命令1-39 import-route (IPv6 address family view) RIP命令1-28 import-route (IS-IS view) 流分类命令1-34 import-route (OSPF view) IP路由表显示命令1-41 import-route (OSPFv3 view) 静态路由命令1-26 import-route (RIP view) BGP命令1-13 import-route isis level-2 into level-1 流分类命令1-36 info-center channel name NTP命令1-11 info-center console channel NTP命令1-11 info-center enable NTP命令1-12 info-center logbuffer NTP命令1-13 info-center logfile enable NTP命令1-14 info-center logfile frequency NTP命令1-14 info-center logfile size-quota NTP命令1-15 info-center logfile switch-directory NTP命令1-16 info-center loghost NTP命令1-16 info-center loghost source NTP命令1-18 info-center monitor channel NTP命令1-18 info-center snmp channel NTP命令1-19info-center source NTP命令1-20 info-center synchronous NTP命令1-22 info-center timestamp NTP命令1-23 info-center timestamp loghost NTP命令1-24 info-center trapbuffer NTP命令1-25 interface 以太网接口命令1-7 interface PPP命令1-9 interface gigabitethernet PPP命令1-10 interface loopback PPP命令1-11 interface mfr 帧中继命令1-25 interface mfr PPP命令1-11 interface mp-group HDLC命令1-6 interface mp-group PPP命令1-12 interface null PPP命令1-13 interface serial 帧中继命令1-26 interface tunnel MPLS基本配置命令1-3 interface virtual-template HDLC命令1-7 interface virtual-template PPP命令1-14 interface virtual-template MPLS TE命令1-4 invert receive-clock WAN接口命令1-6 invert transmit-clock WAN接口命令1-7 ip (Pki Entity view) QoS命令1-16 ip address 域名解析命令1-4 ip address dhcp-alloc ARP命令3-3 ip address ppp-negotiate HDLC命令1-8 ip address unnumbered 域名解析命令1-5 ip as-path IS-IS命令1-21 ip binding vpn-instance IPv6 静态路由命令1-34 ip community-list IS-IS命令1-23 ip extcommunity-list IS-IS命令1-24 ip forward-broadcast IP地址命令1-16 ip host DHCP命令1-7 ip ip-prefix IS-IS命令1-30 ip ipv6-prefix IS-IS命令1-35。