H3C光模块手册-6W103-整本手册
H3C光模块手册
杭州华三通信技术有限公司
https://www.sodocs.net/doc/5d9876491.html,
资料版本:6W103-20160512
Copyright ? 2014-2016 杭州华三通信技术有限公司及其许可者 版权所有,保留一切权利。
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、H 3Care 、
、IRF 、NetPilot 、
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由于产品版本升级或其他原因,本手册内容有可能变更。H3C 保留在没有任何通知或者提示的情况下对本手册的内容进行修改的权利。本手册仅作为使用指导,H3C 尽全力在本手册中提供准确的信息,但是H3C 并不确保手册内容完全没有错误,本手册中的所有陈述、信息和建议也不构成任何明示或暗示的担保。
环境保护
本产品符合关于环境保护方面的设计要求,产品的存放、使用和弃置应遵照相关国家法律、法规要求进行。
前言
H3C光模块手册详细介绍了H3C设备支持的光模块及线缆的类型、外观与规格等内容。
前言部分包含如下内容:
?读者对象
?本书约定
?资料获取方式
?技术支持
?资料意见反馈
读者对象
本手册主要适用于如下工程师:
?网络规划人员
?现场技术支持与维护人员
?负责网络配置和维护的网络管理员
本书约定
1. 命令行格式约定
格式意义
粗体命令行关键字(命令中保持不变、必须照输的部分)采用加粗字体表示。
斜体命令行参数(命令中必须由实际值进行替代的部分)采用斜体表示。
[ ] 表示用“[ ]”括起来的部分在命令配置时是可选的。
{ x | y | ... }表示从多个选项中仅选取一个。
[ x | y | ... ]表示从多个选项中选取一个或者不选。
{ x | y | ... } *表示从多个选项中至少选取一个。
[ x | y | ... ] *表示从多个选项中选取一个、多个或者不选。
&<1-n>表示符号&前面的参数可以重复输入1~n次。
# 由“#”号开始的行表示为注释行。
2. 图形界面格式约定
格式意义
< > 带尖括号“< >”表示按钮名,如“单击<确定>按钮”。
[ ] 带方括号“[ ]”表示窗口名、菜单名和数据表,如“弹出[新建用户]窗口”。
/ 多级菜单用“/”隔开。如[文件/新建/文件夹]多级菜单表示[文件]菜单下的[新建]子菜单下的[文件夹]菜单项。
3. 各类标志
本书还采用各种醒目标志来表示在操作过程中应该特别注意的地方,这些标志的意义如下:
4. 图标约定
本书使用的图标及其含义如下:
该图标及其相关描述文字代表防火墙插卡、负载均衡插卡、NetStream插卡、SSL VPN插
卡、IPS插卡、ACG插卡等安全插卡。
5. 端口编号示例约定
本手册中出现的端口编号仅作示例,并不代表设备上实际具有此编号的端口,实际使用中请以设备上存在的端口编号为准。
资料获取方式
您可以通过H3C网站(https://www.sodocs.net/doc/5d9876491.html,)获取最新的产品资料:
H3C网站与产品资料相关的主要栏目介绍如下:
?[服务支持/文档中心]:可以获取硬件安装类、软件升级类、配置类或维护类等产品资料。
?[产品技术]:可以获取产品介绍和技术介绍的文档,包括产品相关介绍、技术介绍、技术白皮书等。
?[解决方案]:可以获取解决方案类资料。
?[服务支持/软件下载]:可以获取与软件版本配套的资料。
技术支持
用户支持邮箱:service@https://www.sodocs.net/doc/5d9876491.html,
技术支持热线电话:400-810-0504(手机、固话均可拨打)
网址:https://www.sodocs.net/doc/5d9876491.html,
资料意见反馈
如果您在使用过程中发现产品资料的任何问题,可以通过以下方式反馈:
E-mail:info@https://www.sodocs.net/doc/5d9876491.html,
感谢您的反馈,让我们做得更好!
目录
1光模块简介··················································································································· 1-1
1.1 H3C设备支持的光模块及线缆类型·················································································· 1-1
1.2 光模块概念介绍·········································································································· 1-2
1.2.1 简介················································································································ 1-2
1.2.2 传输速率·········································································································· 1-2
1.2.3 传输距离·········································································································· 1-2
1.2.4 中心波长·········································································································· 1-3
1.2.5 光纤类型·········································································································· 1-3
1.2.6 接口连接器类型 ································································································· 1-5
1.2.7 接口指标·········································································································· 1-6
1.3 电口光模块概念介绍···································································································· 1-7
1.3.1 简介················································································································ 1-7
1.3.2 传输速率·········································································································· 1-7
1.3.3 传输距离·········································································································· 1-7
1.3.4 接口连接器类型 ································································································· 1-7
2 QSFP28模块················································································································ 2-1
2.1 QSFP28光模块 ········································································································· 2-1
2.1.1 外观图············································································································· 2-1
2.1.2 具体型号及规格 ································································································· 2-1
2.2 QSFP28电缆 ············································································································ 2-2
2.2.1 外观图············································································································· 2-2
2.2.2 具体型号及规格 ································································································· 2-2
2.3 QSFP28光缆 ············································································································ 2-2
