User manual
Table Of Contents
- Table of Contents
- About This Guide
- 1 Product Introduction
- 2 Hardware Installation
- 3 Getting Started
- 4 Configuration
- Web-based Management
- Tool Bar > Save Menu
- Tool Bar > Tool Menu
- Tool Bar > Online Help
- Function Tree
- Device Information
- System > System Settings
- System > Serial Port Settings
- System > IPv6 System Settings
- System > IPv6 Route Settings
- System > IPv6 Neighbor Settings
- System > DHCP Auto Configuration
- System > Trap Settings
- System > Port Configuration > Port Settings
- System > Port Configuration > Port Description
- System > Port Configuration > Port Error Disabled
- System > SNMP Settings > SNMP Global State
- System > SNMP Settings > SNMP User Table
- System > SNMP Settings > SNMP Group Table
- System > SNMP Settings > SNMP View Table
- System > SNMP Settings > SNMP Community Table
- System > SNMP Settings > SNMP Host Table
- System > SNMP Settings > SNMP Engine ID
- System > SNMP Settings > SNMP Trap Settings
- System > User Accounts
- System > MAC Address Aging Time
- System > ARP Aging Time Settings
- System > PPPoE Circuit ID Insertion Settings
- System > Web Settings
- System > Telnet Settings
- System > Password Encryption
- System > Ping Test
- System > MAC Notification Settings
- System > System Log Configuration > System Log Settings
- System > System Log Configuration > System Log Server
- System > SMTP Service > SMTP Server Settings
- System > SMTP Service > SMTP Service
- Configuration > 802.1Q VLAN
- Configuration > 802.1Q Management VLAN
- Configuration > VLAN Status
- Configuration > GVRP Settings
- Configuration > GVRP Timer Settings
- Configuration > QinQ > QinQ Settings
- Configuration > QinQ > VLAN Translation CVID Entry Settings
- Configuration > 802.1v Protocol VLAN > 802.1v Protocol Group Settings
- Configuration > 802.1v Protocol VLAN > 802.1v Protocol VLAN Settings
- Configuration > VLAN Trunk Settings
- Configuration > Link Aggregation > Port Trunkings
- Configuration > Link Aggregation > LACP Port Settings
- Configuration > BPDU Protection Settings
- Configuration > IGMP Snooping > IGMP Snooping
- Configuration > IGMP Snooping > IGMP Access Control Settings
- Configuration > IGMP Snooping > ISM VLAN Settings
- Configuration > IGMP Snooping > Host Table
- Configuration > IGMP Snooping > IP Multicast Profile Settings
- Configuration > IGMP Snooping > Limited Multicast Range Settings
- Configuration > IGMP Snooping > Max Multicast Group Settings
- Configuration > MLD Snooping > MLD Snooping Settings
- Configuration > MLD Snooping > MLD Host Table
- Configuration > Port Mirroring
- Configuration > Loopback Detection
- Configuration > SNTP Settings > Time Settings
- Configuration > SNTP Settings > TimeZone Settings
- Configuration > DHCP/BOOTP Relay > DHCP/BOOTP Relay Global Settings
- Configuration > DHCP/BOOTP Relay > DHCP/BOOTP Relay Interface Settings
- Configuration > DHCP Local Relay Settings
- Configuration > DHCPv6 Relay Settings
- Configuration > Firmware Information
- Configuration > Spanning Tree > STP Bridge Global Settings
- Configuration > Spanning Tree > STP Port Settings
- Configuration > Spanning Tree > MST Configuration Identification
- Configuration > Spanning Tree > STP Instance Settings
- Configuration > Spanning Tree > MSTP Port Information
- Configuration > Ethernet OAM > Ethernet OAM Port Settings
- Configuration > Ethernet OAM > Ethernet OAM Event Configuration
- Configuration > DULD > DULD Port Settings
- Configuration > Multicast Forwarding & Filtering > Multicast Forwarding
- Configuration > Multicast Forwarding & Filtering > Multicast Filtering
- QoS > Traffic Control
- QoS > Bandwidth Control
- QoS > CoS Scheduling Mechanism
- QoS > CoS Output Scheduling
- QoS > 802.1p Default Priority
