Table of Contents
About This Guide
- Terms/Usage
- Copyright and Trademarks
1 Product Introduction
2 Hardware Installation
3 Getting Started
4 Web-based Switch Configuration
Appendix A - Ethernet Technology
Appendix B - Technical Specifications
- Hardware Specifications
- Features
Appendix C – Rack mount Instructions

D-Link DGS-2000-10 User Manual

Displayed below is the user manual for DGS-2000-10 by D-Link which is a product in the Network Switches category. This manual has pages.

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

Table of Contents

Table of Contents ............................................................................................................................................. i

About This Guide ............................................................................................................................................. 1

Terms/Usage .................................................................................................................................................. 1

Copyright and Trademarks ............................................................................................................................ 1

1 Product Introduction ................................................................................................................................... 2

DGS-2000-10 ................................................................................................................................................. 3

Front Panel ................................................................................................................................................. 3

Rear Panel .................................................................................................................................................. 3

DGS-2000-10P ............................................................................................................................................... 4

Front Panel ................................................................................................................................................. 4

Rear Panel .................................................................................................................................................. 5

DGS-2000-10MP ............................................................................................................................................ 5

Front Panel ................................................................................................................................................. 5

Rear Panel .................................................................................................................................................. 6

DGS-2000-20 ................................................................................................................................................. 6

Front Panel ................................................................................................................................................. 6

Rear Panel .................................................................................................................................................. 7

DGS-2000-26 ................................................................................................................................................. 7

Front Panel ................................................................................................................................................. 7

Rear Panel .................................................................................................................................................. 8

DGS-2000-28 ................................................................................................................................................. 8

Front Panel ................................................................................................................................................. 8

Rear Panel .................................................................................................................................................. 9

DGS-2000-28P ............................................................................................................................................... 9

Front Panel ................................................................................................................................................. 9

Rear Panel ................................................................................................................................................ 10

DGS-2000-28MP .......................................................................................................................................... 10

Front Panel ............................................................................................................................................... 10

Rear Panel ................................................................................................................................................ 11

DGS-2000-52 ............................................................................................................................................... 11

Front Panel ............................................................................................................................................... 12

Rear Panel ................................................................................................................................................ 12

DGS-2000-52MP .......................................................................................................................................... 12

Front Panel ............................................................................................................................................... 12

Rear Panel ................................................................................................................................................ 14

LED Indicators .............................................................................................................................................. 14

2 Hardware Installation ................................................................................................................................ 16

Safety Cautions ............................................................................................................................................ 16

Step 1: Unpacking ........................................................................................................................................ 17

Step 2: Switch Installation ............................................................................................................................ 17

Desktop or Shelf Installation ..................................................................................................................... 17

Rack Installation ....................................................................................................................................... 17

Step 3: Plugging in the AC Power Cord with Power Cord Clip .................................................................... 18

Power Failure ........................................................................................................................................... 21

Grounding the Switch ............................................................................................................................... 21

3 Getting Started ........................................................................................................................................... 23

Management Options ................................................................................................................................... 23

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

Using Web-based Management .................................................................................................................. 23

Supported Web Browsers ........................................................................................................................ 23

Connecting to the Switch .......................................................................................................................... 23

Login Web-based Management ............................................................................................................... 23

Smart Wizard ............................................................................................................................................... 24

Web-based Management ............................................................................................................................. 24

D-Link Network Assistant ............................................................................................................................. 24

4 Web-based Switch Configuration ............................................................................................................ 25

Web-based Management ............................................................................................................................. 25

Tool Bar > Save Menu ................................................................................................................................. 26

Save Configuration ................................................................................................................................... 26

Save Log .................................................................................................................................................. 26

Tool Bar > Tools Menu ................................................................................................................................. 26

Reset System ........................................................................................................................................... 26

Reboot Device .......................................................................................................................................... 26

Configuration Backup and Restore .......................................................................................................... 27

System Log Backup.................................................................................................................................. 27

Firmware Backup and Upgrade ................................................................................................................ 28

Firmware Information................................................................................................................................ 28

Configuration Information ......................................................................................................................... 28

Tool Bar > Online Help ................................................................................................................................. 29

Function Tree ............................................................................................................................................... 29

Device Information.................................................................................................................................... 29

System > System Settings ....................................................................................................................... 30

System > DHCP Auto Configuration ........................................................................................................ 30