2.3.1 外观图············································································································· 2-2
2.3.2 具体型号及规格 ································································································· 2-3
3 CFP模块······················································································································ 3-1
3.1 100G CFP光模块 ······································································································· 3-1
3.1.1 外观图············································································································· 3-1
3.1.2 具体型号及规格 ································································································· 3-1
3.2 40G CFP光模块 ········································································································· 3-2
3.2.1 外观图············································································································· 3-2
3.2.2 具体型号及规格 ································································································· 3-2
4 CFP2模块 ··················································································································· 4-1
4.1 CFP2光模块(MPO接口)··························································································· 4-1
4.1.1 外观图············································································································· 4-1
4.1.2 具体型号及规格 ································································································· 4-1
4.2 CFP2光模块(LC接口)······························································································ 4-2
4.2.1 外观图············································································································· 4-2
4.2.2 具体型号及规格 ································································································· 4-2
5 CXP模块······················································································································ 5-1
5.1 CXP光模块 ··············································································································· 5-1
5.1.1 外观图············································································································· 5-1
5.1.2 具体型号及规格 ································································································· 5-1
5.2 CXP光缆 ·················································································································· 5-2
5.2.1 外观图············································································································· 5-2
5.2.2 具体型号及规格 ································································································· 5-2
6 QSFP+模块 ·················································································································· 6-1
6.1 QSFP+光模块(MPO接口) ························································································· 6-1
6.1.1 外观图············································································································· 6-1
6.1.2 具体型号及规格 ································································································· 6-1
6.2 QSFP+光模块(LC接口) ···························································································· 6-2
6.2.1 外观图············································································································· 6-2
6.2.2 具体型号及规格 ································································································· 6-2
6.3 QSFP+ BIDI光模块 ····································································································· 6-3
6.3.1 外观图············································································································· 6-3
6.3.2 具体型号及规格 ································································································· 6-3
6.4 QSFP+电缆··············································································································· 6-4
6.4.1 外观图············································································································· 6-4
6.4.2 具体型号及规格 ································································································· 6-4
6.5 QSFP+ to SFP+电缆 ··································································································· 6-5