- QoS > 802.1p User Priority
- QoS > DSCP Priority Settings
- QoS > Priority Settings
- QoS > MAC Priority Settings
- QoS > IP Priority Settings
- QoS > IPv6 Priority Settings
- QoS > IPv6 Traffic Class Priority Settings
- QoS > TCP/UDP Port Priority Settings
- QoS > VLAN ID Priority Settings
- QoS > Protocol Priority Settings
- RMON > RMON Basic Settings
- RMON > RMON Ethernet Statistics Configuration
- RMON > RMON History Control Configuration
- RMON > RMON Alarm Configuration
- RMON > RMON Event Configuration
- Security > Trusted Host
- Security > Safeguard Engine
- Security > ARP Spoofing Prevention
- Security > Gratuitous ARP
- Security > Port Security
- Security > SSL Settings
- Security > Smart Binding > Smart Binding Settings
- Security > Smart Binding > Smart Binding
- Security > Smart Binding > White List
- Security > Smart Binding > Black List
- Security > Smart Binding > DHCP Snooping List
- Security > 802.1X > 802.1X Settings
- Security > 802.1X > 802.1X User
- Security > 802.1X > 802.1X Authentication RADIUS
- Security > 802.1X > 802.1X Guest VLAN
- Security > MAC Address Table > Static MAC
- Security > MAC Address Table > Dynamic Forwarding Table
- Security > Access Authentication Control > Authentication Policy Settings
- Security > Access Authentication Control > Application Authentication Settings
- Security > Access Authentication Control > Authentication Server Group
- Security > Access Authentication Control > Authentication Server
- Security > Access Authentication Control > Login Method Lists
- Security > Access Authentication Control > Enable Method Lists
- Security > Access Authentication Control > Local Enable Password Settings
- Security > Traffic Segmentation
- Security > DoS Prevention Settings
- Security > DHCP Server Screening > DHCP Server Screening Port Settings
- Security > DHCP Server Screening > Filter DHCP Server
- Security > SSH Settings > SSH Settings
- Security > SSH Settings > SSH Authmode and Algorithm Settings
- Security > SSH Settings > SSH User Authentication Lists
- Monitoring > Statistics
- Monitoring > Session Table
- Monitoring > CPU Utilization
- Monitoring > Memory Utilization
- Monitoring > Port Utilization
- Monitoring > Packet Size
- Monitoring > Packets > Transmitted (TX)
- Monitoring > Packets > Received (RX)
- Monitoring > Packets > UMB Cast (RX)
- Monitoring > Errors > Received (RX)
- Monitoring > Errors > Transmitted (TX)
- Monitoring > Cable Diagnostics
- Monitoring > System Log
- Monitoring > Browse ARP Table
- Monitoring > Ethernet OAM > Browse Ethernet OAM Event Log
- Monitoring > Ethernet OAM > Browse Ethernet OAM Statistics
- Monitoring > Port Access Control > RADIUS Authentication
- Monitoring > Port Access Control > RADIUS Account Client
- ACL > ACL Configuration Wizard
- ACL > Access Profile List
- ACL > ACL Finder
- ACL > CPU Filter Configuration Wizard
- ACL > CPU Filter Access Profile List
- ACL > CPU Filter Finder
- LLDP > LLDP Global Settings
- LLDP > Basic LLDP Port Settings
- LLDP > 802.1 Extension LLDP Port Settings
- LLDP > 802.3 Extension LLDP Port Settings
- LLDP > LLDP Management Address Settings
- LLDP > LLDP Statistics Table
- LLDP > LLDP Management Address Table
- LLDP > LLDP Local Port Table
- LLDP > LLDP Remote Port Table
- Appendix A - Ethernet Technology
- Appendix B - Ethernet Technology
- Appendix C – Rack mount Instructions
- Appendix D – Cables and Connectors
- Appendix E– Module Specs and Cable Lengths
Appendix A - Ethernet Technology DES-1210 Metro Ethernet Managed Switch User Manual
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Appendix A - Ethernet Technology
This chapter will describe the features of the D-Link and provide some background information about
Ethernet/Fast Ethernet/Gigabit Ethernet switching technology.