System > Port Settings ............................................................................................................................. 31

System > Port Description ........................................................................................................................ 32

System > IP Interface ............................................................................................................................... 32

System > IPv6 Setting > IPv6 System Settings ....................................................................................... 33

System > IPv6 Setting > IPv6 Neighbor Settings ..................................................................................... 33

System > SNMP Settings > SNMP Global State ..................................................................................... 34

System > SNMP Settings > SNMP User Table ........................................................................................ 34

System > SNMP Settings > SNMP Group Table ..................................................................................... 35

System > SNMP Settings > SNMP View Table ....................................................................................... 35

System > SNMP Settings > SNMP Community Table ............................................................................. 36

System > SNMP Settings > SNMP Host Table ........................................................................................ 36

System > SNMP Settings > SNMP Engine ID ......................................................................................... 36

System > SNMP Settings > SNMP Trap Settings .................................................................................... 37

System > User Accounts .......................................................................................................................... 37

System > MAC Address Aging Time ........................................................................................................ 38

System > ARP Aging Time Settings ......................................................................................................... 38

System > PPPoE Circuit ID Insertion Settings ......................................................................................... 38

System > Web Settings ............................................................................................................................ 39

System > Telnet Settings ......................................................................................................................... 39

System > SSH Settings ............................................................................................................................ 40

System > D-Link Discover Protocol Settings ............................................................................................ 40

System > Ping Test .................................................................................................................................. 40

System > Trace Route .............................................................................................................................. 41

System > MAC Notification Settings ........................................................................................................ 41

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

iii

System > System Log Configuration > System Log Settings .................................................................. 42

System > System Log Configuration > System Log Server ..................................................................... 42

System > Time Profile .............................................................................................................................. 43

System > Power Saving ........................................................................................................................... 43

System > IEEE802.3az EEE Settings ...................................................................................................... 44

Configuration > 802.1Q VLAN .................................................................................................................. 44

Configuration > 802.1Q VLAN PVID ........................................................................................................ 46

Configuration > Voice VLAN > Voice VLAN Global Settings ................................................................... 46

Configuration > Voice VLAN > Voice VLAN Port Settings ....................................................................... 48

Configuration > Voice VLAN > Voice Device List ..................................................................................... 49

Configuration > Voice VLAN > LLDE-MED Voice Device List ................................................................. 49

Configuration > Auto Surveillance VLAN > Auto Surveillance Properties................................................ 49

Configuration > Auto Surveillance VLAN > MAC Settings and Surveillance Device ............................... 50

Configuration > Auto Surveillance VLAN > ONVIF IPC Information ........................................................ 50

Configuration > Auto Surveillance VLAN > ONVIF NVR Information ...................................................... 51

Configuration > QinQ > QinQ Settings ..................................................................................................... 51

Configuration > QinQ > VLAN Translation Settings ................................................................................. 52

Configuration > Link Aggregation > Port Trunkings ................................................................................. 53

Configuration > Link Aggregation > LACP Port Settings.......................................................................... 53

Configuration > IGMP Snooping > IGMP Snooping ................................................................................. 54

Configuration > IGMP Snooping > IGMP Access Control Settings .......................................................... 57

Configuration > IGMP Snooping > Host Table ......................................................................................... 57

Configuration > IGMP Snooping > IGMP Snooping Static Group Settings .............................................. 57

Configuration > MLD Snooping > MLD Snooping Settings ...................................................................... 58

Configuration > MLD Snooping > MLD Host Table .................................................................................. 58

Configuration > ISM VLAN Settings ......................................................................................................... 58

Configuration > Jumbo Frame .................................................................................................................. 59

Configuration > Port Mirroring .................................................................................................................. 60

Configuration > Loopback Detection ........................................................................................................ 60

Configuration > SNTP Settings > Time Settings ...................................................................................... 61

Configuration > SNTP Settings > TimeZone Settings .............................................................................. 62

Configuration > DHCP Relay > DHCP Relay Global Settings ................................................................. 63

Configuration > DHCP Relay > DHCP Relay Interface Settings .............................................................. 65

Configuration > DHCP Local Relay Settings ............................................................................................ 65

Configuration > DHCPv6 Relay Settings .................................................................................................. 66

Configuration > Spanning Tree > STP Bridge Global Settings ................................................................ 66

Configuration > Spanning Tree > STP Port Settings ............................................................................... 68