6.5.1 外观图············································································································· 6-5
6.5.2 具体型号及规格 ································································································· 6-5
6.6 QSFP+光缆··············································································································· 6-6
6.6.1 外观图············································································································· 6-6
6.6.2 具体型号及规格 ································································································· 6-6
7 SFP+模块 ···················································································································· 7-1
7.1 SFP+光模块 ·············································································································· 7-1
7.1.1 外观图············································································································· 7-1
7.2 SFP+电缆 ················································································································· 7-3
7.2.1 外观图············································································································· 7-3
7.2.2 具体型号及规格 ································································································· 7-3
7.3 SFP+光缆 ················································································································· 7-4
7.3.1 外观图············································································································· 7-4
7.3.2 具体型号及规格 ································································································· 7-4
8 XFP模块 ······················································································································ 8-1
8.1 外观图 ····················································································································· 8-1
8.2 具体型号及规格·········································································································· 8-1
9 CX4电缆 ····················································································································· 9-1
9.1 外观图 ····················································································································· 9-1
9.2 具体型号及规格·········································································································· 9-1
10 SFP模块 ··················································································································· 10-1
10.1 2.5G SFP光模块····································································································· 10-1
10.1.1 外观图 ········································································································· 10-1
10.1.2 具体型号及规格 ····························································································· 10-1
10.2 千兆SFP光模块 ······································································································ 10-1
10.2.1 外观图 ········································································································· 10-1
10.2.2 具体型号及规格 ····························································································· 10-2
10.3 622兆SFP光模块 ··································································································· 10-3
10.3.1 外观图 ········································································································· 10-3
10.3.2 具体型号及规格 ····························································································· 10-3
10.4 百兆SFP光模块 ······································································································ 10-3
10.4.1 外观图 ········································································································· 10-3
10.4.2 具体型号及规格 ····························································································· 10-3
10.5 千兆BIDI光模块 ······································································································ 10-4
10.5.1 外观图 ········································································································· 10-4
10.5.2 具体型号及规格 ····························································································· 10-4
