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10/100 Managed Fast Ethernet Switch
with 100FX and Gigabit Connectivity
NS-2260
Optional 100FX Modules
Optional Gigabit Modules
Operation Manual
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The information contained in this document is subject to change without prior notice. Copyright (C). All Rights Reserved. TRADEMARKS Ethernet is a registered trademark of Xerox Corp. WARNING: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment
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Table of Contents 1. Introduction..................................................................8 1.1 Introduction...............................................................................................8 1.2 Features ....................................................................................................9 1.3 Hardware Specifications....................................................................... 10 1.4 Software Specifications ....................................
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3.3.7.2 802.1p Priority.................................................................................. 67 3.3.8 MAC Address Configuration.............................................................68 3.3.8.1 Static MAC Address........................................................................68 3.3.8.2 Filtering MAC Address ...................................................................70 3.4 Protocol Related Configuration ........................................................
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5.5.9 Port Sniffer.........................................................................................135 5.5.10 SNMP ...............................................................................................136 5.5.11 Security Manager...........................................................................139 5.5.12 802.1X Configuration.....................................................................140 5.5.12.1 802.1X PerPort Configuration...................................
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1. Introduction 1.1 Introduction Driven by recent advances in desktop computing technology, today_s network applications have increased in speed, power and the ability to process information. To meet the demands of these more bandwidth-intensive applications, this switch device provides significant increase in performance for your Ethernet and Fast Ethernet network. The switch comes with high number of 10/100 Fast Ethernet switched ports, each capable of transferring information simultaneo
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1.2 Features _ 19-inch rack mountable 24-Port 10/100 managed Fast Ethernet switch with two Giga expansion port slots _ Provides two alternative 100Base-FX port slots for fiber connections _ Non-blocking and store-and-forward switch engine performs forwarding and filtering at full wire speed. _ Supports diversified optional Giga port modules for selection including 10/100/1000 copper type and fiber type _ Provides port control function for auto-negotiation, speed, duplex, and flow control
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1.3 Hardware Specifications 10/100 Switched Ports Port 1 ~ 24, Total : 24 ports 802.3 10Base - T, 802.3u 100Base - TX compliant Shielded RJ-45 with auto MDI-X function Port 23, 24 Alternatives 100Base-FX connectivity 2 expansion module slots - Slot F23, F24 Giga Switched Ports 2 expansion Slots - Slot G1, G2 802.3z and 802.3ab compliant Supports optional 10/100/1000 Copper module Supports optional Giga Fiber modules Port Control Funct
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Speed status Duplex / Collision status Giga Port LED Display Link / Activity status Duplex / Collision status Console Port RS-232, DTE, DB9 Baud : 9600, N, 8, 1, 0, No flow control Dimension 443mm (W) x 245mm (D) x 43mm (H) Power Input Rating 100 ~ 240VAC, 50/60Hz, 50W Input voltage range 90 ~ 264VAC Input frequency 47 ~ 440Hz Power Consumption 17W min. 26W max. o Environmental Operating temperature : 0 ~ 50 C o Storage
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1.4 Software Specifications Management interface In-band SNMP over TCP/IP network In-band Web browser over TCP/IP network In-band Telnet over TCP/IP network Out-of-band via Console port SNMP Traps over TCP/IP network RFC & Protocols IPv4 IP version4 RFC791 TCP Transmission Control Protocol RFC793 UDP User Datagram Protocol RFC768 ARP Ehernet Address Resolution Protocol RFC826 ICMP Internet Control Message Protocol RFC792 SN
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1.4.1 Management Objects List of management objects supported by console and Telnet interfaces : Management Objects Console Telnet Web SNMP Boot diagnostics Yes - - - Login check Yes Yes Yes - Port configuration Yes Yes Yes - Trunk configuration (& LACP) Yes Yes Yes - VLAN configuration Yes Yes Yes - QoS Priority configuration Yes Yes Yes - MAC address aging setting Yes Yes Yes -
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Management Objects Console Telnet Web SNMP Port state - enable/disable Yes Yes Yes Yes Port status - link, speed Yes Yes Yes Yes Port static counters Yes Yes Yes Yes Device Mac address information Yes Yes Yes Yes System firmware version information Yes Yes Yes - System hardware version information Yes Yes Yes - System default configuration version Yes Yes Yes - G1, G2 module information
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1.5 Function Descriptions 1.5.1 LACP Trunking Function The switch provides a trunking function, which is compliant with 802.3ad standard. 802.3ad is a specification from IEEE that allows us to bundle several physical port links together to form one logical port , called a trunk between two devices. It supports Link Aggregation Control Protocol (LACP). IEEE 802.3ad trunking also allows redundant connections between devices to be combined for m ore aggregate bandwidth between devices suppo
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1.5.2 IP Multicast Function Internet Protocol (IP) multicast is a bandwidth-conserving technology that reduces traffic by simultaneously delivering a single stream of information to thousands of corporate recipients and homes. Applications that take advantage of multicast include video conference, corporate communications, distance learning, and distribution of software, stock quotes, and news. IP Multicast delivers source traffic to multiple receivers without adding any additional burden
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IGMP Internet Group Management Protocol (IGMP) is used to dynamically register individual hosts in a multicast group on a particular LAN. Hosts identify group memberships by sending IGMP messages to their local multicast router. Under IGMP, routers listen to IGMP messages and periodically send out queries to discover which groups are active or inactive on a particular subnet. RFC 2236 defines the specification for IGMP Version 2. There are four types of IGMP messages: _ Membership que
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IGMP Snooping IGMP snooping requires the LAN switch to examine, or snoop, some Layer 3 information in the IGMP packets sent between the hosts and the router. When the switch hears the IGMP host report from a host for a particular multicast group, the switch adds the host's port number to the associated multicast table entry. When the switch hears the IGMP leave group message from a host, it removes the host's port from the table entry. Multicast Forwarding In multicast routing, the sou
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1.5.4 Static MAC Address The switch provides Static MAC Address setup function. The static MAC addresses are the MAC addresses which are setup by LAN administrators and are not learned by the switch automatically. The static addresses are stored and referred in switch MAC address table permanently regardless of whether the MAC addresses are physically disconnected to the switch. Applying this function with port security function allows LAN administrator to build a protection mechanism
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1.5.6 VLAN Function Virtual LANs (VLANs) can be viewed as a group of devices on different physical LAN segments which can communicate with each other as if they were all on the same physical LAN segment. It can create a network that is independent of physical location and group users into logical workgroups. The benefits are: _ Confine broadcast traffic and Increased performance _ Improved manageability _ Network tuning and simplification of software configurations _ Physical topology
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1.5.6.2 IEEE 802.1Q VLAN (Tag-based VLAN) Tag-based VLAN is an IEEE 802.1Q specification standard. Therefore, it is possible to create a VLAN across devices from different venders. IEEE 802.1Q VLAN uses a technique to insert a tag into the Ethernet frames. Tag contains a VLAN Identifier (VID) that indicates the VLAN numbers. The switch can classify each received packet as belonging to one and only one VLAN. If the received packet is VLAN-tagged, the packet is classified as belonging to t
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To provide path redundancy, Spanning-Tree Protocol defines a tree that spans all switches in an extended network. Spanning-Tree Protocol forces certain redundant data paths into a standby (blocked) state. If one network segment in the Spanning-Tree Protocol becomes unreachable, or if Spanning-Tree Protocol costs change, the spanning-tree algorithm re-configures the spanning-tree topology and reestablishes the link by activating the standby path. Spanning-Tree Protocol operation is tra