Configuration > Spanning Tree > MST Configuration Identification ......................................................... 69

Configuration > Spanning Tree > STP Instance Settings ........................................................................ 70

Configuration > Spanning Tree > MSTP Port Information ....................................................................... 70

Configuration > 802.3ah EthernetLink OAM > Ethernet OAM Port Settings............................................ 71

Configuration > 802.3ah EthernetLink OAM > Ethernet OAM Event Configuration ................................ 71

Configuration > DDM > DDM Settings ..................................................................................................... 72

Configuration > DDM > DDM Temperature Settings ................................................................................ 73

Configuration > DDM > DDM Voltage Settings Threshold Settings ......................................................... 73

Configuration > DDM > DDM Bias Current Threshold Settings ............................................................... 74

Configuration > DDM > DDM TX Power Threshold Settings ................................................................... 74

Configuration > DDM > DDM RX Power Threshold Settings ................................................................... 75

Configuration > DDM > DDM Status Table .............................................................................................. 75

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

Configuration > DDM > DDM Vendor Info ................................................................................................ 76

Configuration > DULD > DULD Port Settings .......................................................................................... 76

Configuration > Multicast Forwarding & Filtering > Multicast Forwarding ................................................ 76

Configuration > Multicast Forwarding & Filtering > Multicast Filter Mode ................................................ 77

Configuration > Multicast Forwarding & Filtering > IP Multicast Profile Settings ..................................... 77

Configuration > Multicast Forwarding & Filtering > Limited Multicast Range Settings ............................ 78

Configuration > Multicast Forwarding & Filtering > MAX Multicast Group Settings ................................. 78

QoS > Traffic Control ................................................................................................................................ 79

QoS > Bandwidth Control ......................................................................................................................... 80

QoS > QoS Settings ................................................................................................................................. 81

RMON > RMON Basic Settings................................................................................................................ 82

RMON > RMON Ethernet Statistics Configuration ................................................................................... 82

RMON > RMON History Control Configuration ........................................................................................ 82

RMON > RMON Alarm Configuration ...................................................................................................... 83

RMON > RMON Event Configuration ....................................................................................................... 83

Security > Trusted Host ............................................................................................................................ 84

Security > Safeguard Engine.................................................................................................................... 84

Security > Port Security ............................................................................................................................ 84

Security > Port Security FDB Entry .......................................................................................................... 85

Security > 802.1X > 802.1X Settings ....................................................................................................... 85

Security > 802.1X > 802.1X User ............................................................................................................. 87

Security > 802.1X > Radius Accounting Settings ..................................................................................... 87

Security > 802.1X > 802.1X Authentication RADIUS Server ................................................................... 87

Security > 802.1X > 802.1X Guest VLAN ................................................................................................ 88

Security > MAC Address Table > Static MAC .......................................................................................... 89

Security > MAC Address Table > Dynamic Forwarding Table ................................................................. 89

Security > Access Authentication Control > Authentication Policy Settings ............................................ 89

Security > Access Authentication Control > Application Authentication Settings .................................... 90

Security > Access Authentication Control > Authentication Server Group .............................................. 90

Security > Access Authentication Control > Authentication Server ......................................................... 91

Security > Access Authentication Control > Login Method Lists .............................................................. 92

Security > Access Authentication Control > Enable Method Lists ........................................................... 92

Security > Access Authentication Control > Local Enable Password Settings ........................................ 93

Security > Traffic Segmentation ............................................................................................................... 93

Security > DoS Prevention Settings ......................................................................................................... 94

Security > Smart Binding > Smart Binding Settings ................................................................................. 94

Security > Smart Binding > Smart Binding ............................................................................................... 95

Security > Smart Binding > White List ...................................................................................................... 96

Security > Smart Binding > Black List ...................................................................................................... 96

Security > Smart Binding > DHCP Snooping List .................................................................................... 97

Monitoring > Statistics .............................................................................................................................. 97

Monitoring > Session Table ...................................................................................................................... 98

Monitoring > CPU Utilization .................................................................................................................... 98

Monitoring > Memory Utilization ............................................................................................................... 99

Monitoring > Port Utilization ..................................................................................................................... 99

Monitoring > Packet Size ........................................................................................................................ 100

Monitoring > Packets > Transmitted (TX) .............................................................................................. 101

Monitoring > Packets > Received (RX) .................................................................................................. 102