10.6 百兆BIDI光模块 ······································································································ 10-5
10.6.1 外观图 ········································································································· 10-5
10.6.2 具体型号及规格 ····························································································· 10-5
10.7 BIDI GEPON OLT光模块 ·························································································· 10-6
10.7.1 外观图 ········································································································· 10-6
10.7.2 具体型号及规格 ····························································································· 10-6
10.8 千兆CWDM光模块 ·································································································· 10-7
10.8.2 具体型号及规格 ····························································································· 10-7 10.9 千兆SFP电口光模块 ································································································ 10-8
10.9.1 外观图 ········································································································· 10-8
10.9.2 具体型号及规格 ····························································································· 10-8 10.10 千兆SFP电缆 ······································································································· 10-8
10.10.1 外观图 ······································································································· 10-8
10.10.2 具体型号及规格···························································································· 10-8
1 光模块简介
1.1 H3C设备支持的光模块及线缆类型
H3C设备支持的光模块及线缆类型如表1-1所示。
表1-1光模块及线缆类型
光模块及线缆类型接口类型
QSFP28模块QSFP28光模块 MPO QSFP28电缆
-
QSFP28光缆
CFP模块100G CFP光模块
LC接口40G CFP光模块
CFP2模块 CFP2光模块 MPO接口或LC接口
CXP模块
CXP光模块 MPO接口
CXP光缆 -
QSFP+模块QSFP+光模块 MPO接口或LC接口QSFP+ BIDI光模块 LC接口
QSFP+电缆
-
QSFP+ to SFP+电缆
QSFP+光缆
SFP+模块SFP+光模块 LC接口SFP+电缆
-
SFP+光缆
XFP(10-Gigabit Small Form-factor Pluggable,万兆以太网接口小型封
装可热插拔)模块
LC接口
CX4电缆 -
SFP(Small Form-factor Pluggable,小型封装可热插拔)模块2.5G SFP光模块
LC接口千兆SFP光模块
622兆SFP光模块
百兆SFP光模块
千兆BIDI光模块
LC接口百兆BIDI光模块
BIDI GEPON OLT光模块 SC接口
光模块及线缆类型接口类型
千兆CWDM光模块 LC接口
千兆SFP电口光模块 RJ-45接口
千兆SFP电缆 -
?H3C设备的不同产品可支持的光模块及线缆类型不同,具体请参见各产品安装手册。
?光模块及线缆的种类随着时间变化有更新的可能性,所以,若您需要准确的模块种类信息,请咨询H3C公司市场人员或技术支援人员。
1.2 光模块概念介绍
1.2.1 简介
光模块用于光信号的传输,传输媒质为光纤。光纤传输方式损耗低,传输距离远,在长距离传输方面具有很强的优势。
H3C设备支持多款不同规格的光模块,用户可以根据自己的需要选择合适的光模块,通过光纤进行数据传输。
目前的光模块主要包括:光发送器,光接收器,Transceiver(光收发一体模块)以及Transponder (光转发器)。
H3C设备支持Transceiver,Transceiver的主要功能是实现光电/电光变换,包括光功率控制、调制发送,信号探测、IV转换以及限幅放大判决再生功能,此外还有些防伪信息查询、TX-disable等功能,常见的有:QSFP28、CFP、CFP2、CXP、QSFP+、SFP+、SFP等。
1.2.2 传输速率
传输速率指每秒传输比特数,单位Mbps或Gbps。H3C设备所支持光模块主要提供以下级别的传输速率:100Gbps、40Gbps、10Gbps、8Gbps、4Gbps、2.5Gbps、2Gbps、1Gbps、622Mbps、155Mbps、100Mbps。
1.2.3 传输距离
光模块的传输距离分为短距和长距两种。一般认为2km及以下的为短距离,10km的为长距离。
光模块的传输距离受到限制,主要是因为光信号在光纤中传输时会有一定的损耗和色散。
?损耗是光在光纤中传输时,由于介质的吸收散射以及泄漏导致的光能量损失,这部分能量随着传输距离的增加以一定的比率耗散。
?色散的产生主要是因为不同波长的电磁波在同一介质中传播时速度不等,从而造成光信号的不同波长成分由于传输距离的累积而在不同的时间到达接收端,导致脉冲展宽,进而无法分
辨信号值。
因此,用户需要根据自己的实际组网情况选择合适的光模块,以满足不同的传输距离要求。
1.2.4 中心波长
中心波长指光信号传输所使用的光波段。目前常用的光模块的中心波长主要有三种:850nm波段、1310nm波段以及1550nm波段。
?850nm波段:多用于短距离传输
?1310nm和1550nm波段:多用于中长距离传输
1.2.5 光纤类型
1. 光纤模式(Fiber Mode)
按光在光纤中的传输模式可将光纤分为单模光纤和多模光纤两种。
ITU(International Telecommunication Union国际电信联盟)制定了一系列的通信标准。ITU的标准通过字母编号从A到Z系列,每个字母的后面用数字做编号。ITU通过制定G系列协议定义了光纤标准种类。
(1) 多模光纤
多模光纤(MMF,Multi Mode Fiber)纤芯较粗,可传多种模式的光。但其模间色散较大,且随传输距离的增加模间色散情况会逐渐加重。
多模光纤根据光纤直径和模式带宽的不同,可以分为多个等级,具体介绍请参见表1-2。其中,模式带宽(Modal bandwidth)指的是一段光纤所能通过的最大调制频率脉冲的调制频率和光纤长度的乘积,是一个可以体现多模光纤光学特性的综合指标。
常用的多模光纤为G.651光纤,根据标准,G.651光纤能传输800~900nm、1200~1350nm波长的激光。
表1-2多模光纤分类
光纤模式光纤等级光纤直径(μm)Modal bandwidth at 850 nm(MHz*km)
多模光纤OM1 62.5/125 200 OM2 50/125 500 OM3 50/125 2000 OM4 50/125 4700
多模光纤的传输距离与其接口类型、中心波长、使用光纤的等级有关,具体关系请参见表1-3。表1-3多模光纤规格表
应用类型中心波长(nm)光纤等级传输距离
1000BASE-SX 850 OM1 <
275m OM2 <
550m
10GBASE-SR 850 OM1 <
33m OM2 <
82m OM3 <
300m
应用类型中心波长(nm)光纤等级传输距离
OM4 <
450m
10GBASE-LRM 1310 OM1 <
220m OM2 <
220m OM3 <
220m OM4 <
220m
(2) 单模光纤
单模光纤(SMF,Single Mode Fiber)中心玻璃纤芯很细(芯径一般为9或10μm),只能传一种模式的光。因此,其模间色散很小,适用于远程通讯,中心波长一般为1310nm或1550nm。
同时,根据TIA/EIA协议,单模光纤塑料护套为黄色,塑料护套上标有SM字样的标签。TIA表示(Telecommunication Industries Alliance)电信工业联盟,EIA表示(ElectronicIndustries Alliance)电子工业联盟。
常用的单模光纤为G.652光纤和G.655光纤:
?G.652光纤是常规单模光纤,零色散点在1300nm,此点色散最小。G.652光纤能传输1260~1360nm、1530~1565nm波长的激光。
?G.655光纤是非零色散位移光纤NZ-DSF(No-Zero Dispersion Shifted Fiber),主要特点是1550nm的色散接近零,但不是零。G.655光纤是一种改进的色散位移光纤,以抑制四波混频。
G.655光纤适合传输波分复用1550nm的激光。
如下表格为G.652光纤和G.655光纤的简单总结:
表1-4单模光纤规格表
光纤名称工作模式波长区域备注
G.652 单模1260~1360nm,1530~
1565nm
常规单模光纤
G.655 单模 1530~1565nm 非零色散
通过上表可以知道,选择G.652光纤可以适配中心波长1310nm、1550nm的光模块。如果要传输波分复用的1550nm的激光,可以选用G.655光纤。在实际选用光纤的时候,根据光纤厂商的产品手册能够查询该光纤符合什么标准。
2. 光纤直径
光纤直径一般采用纤芯直径/包层直径的表示方法,单位μm。例如:9/125μm表示光纤中心纤芯直径为9μm,光纤包层直径为125μm。
H3C设备推荐使用的光纤直径如下:
?G.652常规单模光纤:9/125μm
?G.655单模光纤:9/125μm
?G.651常规多模光纤:50/125μm或62.5/125μm
1.2.6 接口连接器类型
接口连接器用于连接可插拔模块及相应的传输媒质。光纤连接器是光纤通信系统中不可缺少的无源器件,它的使用使得光通道间的可拆式连接成为可能,既方便了光系统的调测与维护,又使光系统的转接调度更加灵活。H3C设备支持的光模块所采用的光纤连接器包括:SC连接器、LC连接器和MPO连接器。
为了保护光纤连接器的清洁,请务必保证在未连接光纤时盖上防尘帽。
1. SC连接器
SC(Subscriber Connector Standard Connector,标准光纤连接器),外观图如图1-1所示。
图1-1SC连接器外观图
2. LC连接器
LC(Lucent Connector or Local Connector,朗讯连接器),外观图如图1-2所示。
图1-2LC连接器外观图
3. MPO连接器
MPO(Multi-fiber Push On)连接器,外观图如图1-4所示。
图1-3MPO连接器外观图
H3C光模块所采用的MPO连接器均为带有导向销的母头连接器。
根据MPO连接器的插芯端面研磨角度不同,MPO连接器可以分为以下两种:
?PC(Physical Contact)端面,其插芯端面为平面;
?APC(Angle-Polished Contact)端面,其插芯端面为斜面,通常为8°斜角。
根据MPO连接器的芯数不同,MPO连接器可以分为以下两种:
?12芯光纤的MPO连接器,如图1-4所示;
?24芯光纤的MPO连接器,如图1-5所示。
图1-412芯光纤的MPO连接器俯视图
图1-524芯光纤的MPO连接器俯视图
1.2.7 接口指标
除特殊说明外,本文所提供的输出光功率和接收光功率范围两端的值均为平均值。
1. 输出光功率
输出光功率指光模块发送端光源的输出光功率,单位:dBm。
2. 接收光功率
接收光功率指光模块接收端的接收光功率,单位:dBm。
3. 接收灵敏度
接收灵敏度指的是在一定速率、误码率情况下光模块的最小接收光功率,单位:dBm。一般情况下,速率越高接收灵敏度越差,即最小接收光功率越大,对于光模块接收端器件的要求也越高。
4. 饱和光功率
又称光饱和度,指的是在一定的传输速率下,维持一定的误码率(10-10~10-12)时的最大输入光功率,单位:dBm。
需要注意的是,光探测器在强光照射下会出现光电流饱和现象,当出现此现象后,探测器需要一定的时间恢复,此时接收灵敏度下降,接收到的信号有可能出现误判而造成误码现象,而且还非常容易损坏接收端探测器,在使用操作中应尽量避免超出其饱和光功率。
对于长距光模块,由于其平均输出光功率一般大于其饱和光功率,因此请用户使用时关注光纤使用长度,以保证到达光模块的实际接收光功率小于其饱和光功率,否则有可能造成光模块的损坏。
1.3 电口光模块概念介绍
1.3.1 简介
电口光模块用于电信号的传输,传输媒质为5类非屏蔽双绞线,相比光纤传输方式来说,双绞线传输的传输距离较小,只适用于小范围组网环境。
H3C设备仅支持SFP电口光模块。
1.3.2 传输速率
电口光模块的传输速率为1250Mbps。
1.3.3 传输距离
电信号在双绞线中的传输距离为100m,主要是因为电信号在双绞线中传输时存在衰减现象。
衰减(attenuation)是指经过一段时间或者距离后信号减弱。出现衰减的原因是:线缆本身对传输有一定的阻力,从而导致电线号沿线缆传输时逐渐减弱。若传输距离很长的话,信号强度会降得很低,致使信噪比降至可接受标准以下,无法正确分辨信号与噪声而产生误判。
因此,只有在传输距离较短的情况下才可以选择电口光模块。
1.3.4 接口连接器类型
电口光模块采用RJ-45(Registered Jack,注册Jack)双绞线连接器。外观图如图1-6所示。
图1-6RJ-45连接器外观图
表1-5RJ-45 GE接口引脚分配
引脚号信号功能
1 MX_0+ 收发数据
2 MX_0- 收发数据
3 MX_1+ 收发数据
4 MX_2+ 收发数据
5 MX_2- 收发数据
6 MX_1- 收发数据
7 MX_3+ 收发数据
8 MX_3- 收发数据
2 QSFP28模块
2.1 QSFP28光模块
2.1.1 外观图
图2-1QSFP28光模块外观示意图
2.1.2 具体型号及规格
QSFP28光模块的传输速率为100Gbps,采用MPO连接器。
表2-1QSFP28光模块属性(1)
对外型号中心波长
(nm)
Fiber Mode光纤直径(μm)
模式带宽
(MHz*km)
传输距离
QSFP-100G-SR4-MM850 850 MMF 50/125 2000 70m 4700 100m
表2-2QSFP28光模块属性(2)
对外型号连接器
接口指标(dBm)
输出光功率接收光功率QSFP-100G-SR4-MM850 MPO(PC端面,12芯)-8.4~+2.4 -10.3~+2.4
2.2 QSFP28电缆
2.2.1 外观图
图2-2QSFP28电缆外观示意图
2.2.2 具体型号及规格
表2-3QSFP28电缆属性
对外型号线缆长度传输速率QSFP-100G-D-CAB-1M 1m
100Gbps QSFP-100G-D-CAB-3M 3m
2.3 QSFP28光缆
2.3.1 外观图
图2-3QSFP28光缆外观示意图
2.3.2 具体型号及规格
表2-4QSFP28光缆属性
对外型号线缆长度传输速率QSFP-100G-D-AOC-7M 7m
100Gbps QSFP-100G-D-AOC-10M 10m
QSFP-100G-D-AOC-20M 20m
华三华为交换机路由器配置常用命令汇总定稿版
华三华为交换机路由器 配置常用命令汇总 HUA system office room 【HUA16H-TTMS2A-HUAS8Q8-HUAH1688】
H3C交换机配置命令大全1、system-view 进入系统视图模式 2、sysname 为设备命名 3、display current-configuration 当前配置情况 4、 language-mode Chinese|English 中英文切换 5、interface Ethernet 1/0/1 进入以太网端口视图 6、 port link-type Access|Trunk|Hybrid 设置端口访问模式 7、 undo shutdown 打开以太网端口 8、 shutdown 关闭以太网端口
9、 quit 退出当前视图模式 10、 vlan 10 创建VLAN 10并进入VLAN 10的视图模式 11、 port access vlan 10 在端口模式下将当前端口加入到vlan 10中 12、port E1/0/2 to E1/0/5 在VLAN模式下将指定端口加入到当前vlan中 13、port trunk permit vlan all 允许所有的vlan通过 H3C路由器配置命令大全华为交换机常用配置实例 H3C交换机路由器telnet和console口登录配置 2009年11月09日星期一 10:00
级别说明 Level 名称 命令 参观 ping、tracert、telnet 1 监控 display、debugging 2 配置 所有配置命令(管理级的命令除外)
H3C交换机配置命令
H3C交换机配置命令 创建汇聚组link-aggregation group mode{manual / static} 加入端口Port link-aggregation group 汇聚接口配置interface Bridge-Aggregation 1 description ==TO-IDF-1== port link-type trunk undo port trunk permit vlan 1 port trunk permit vlan 21 100 (1)采用手工聚合方式 # 创建汇聚组1。 [H3C] link-aggregation group 1 mode manual # 将以太网端口Ethernet2/1/1至Ethernet2/1/3加入聚合组1。 [H3C] interface ethernet2/1/1 [H3C-Ethernet2/1/1] port link-aggregation group 1 [H3C-Ethernet2/1/1] interface ethernet2/1/2 [H3C-Ethernet2/1/2] port link-aggregation group 1 [H3C-Ethernet2/1/2] interface ethernet2/1/3
[H3C-Ethernet2/1/3] port link-aggregation group 1 # 当聚合组端口序号连续时,可以直接把多个端口聚成一组,组号由系统自行分 配。 [H3C] link-aggregation ethernet2/1/1 to ethernet2/1/3 both (2)采用静态LACP聚合方式 # 创建静态汇聚组1。 [H3C] link-aggregation group 1 mode static # 将以太网端口Ethernet2/1/1至Ethernet2/1/3加入聚合组1。 [H3C] interface ethernet2/1/1 [H3C-Ethernet2/1/1] port link-aggregation group 1 [H3C-Ethernet2/1/1] interface ethernet2/1/2 [H3C-Ethernet2/1/2] port link-aggregation group 1 [H3C-Ethernet2/1/2] interface ethernet2/1/3 [H3C-Ethernet2/1/3] port link-aggregation group 1 (3)采用动态LACP聚合方式 # 开启以太网端口Ethernet2/1/1至Ethernet2/1/3的LACP协议。 [H3C] interface ethernet2/1/1 [H3C-Ethernet2/1/1] lacp enable [H3C-Ethernet2/1/1] interface ethernet2/1/2 [H3C-Ethernet2/1/2] lacp enable [H3C-Ethernet2/1/2] interface ethernet2/1/3 [H3C-Ethernet2/1/3] lacp enable 设置以太网端口的速率speed { 10 | 100 | 1000 | 10000 | auto } 设置以太网端口连接的网线的类型mdi { across | auto | normal }