Gigabit Ethernet Technology
Gigabit Ethernet is an extension of IEEE 802.3 Ethernet utilizing the same packet structure, format, and
support for CSMA/CD protocol, full duplex, and management objects, but with a tenfold increase in
theoretical throughput of over 100-Mbps Fast Ethernet and a hundredfold increase over 10-Mbps Ethernet.
Since it is compatible with all 10-Mbps and 100-Mbps Ethernet environments, Gigabit Ethernet provides a
straightforward upgrade without wasting existing investments in hardware, software, or trained personnel.
The increased speed and extra bandwidth offered by Gigabit Ethernet is essential in solving network
bottlenecks, which frequently develops as more advanced computer users and newer applications continue
to demand greater network resources. Upgrading key components, such as backbone connections and
servers to Gigabit Ethernet technology, can greatly improve network response times as well as significantly
speed up the traffic between subnets.
Gigabit Ethernet enables fast optical fiber connections to support video conferencing, complex imaging, and
similar data-intensive applications. Likewise, since data transfers occur 10 times faster than Fast Ethernet,
servers outfitted with Gigabit Ethernet NIC’s are able to perform 10 times the number of operations in the
same amount of time.
In addition, the phenomenal bandwidth delivered by Gigabit Ethernet is the most cost-effective method to
take advantage of today and tomorrow’s rapidly improving switching and routing internetworking
technologies. With expected advances in the coming years in silicon technology and digital signal processing,
which will enable Gigabit Ethernet to eventually operate over unshielded twisted-pair (UTP) cabling, a flexible
foundation for the next generation of network technology products will be created. This will outfit your
network with a powerful 1000-Mbps-capable backbone/server connection.
Fast Ethernet Technology
The growing importance of LANs, and the increasing complexity of desktop computing applications are
fueling the need for high performance networks. A number of high-speed LAN technologies have been
proposed to provide greater bandwidth and improve client/server response times. Among them, 100BASE-T
(Fast Ethernet) provides a non-disruptive, smooth evolution from the current 10BASE-T technology. The
non-disruptive and smooth evolution nature, and the dominating potential market base, virtually guarantees
cost-effective and high performance Fast Ethernet solutions.
100Mbps Fast Ethernet is a standard specified by the IEEE 802.3 LAN committee. It is an extension of the
10Mbps Ethernet standard with the ability to transmit and receive data at 100Mbps, while maintaining the
CSMA/CD Ethernet protocol. Since the 100Mbps Fast Ethernet is compatible with all other 10Mbps Ethernet
environments, it provides a straightforward upgrade and utilizes existing investments in hardware, software,
and personnel training.
Switching Technology
Another approach to push beyond the limits of Ethernet technology is the development of switching
technology. A switch bridges Ethernet packets at the MAC address level of the Ethernet protocol transmitting
among connected Ethernet or Fast Ethernet LAN segments.
Switching is a cost-effective way of increasing the total network capacity available to users on a local area
network. A switch increases capacity and decreases network loading by dividing a local area network into
different segments, which won’t compete with each other for network transmission capacity.
The switch acts as a high-speed selective bridge between the individual segments. The switch, without
interfering with any other segments, automatically forwards traffic that needs to go from one segment to
another. By doing this the total network capacity is multiplied, while still maintaining the same network
cabling and adapter cards.