Monitoring > Packets > UMB Cast (RX) ................................................................................................. 103

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

Monitoring > Errors > Received (RX) ..................................................................................................... 104

Monitoring > Errors > Transmitted (TX).................................................................................................. 105

Monitoring > Cable Diagnostics ............................................................................................................. 106

Monitoring > System Log ........................................................................................................................ 107

Monitoring > Browse ARP Table ............................................................................................................ 107

Monitoring > Ethernet OAM > Browse Ethernet OAM Event Log .......................................................... 107

Monitoring > Ethernet OAM > Browse Ethernet OAM Statistics ............................................................ 108

Monitoring > IGMP Snooping > IGMP Snooping Group ........................................................................ 108

Monitoring > IGMP Snooping > IGMP Snooping Host ........................................................................... 109

Monitoring > MLD Snooping > MLD Snooping Group ............................................................................ 109

Monitoring > Port Access Control > RADIUS Authentication ................................................................. 110

Monitoring > Port Access Control > RADIUS Account Client ................................................................ 110

ACL > ACL Configuration Wizard ........................................................................................................... 111

ACL > Access Profile List ....................................................................................................................... 113

ACL > ACL Finder .................................................................................................................................. 114

ACL > CPU Filter Configuration Wizard ................................................................................................. 114

ACL > CPU Filter Access Profile List ..................................................................................................... 115

ACL > CPU Filter Finder ......................................................................................................................... 116

PoE > PoE Port Settings (DGS-2000-10P/10MP/28P/28MP/52MP only) ............................................. 116

PoE > PoE System Settings (DGS-2000-10P/10MP/28P/28MP/52MP only) ........................................ 118

LLDP > LLDP Global Settings ................................................................................................................ 118

LLDP > Basic LLDP Port Settings .......................................................................................................... 119

LLDP > 802.1 Extension LLDP Port Settings ......................................................................................... 120

LLDP > 802.3 Extension LLDP Port Settings ......................................................................................... 120

LLDP > LLDP Management Address Settings ....................................................................................... 121

LLDP > LLDP Statistics Table ................................................................................................................ 122

LLDP > LLDP Management Address Table ........................................................................................... 122

LLDP > LLDP Local Port Table .............................................................................................................. 123

LLDP > LLDP Remote Port Table .......................................................................................................... 124

LLDP > LLDP-MED Settings .................................................................................................................. 125

L3 Functions > IPv4 Static Route ........................................................................................................... 126

L3 Functions > IPv4 Routing Table Finder ............................................................................................. 127

L3 Functions > IPv6 Static Route ........................................................................................................... 127

L3 Functions > IPv6 Routing Table Finder ............................................................................................. 127

Appendix A - Ethernet Technology ............................................................................................................ 129

Gigabit Ethernet Technology ..................................................................................................................... 129

Fast Ethernet Technology .......................................................................................................................... 129

Switching Technology ................................................................................................................................ 129

Appendix B - Technical Specifications ..................................................................................................... 130

Hardware Specifications ............................................................................................................................ 130

Features ..................................................................................................................................................... 134

L2 Features ............................................................................................................... 錯誤! 尚未定義書籤。

L3 Features ............................................................................................................... 錯誤! 尚未定義書籤。

VLAN ......................................................................................................................... 錯誤! 尚未定義書籤。

QoS (Quality of Service) ............................................................................................ 錯誤! 尚未定義書籤。

Security ...................................................................................................................... 錯誤! 尚未定義書籤。

OAM .......................................................................................................................... 錯誤! 尚未定義書籤。

Management .............................................................................................................. 錯誤! 尚未定義書籤。

Table of Contents D-Link DGS-2000 Series Ethernet Switch User Manual

D-Link Green Technology ......................................................................................... 錯誤! 尚未定義書籤。

Appendix C – Rack mount Instructions .................................................................................................... 136

About This Guide D-Link DGS-2000 Series Ethernet Switch User Manual

About This Guide

This guide provides instructions to install the D-Link DGS-2000 series Ethernet Switch, and to configure

Web-based Management step-by-step.

Note: T

he model you have purchased may

appear slightly different from the illustrations

shown in the document. Refer to the Product

Instruction and Technical Specification sections

for

detailed information about your switch, its

components, network connections, and technical

specifications.