H3C交换机配置命令手册范本
目录 H3C 交换机配置命令手册: (3) 交换机端口链路类型介绍: (3) 认证方式为Scheme时Telnet登录方式的配置 (3) Vlan 的创建及描述 (4) 将端口配置为Trunk端口,并允许VLAN10和VLAN20通过 (5) DHCP典型配制举例: (5) 链路聚合典型配置 (6) 三层交换的IP路由配置: (8) (1)配置各接口的IP地址 (8) (2) 配置静态路由 (9) # 在Switch B上配置两条静态路由。 (9) 配置举例:建立SSL Proxy服务器 (10) 1. 组网需求 (10) 2. 组网图 (10) 3. 配置步骤 (10) # 配置接口IP地址。 (10) SSL服务器端策略配置: (11) 证书属性过滤组的配置: (11) 证书ACP策略配置: (11) SSL Proxy服务器策略配置: (12)
# 配置目标HTTP服务器。 (12) 运行SSL Proxy服务器: (12) # 配置ACL,用来匹配将要进行SSL代理的数据流。 (12) # 将路由策略应用到接口上。 (13)
H3C 交换机配置命令手册: 交换机端口链路类型介绍: 1.Access类型的端口只能属于1个VLAN,一般用于连接计算机的端口; 2.Trunk类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,一般用于交换机之间连接的端口; 3.Hybrid类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,可以用于交换机之间连接,也可以用于连接用户的计算机。 认证方式为Scheme时Telnet登录方式的配置 # telnet server enable # local-user guest service-type telnet level 3 password simple 123456 #
Juniper_华为_H3C设备维护常用命令
Juniper_华为_H3C设备维护常用命令1、[Router&Swithc]华为/H3C设备常规巡检命令 #系统时间 display clock #系统以及各单板软件版本 display version #设备温度 display environment #日志信息 display logbuffer #单板运行状态 display device #电源状态 display device #风扇状态 display device #CPU占用状态 display cpu-usage #存占用率 display memory limit #接口流量 display interface #接口、链路状态 display interface #地址分配 display current-configuration interface# #路由扩散 display current-configuration | include ospf #OSPF(Open Shortest Path First)配置 display router id #路由信息 display ip routing-table #端口统计数据 display ip interface #当前配置文件 display current-configuration #保存配置文件 display saved-configuration 端口使用状态 display interface GigabitEthernet/Ten-GigabitEthernet brief VLAN使用状态 display ip interface brief 2、脚本—华为
H3C交换机常用配置命令
H3C交换机常用配置命令 一、用户配置
H3C交换机配置命令手册
目录 (2)配置静态路由.............................................................. H3C交换机配置命令手册: 交换机端口链路类型介绍: 1. Access类型的端口只能属于1个VLAN, —般用于连接计算机的端口; 2. Trunk类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,一般用于交换机之间连接的端口; 3. Hybrid类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,可以用于交换机 之间连接,也可以用于连接用户的计算机。 认证方式为Scheme时Telnet登录方式的配置 telnet server enable
# local-user guest service-type telnet level 3 password simple 123456 # Vlan 的创建及描述 #
华三华为交换机-路由器配置常用命令汇总
H3C交换机配置命令大全 1、system-view 进入系统视图模式 2、sysname 为设备命名 3、display current-configuration 当前配置情况 4、language-mode Chinese|English 中英文切换 5、interface Ethernet 1/0/1 进入以太网端口视图 6、port link-type Access|Trunk|Hybrid 设置端口访问模式 7、undo shutdown 打开以太网端口 8、shutdown 关闭以太网端口 9、quit 退出当前视图模式 10、vlan 10 创建VLAN 10并进入VLAN 10的视图模式 11、port access vlan 10 在端口模式下将当前端口加入到vlan 10中 12、port E1/0/2 to E1/0/5 在VLAN模式下将指定端口加入到当前vlan中 13、port trunk permit vlan all 允许所有的vlan通过 H3C路由器配置命令大全 1、system-view 进入系统视图模式 2、sysname R1 为设备命名为R1 3、display ip routing-table 显示当前路由表 4、language-mode Chinese|English 中英文切换 5、interface Ethernet 0/0 进入以太网端口视图 6、ip address 192.168.1.1 255.255.255.0 配置IP地址和子网掩码 7、undo shutdown 打开以太网端口 8、shutdown 关闭以太网端口
H3C交换机操作手册
目录 H3C以太网交换机的基本操作........................................... 错误!未定义书签。 知识准备........................................................ 错误!未定义书签。 操作目的........................................................ 错误!未定义书签。 网络拓扑........................................................ 错误!未定义书签。 配置步骤........................................................ 错误!未定义书签。 串口操作配置................................................. 错误!未定义书签。 查看配置及日志操作........................................... 错误!未定义书签。 设置密码操作................................................. 错误!未定义书签。 验证方法........................................................ 错误!未定义书签。H3C以太网交换机VLAN配置............................................. 错误!未定义书签。 知识准备........................................................ 错误!未定义书签。 操作目的........................................................ 错误!未定义书签。 操作内容........................................................ 错误!未定义书签。 设备准备........................................................ 错误!未定义书签。 拓扑............................................................ 错误!未定义书签。 配置步骤........................................................ 错误!未定义书签。 验证方法........................................................ 错误!未定义书签。H3C以太网交换机链路聚合配置......................................... 错误!未定义书签。 