This guide is mainly divided into four parts:

1. Hardware Installation: Step-by-step hardware installation procedures.

2. Getting Started: A startup guide for basic switch installation and settings.

3. Web Configuration: Information about the function descriptions and configuration settings via Web.

4. Command Line Interface: Information about the function descriptions and configuration settings via

Telnet.

Terms/Usage

In this guide, the term “Switch” (first letter capitalized) refers to the Smart Switch, and “switch” (first letter

lower case) refers to other Ethernet switches. Some technologies refer to terms “switch”, “bridge” and

“switching hubs” interchangeably, and both are commonly accepted for Ethernet switches.

A NOTE indicates important

information that

helps a better use of the device.

A CAUTION indicates potential property damage

or personal injury.

Information in this document is subjected to change without notice.

Reproduction in any manner whatsoever without the written permission of D-Link Corporation is strictly

forbidden.

Trademarks used in this text: D-Link and the D-LINK logo are trademarks of D-Link Corporation; Microsoft

and Windows are registered trademarks of Microsoft Corporation.

Other trademarks and trade names may be used in this document to refer to either the entities claiming the

marks and names or their products. D-Link Corporation disclaims any proprietary interest in trademarks and

trade names other than its own.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

1 Product Introduction

Thank you and congratulations on your purchase of D-Link DGS-2000 Series Ethernet Switch Products.

D-Link's next generation DGS-2000 Series Ethernet switch series blends plug-and-play simplicity with

exceptional value and reliability for small and medium-sized business (SMB) networking. All models are

housed in a new style rack-mount metal case with easy-to-view front panel diagnostic LEDs, and provides

advanced features including network security, traffic segmentation, QoS and versatile management.

Flexible Port Configurations. The DGS-2000 series is the new generation of DGS-2000 Ethernet Switch

series. DGS-2000 series including 10/100/1000BASE-T RJ-45 ports, 100/1000 Mbps combo ports, and

100/1000 Mbps SFP ports. The DGS-2000-10, DGS-2000-26, DGS-2000-10P, and DGS-2000-10MP models

feature 2 100/1000 Mbps SFP ports, while all other DGS-2000 Series models feature 4 GbE/SFP combo

ports, allowing you to choose the most suitable media type for your requirements.

D-Link Green Technology. D-Link Green devices are about providing eco-friendly alternatives without

compromising performance. D-Link Green Technology includes a number of innovations to reduce energy

consumption on DGS-2000 series such as shutting down a port, or turning off some LED indicators, or

adjusting the power usage according to the Ethernet cable connected to it.

Extensive Layer 2 Features. Implemented as complete L2 devices, these switches include functions such

as IGMP snooping, port mirroring, Spanning Tree, 802.3ad LACP and Loopback Detection to enhance

performance and network resiliency.

Traffic Segmentation, QoS and Auto Surveillance VLAN. The switches support 802.1Q VLAN standard

tagging to enhance network security and performance. The switches also support 802.1p priority queues,

enabling users to run bandwidth-sensitive applications such as streaming multimedia by prioritizing that

traffic in network. These functions allow switches to work seamlessly with VLAN and 802.1p traffic in the

network. Auto Surveillance VLAN will automatically place the vedio traffic from pre-defined IP surveillance

devices to an assigned VLAN with higher priority, so it can be separated from normal data traffic. Asymmetric

VLAN is implemented in these switches for a more efficient use of shared resources, such as server or

gateway devices.

Network Security. D-Link’s innovative Safeguard Engine function protects the switches against traffic

flooding caused by virus attacks. Additional features like 802.1X port-based authentication provide access

control of the network with external RADIUS servers. ACL is a powerful tool to screen unwanted IP or MAC

traffic. Storm Control can help to keep the network from being overwhelmed by abnormal traffic. Port

Security is another simple but useful authentication method to maintain the network device integrity.

Versatile Management. The new generation of D-Link DGS-2000 Ethernet Switches provides growing

businesses simple and easy management of their network. The Web-Based management interface allows

administrators to remotely control their network down to the port level. The intuitive easily allows customers

to discover multiple D-Link DGS-2000 Ethernet Switches in the same L2 network segment.

With this utility, users do not need to change the IP address of PC and provides easy initial setting of smart

switches. The switches within the same L2 network segment connected to user’s local PC are displayed on

the screen for instant access. It allows extensive switch configuration setting, and basic configuration of

discovered devices such as a password change or firmware upgrade.

Users can also access the Switch via Telnet. Basic tasks such as changing the Switch IP address, resetting

the settings to factory defaults, setting the administrator password, rebooting the Switch, or upgrading the

Switch firmware can be performed using the Command Line Interface (CLI)

In addition, users can utilize the SNMP MIB (Management Information Base) to poll the switches for

information about the status, or send out traps of abnormal events. SNMP support allows users to integrate

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

the switches with other third-party devices for management in an SNMP-enabled environment. D-Link DGS-

2000 Series Ethernet Switches provides easy-to-use graphic interface and facilitates the operation efficiency.

DGS-2000-10

8-Port 10/100/1000Mbps, plus 2 SFP Ports (100/1000Mbps) Ethernet switch.

Front Panel

Figure 1.1 – DGS-2000-10 Front Panel

The front panel of the DGS-2000-10 switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Port Link/Act/Speed LED (1-8): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (9F, 10F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.2 – DGS-2000-10 Rear Panel

Power: Connect the supplied AC power cable to this port.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

DGS-2000-10P

8-Port 10/100/1000Mbps, plus 2 SFP Ports (100/1000Mbps) Ethernet PoE switch.

Front Panel

Figure 1.3 – DGS-2000-10P Front Panel

The front panel of the DGS-2000-10P switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• PoE Max: The solid amber of PoE Max LED indicates the Switch reaches the maximum power budget

defined by the administrator via PoE System Settings page of Web GUI or the default power budget of

65 Watts. The blinking amber of PoE Max LED represents the switch is in guradband mode (available

power left is less 7 watts).

• Port Link/Act/Speed LED (1-8): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (9F-10F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Mode: By pressing the Mode button, the Port LED will switch between Link/Act and PoE modes.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: The port 1 ~ port 8 are PoE ports. When user press the

Mode button to PoE mode, only port 1 ~ port 8 will light up.

CAUTION: This equipment can

be connected only to PoE

networks without routing to the outside plant.

L’équipement est conçu pour une installation dans un bâtiment et

ne doit pas être connecté à des réseaux exposés (installations

extérieures), notamment des environnements de campus, et l’ITE

doit être connecté uniquement à des réseaux PoE sans

acheminement vers une installation extérieure." ou équivalent.

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

DNA3.x.x.x)) to download the image or call D-Link Technical

Support for further help.

Rear Panel

Figure 1.4 – DGS-2000-10P Rear Panel

Power: Connect the supplied AC power cable to this port.

DGS-2000-10MP

8-Port 10/100/1000Mbps, plus 2 SFP Ports (100/1000Mbps) Ethernet PoE switch.

Front Panel

Figure 1.5 – DGS-2000-10MP Front Panel

The front panel of the DGS-2000-10MP switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Fan Error: The FAN LED shows the status of the fans, light off indicates all fans work fine and the red

light indicates that one or multiple fans are working abnormally.

• PoE Max: The solid amber of PoE Max LED indicates the Switch reaches the maximum power budget

defined by the administrator via PoE System Settings page of Web GUI or the default power budget of

130 Watts. The blinking amber of PoE Max LED represents the switch is in guradband mode (available

power left is less 7 watts).

• Port Link/Act/Speed LED (1-8): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (9F-10F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Mode: By pressing the Mode button, the Port LED will switch between Link/Act and PoE modes.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

NOTE: The port 1 ~ port 8 are PoE ports. When user press the

Mode button to PoE mode, only port 1 ~ port 8 will light up.

CAUTION: This equipment can

be connected only to PoE

networks without routing to the outside plant.

L’équipement est conçu pour une installation dans un bâtiment et

ne doit pas être connecté à des réseaux exposés (installations

extérieures), notamment des environnements de campus, et l’ITE

doit être connecté uniquement à des réseaux PoE sans

acheminement vers une installation extérieure." ou équivalent.

NOTE: Once user enter in loader mode, you can use DNA tool

(standal

one version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.6 – DGS-2000-10MP Rear Panel

Power: Connect the supplied AC power cable to this port.

DGS-2000-20

20-Port 10/100/1000Mbps, includes 4 SFP Combo Ports (100/1000Mbps) Ethernet Switch.

Front Panel

Figure 1.7 – DGS-2000-20 Front Panel

The front panel of the DGS-2000-20 switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Port Link/Act/Speed LED (1-20): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (16F-20F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.8 – DGS-2000-20 Rear Panel

Power: Connect the supplied AC power cable to this port.