知识准备........................................................ 错误!未定义书签。 操作目的........................................................ 错误!未定义书签。 操作内容........................................................ 错误!未定义书签。 设备准备........................................................ 错误!未定义书签。 网络拓扑........................................................ 错误!未定义书签。 配置步骤........................................................ 错误!未定义书签。 验证方法........................................................ 错误!未定义书签。H3C以太网交换机STP配置.............................................. 错误!未定义书签。 知识准备........................................................ 错误!未定义书签。 操作目的........................................................ 错误!未定义书签。 操作内容........................................................ 错误!未定义书签。 设备准备........................................................ 错误!未定义书签。 网络拓扑........................................................ 错误!未定义书签。 配置步骤........................................................ 错误!未定义书签。 验证方法........................................................ 错误!未定义书签。H3C以太网交换机VRRP配置............................................. 错误!未定义书签。
最新H3C交换机操作手册
目录 H3C以太网交换机的基本操作 (1) 1.1 知识准备 (1) 1.2 操作目的 (1) 1.3 网络拓扑 (1) 1.4 配置步骤 (2) 1.4.1 串口操作配置 (2) 1.4.2 查看配置及日志操作 (4) 1.4.3 设置密码操作 (5) 1.5 验证方法 (6) H3C以太网交换机VLAN配置 (7) 1.6 知识准备 (7) 1.7 操作目的 (7) 1.8 操作内容 (7) 1.9 设备准备 (7) 1.10 拓扑 (7) 1.11 配置步骤 (8) 1.12 验证方法 (8) H3C以太网交换机链路聚合配置 (9) 1.13 知识准备 (9) 1.14 操作目的 (9) 1.15 操作内容 (9) 1.16 设备准备 (9) 1.17 网络拓扑 (9) 1.18 配置步骤 (10) 1.19 验证方法 (11) H3C以太网交换机STP配置 (12) 1.20 知识准备 (12) 1.21 操作目的 (12) 1.22 操作内容 (12) 1.23 设备准备 (12) 1.24 网络拓扑 (12) 1.25 配置步骤 (13)
1.26 验证方法 (14) H3C以太网交换机VRRP配置 (15) 1.27 知识准备 (15) 1.28 操作目的 (15) 1.29 操作内容 (15) 1.30 设备准备 (15) 1.31 网络拓扑 (16) 1.32 配置步骤 (16) 1.33 验证方法 (18) H3C以太网交换机镜像配置 (19) 1.34 知识准备 (19) 1.35 操作目的 (19) 1.36 操作内容 (19) 1.37 设备准备 (19) 1.38 网络拓扑 (20) 1.39 配置步骤 (20) 1.40 验证方法 (21) H3C以太网交换机路由配置 (22) 1.41 知识准备 (22) 1.42 操作目的 (22) 1.43 操作内容 (22) 1.44 设备准备 (22) 1.45 网络拓扑 (23) 1.46 配置步骤 (23) 1.47 验证方法 (24) H3C以太网交换机ACL配置 (25) 1.48 知识准备 (25) 1.49 操作目的 (25) 1.50 操作内容 (25) 1.51 网路拓扑 (25) 1.52 配置步骤 (25) 1.53 验证方法 (26) 实验一H3C以太网交换机的基本操作
H3C华为交换机配置基本命令
H3C交换机路由器常用命令 local-user admin (建立TELNET 用户) password simple admin authorization-attribute level 3 service-type telnet stp enable (开启生成树功能) interface Vlan-interface1 ip address 1.1.1.1 255.255.255.0(为只定VLAN配置IP地址)port access vlan 20 (在端口模式下将接口添加到相关VLAN) (接口的TRUNK配置) port link-type trunk port trunk permit vlan all user-interface vty 0 4 authentication-mode scheme(开启TELNET 服务的虚拟端口) user-interface vty 5 15 description 首先配置交换机的管理IP地址 [H3C]interface Vlan-interface 1 [H3C-vlan-interface1]ip address 10.0.0.1 255.255.255.0 只用密码的用户认证 [H3C]user-interface vty 0 4 [H3C-ui-vty0-4]authentication-mode password [H3C-ui-vty0-4]set authentication password simple 123456 远程用户缺省的级别都是0级,Telnet用户登录后的用户级别 [H3C-ui-vty0-4]user privilege level 3 本地用户名和口令的认证 [H3C]user-interface vty 0 4 [H3C-ui-vty0-4]authentication-mode scheme [H3C]local-user H3C [H3C-ui-vty0-4]password simple huawei [H3C-ui-vty0-4]service-type telnet level 3 1.调整超级终端的显示字号; 2.捕获超级终端操作命令行,以备日后查对; 3.复制命令到超级终端命令行,粘贴到主机; 4.路由器.交换机配置时不能掉电,连通测试前一定要检查网络的连通性,不要犯最低级的错误。5.在IP地址写法上:192.168.1.1/24等同192.168.1.1 255.255.255.0; 在配置交换机和路由器时,192.168.1.1 255.255.255.0 可以写成:192.168.1.1 24 6.设备命名规则:地名-设备名-系列号例:PingGu-Router-S3600 H3C交换机 1.system-view 进入系统视图模式 2.sysname 为设备命名 3.display current-configuration 当前配置情况 4.language-mode Chinese|English 中英文切换
H3C交换机基础知识配置命令
一、基本配置
[H3C]displayusers //显示用户 [H3C]displayuser-interface //用户界面状态 三、VLAN配置 [H3C]vlan 2 //创建VLAN2 [H3C]undo vlanall //删除除缺省VLAN外的所有VLAN,缺省VLAN不能被删除 [H3C-vlan2]port Ethernet 0/4 to Ethernet0/7 //将4到7号端口加入到VLAN2中,此命令只能用来加access端口,不能用来增加trunk或者hybrid端口[H3C-vlan2]port-isolateenable //打开VLAN内端口隔离特性,不能二层转发,默认不启用该功能 [H3C-Ethernet0/4]port-isolate uplink-portvlan 2 //设置4为VLAN2的隔离上行端口,用于转发二层数据,只能配置一个上行端口,若为trunk,则建议允许所有VLAN通过,隔离不能与汇聚同时配置 [H3C]display vlanall //显示所有VLAN的详细信息 S1550E支持基于端口的VLAN,通过创建不同的user-group来实现,一个端口可以属于多个user-group,不属于同一个user-group的端口不能互相通信 [H3C]user-group20 //创建user-group 20,默认只存在user-group 1 [H3C-UserGroup20]port Ethernet 0/4 toEthernet 0/7 //将4到7号端口加入到VLAN20中,初始时都属于user-group 1中 [H3C]display user-group20 //显示user-group 20的相关信息
H3C 交换机配置命令手册
目录 H3C 交换机配置命令手册: (2) 交换机端口链路类型介绍: (2) 认证方式为Scheme时Telnet登录方式的配置 (2) Vlan 的创建及描述 (2) 将端口配置为Trunk端口,并允许VLAN10和VLAN20通过 (3) DHCP典型配制举例: (3) 链路聚合典型配置 (4) 三层交换的IP路由配置: (5) (1)配置各接口的IP地址 (5) (2) 配置静态路由 (5) # 在Switch B上配置两条静态路由。 (5) 配置举例:建立SSL Proxy服务器 (5) 1. 组网需求 (5) 2. 组网图 (6) 3. 配置步骤 (6) # 配置接口IP地址。 (6) SSL服务器端策略配置: (6) 证书属性过滤组的配置: (7) 证书ACP策略配置: (7) SSL Proxy服务器策略配置: (7) # 配置目标HTTP服务器。 (8) 运行SSL Proxy服务器: (8) # 配置ACL,用来匹配将要进行SSL代理的数据流。 (8) # 将路由策略应用到接口上。 (9)
H3C 交换机配置命令手册: 交换机端口链路类型介绍: 1.Access类型的端口只能属于1个VLAN,一般用于连接计算机的端口; 2.Trunk类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,一般用于交换机之间连接的端口; 3.Hybrid类型的端口可以属于多个VLAN,可以接收和发送多个VLAN的报文,可以用于交换机之间连接,也可以用于连接用户的计算机。 认证方式为Scheme时Telnet登录方式的配置 # telnet server enable # local-user guest service-type telnet level 3 password simple 123456 # Vlan 的创建及描述 #
H3C交换机配置.pdf
1、win7通过超级终端进入H3C交换机,端口设置需要修改 2、输入sys进入配置模式
3、进入24端口(在输入命令时按Tab键会智能补全命令)[H3C]interface GigabitEthernet 1/0/24 4、设置24端口为trunk口 [H3C- GigabitEthernet 1/0/24]port link-type trunk [H3C- GigabitEthernet 1/0/24]port trunk permit vlan all [H3C- GigabitEthernet 1/0/24]quit
[H3C]interface GigabitEthernet 1/0/1 [H3C- GigabitEthernet 1/0/1]port access vlan 101 [H3C- GigabitEthernet 1/0/1]quit 6、进入端口2,设置端口2为vlan102 [H3C]interface GigabitEthernet 1/0/2 [H3C- GigabitEthernet 1/0/1]port access vlan 102 [H3C- GigabitEthernet 1/0/1]quit
[H3C]interface GigabitEthernet 1/0/3 [H3C- GigabitEthernet 1/0/1]port access vlan 103 [H3C- GigabitEthernet 1/0/1]quit 8、进入端口4,设置端口4为vlan104 [H3C]interface GigabitEthernet 1/0/4 [H3C- GigabitEthernet 1/0/1]port access vlan 104 [H3C- GigabitEthernet 1/0/1]quit
H3C交换机最详细配置实例手册
H3C交换机最详细配置实例手册 目录 1.登录交换机典型配置指导 (7) 1.1 通过Console口配置Telnet登录方式典型配置指导 (7) 1.1.1 组网图 (7) 1.1.2 应用要求 (7) 1.1.3 配置过程和解释 (7) 1.1.4 完整配置 (8) 1.2 通过Telnet配置Console口登录方式典型配置指导 (9) 1.2.1 组网图 (9) 1.2.2 应用要求 (9) 1.2.3 配置过程和解释 (9) 1.2.4 完整配置 (10) 1.3 通过WEB网管登录交换机典型配置指导 (11) 1.3.1 组网图 (11) 1.3.2 应用要求 (11) 1.3.4 配置过程和解释 (11) 1.3.5 完整配置 (12) 1.3.6 配置注意事项 (12) 1.4 对登录用户的控制典型配置指导 (12) 1.4.1 组网图 (12) 1.4.2 应用要求 (12) 1.4.3 配置过程和解释 (12) 1.4.4 完整配置 (13) 2. VLAN典型配置指导 (14) 2.1 基于端口的VLAN典型配置指导 (14) 2.1.1 组网图 (14) 2.1.2 应用要求 (14) 2.1.3 配置过程和解释 (14) 2.1.4完整配置 (15) 2.2 基于MAC的VLAN典型配置指导 (16) 2.2.1组网图 (16) 2.2.2 应用要求 (16) 2.2.3 配置过程和解释 (16) 2.2.4 完整配置 (17)
2.2.5 配置注意事项 (18) 2.3 基于协议的VLAN典型配置指导 (18) 2.3.1 组网图 (18) 2.3.2 应用要求 (19) 2.3.3 配置过程和解释 (19) 2.3.4 完整配置 (19) 2.4 基于IP子网的VLAN典型配置指导 (20) 2.4.1 组网图 (20) 2.4.2 应用要求 (20) 2.4.3 配置过程和解释 (21) 2.4.5 完整配置 (21) 2.5 Isolate-user-vlan典型配置指导 (22) 2.5.1 组网图 (22) 2.5.2 应用要求 (22) 2.5.3 配置过程和解释 (22) 2.5.6 完整配置 (23) 3. IPv4 ACL典型配置指导 (25) 3.1 基本IPv4 ACL典型配置指导 (25) 3.1.1 组网图 (25) 3.1.2 应用要求 (25) 3.1.3 配置过程和解释 (25) 3.1.4 完整配置 (26) 3.1.5 配置注意事项 (26) 3.2 高级IPv4 ACL典型配置指导 (27) 3.2.1 组网图 (28) 3.2.2 应用要求 (28) 3.2.3 配置过程和解释 (28) 3.2.4 完整配置 (29) 3.2.5 配置注意事项 (30) 3.3 二层ACL典型配置指导 (30) 3.3.1 组网图 (31) 3.3.2 应用要求 (31) 3.3.3 配置过程和解释 (31) 3.3.4 完整配置 (31) 3.3.5 配置注意事项 (32) 3.4 用户自定义ACL和流模板典型配置指导 (32) 3.4.1组网图 (33) 3.4.2 应用要求 (33) 3.4.3 配置过程和解释 (33) 3.4.4 完整配置 (34)
H3C交换机常用配置命令大全.doc
一.用户配置:
Juniper_华为_H3C设备维护常用命令
Juniper_华为_H3C设备维护常用命令 1、[Router&Swithc]华为/H3C设备常规巡检命令 #系统时间 display clock #系统以及各单板软件版本 display version #设备温度 display environment #日志信息 display logbuffer #单板运行状态 display device #电源状态 display device #风扇状态 display device #CPU占用状态 display cpu-usage #存占用率 display memory limit #接口流量 display interface #接口、链路状态 display interface #地址分配 display current-configuration interface# #路由扩散 display current-configuration | include ospf #OSPF(Open Shortest Path First)配置 display router id #路由信息 display ip routing-table #端口统计数据 display ip interface #当前配置文件 display current-configuration #保存配置文件 display saved-configuration 端口使用状态 display interface GigabitEthernet/Ten-GigabitEthernet brief VLAN使用状态 display ip interface brief 2、脚本—华为
思科、华为、H3C常用命令对比大全
思科、华为、H3C常用命令对比大全 思科、华为、H3C这些网络设备的命令还是挺多的,不过我们一般用的路由交换机设备都是最简单的了,先学基本命令,再学其他功能命令。路由命令是最基本的命令了。思科、华为、H3C常用命令对比大全
cisco常用命令解释 视图模式介绍: 普通视图 router> 特权视图 router# /在普通模式下输入enable 全局视图 router(config)# /在特权模式下输入config t 接口视图 router(config-if)# /在全局模式下输入int 接口名称例如int s0或int e0 路由协议视图 router(config-route)# /在全局模式下输入router 动态路由协议名称 1、基本配置: router>enable /进入特权模式 router#conf t /进入全局配置模式
router(config)#hostname xxx /设置设备名称就好像给我们的计算机起个名字 router(config)#enable password /设置特权口令 router(config)#no ip domain-lookup /不允许路由器缺省使用DNS解析命令 router(config)#line console 0 /进入控制口的服务模式 router(config-line)#password xxx /要设置console的密码 router(config-line)#login /使能可以登陆 router(config-line)#logging synchronous /日志同步 router(config-line)#exec-timeout 0 0 /设置时间溢出为0 router(config-line)#line vty 0 4 /进入设置telnet服务模式router(config-line)#password xxx /设置telnet的密码 router(config-line)#login /使能可以登陆 router(config-line)#exit /保存退出到特权模式 router(config)# Service password-encrypt /对所有在路由器上输入的口令进行暗文加密
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