DGS-2000-26

24-Port 10/100/1000Mbps plus 2 SFP Ports (100/1000Mbps) Ethernet Switch.

Front Panel

Figure 1.9 – DGS-2000-26 Front Panel

The front panel of the DGS-2000-26 switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Port Link/Act/Speed LED (1-24): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (25F-26F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.10 – DGS-2000-26 Rear Panel

Power: Connect the supplied AC power cable to this port

DGS-2000-28

28-Port 10/100/1000Mbps includes 4 SFP Combo Ports (100/1000Mbps) Ethernet Switch.

Front Panel

Figure 1.11 – DGS-2000-28 Front Panel

The front panel of the DGS-2000-28 switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Port Link/Act/Speed LED (1-28): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (25F-28F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL li

sted Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-dessous ou son

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

équivalent :« Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.12 – DGS-2000-28 Rear Panel

Power: Connect the supplied AC power cable to this port

DGS-2000-28P

28-Port 10/100/1000Mbps includes 4 SFP Combo Ports (100/1000Mbps) Ethernet PoE Switch.

Front Panel

Figure 1.13 – DGS-2000-28P Front Panel

The front panel of the DGS-2000-28P switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Fan Error: The FAN LED shows the status of the fans, light off indicates all fans work fine and the red

light indicates that one or multiple fans are working abnormally.

• PoE Max: The solid amber of PoE Max LED indicates the Switch reaches the maximum power budget

defined by the administrator via PoE System Settings page of Web GUI or the default power budget of

193 Watts. The blinking amber of PoE Max LED represents the switch is in guradband mode (available

power left is less 7 watts).

• Port Link/Act/Speed LED (1-28): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (25F-28F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Mode: By pressing the Mode button, the Port LED will switch between Link/Act and PoE modes.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: The port 1 ~ port 24 are PoE ports. When user press the

Mode button to PoE mode, only port 1 ~ port 24 will light up.

CAUTION: This equipment can

be connected only to PoE

networks without routing to the outside plant.

L’équipement est conçu pour une installation dans un bâtiment et

ne doit pas

être connecté à des réseaux exposés (installations

extérieures), notamment des environnements de campus, et l’ITE

doit être connecté uniquement à des réseaux PoE sans

acheminement vers une installation extérieure." ou équivalent.

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.14 – DGS-2000-28P Rear Panel

Power: Connect the supplied AC power cable to this port

DGS-2000-28MP

28-Port 10/100/1000Mbps includes 4 SFP Combo Ports (100/1000Mbps) Ethernet PoE Switch.

Front Panel

Figure 1.15 – DGS-2000-28MP Front Panel

The front panel of the DGS-2000-28MP switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Fan Error: The FAN LED shows the status of the fans, light off indicates all fans work fine and the red

light indicates that one or multiple fans are working abnormally.

• PoE Max: The solid amber of PoE Max LED indicates the Switch reaches the maximum power budget

defined by the administrator via PoE System Settings page of Web GUI or the default power budget of

370 Watts. The blinking amber of PoE Max LED represents the switch is in guradband mode (available

power left is less 7 watts).

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

• Port Link/Act/Speed LED (1-28): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Mode: By pressing the Mode button, the Port LED will switch between Link/Act and PoE modes.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: The port 1 ~ port 24 are PoE ports. When user press the

Mode button to PoE mode, only port 1 ~ port 24 will light up.

CAUTION: This equipment can

be connected only to PoE

networks without routing to the outside plant.

L’équipement est conçu pour une installation dans un bâtiment et

ne doit pas être connecté à des réseaux exposés (installations

extérieures), notamment des environnements de campus, et l’ITE

doit être connecté uniquement à des réseaux PoE sans

acheminement vers une installation extérieure." ou équivalent.

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.16 – DGS-2000-28MP Rear Panel

Power: Connect the supplied AC power cable to this port

DGS-2000-52

52-Port 10/100/1000Mbps includes 4 SFP Combo Ports (100/1000Mbps) Ethernet Switch.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

Front Panel

Figure 1.17 – DGS-2000-52 Front Panel

The front panel of the DGS-2000-52 switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Port Link/Act/Speed LED (1-52): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (49F-52F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :« Ce produit est

destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

Rear Panel

Figure 1.18 – DGS-2000-52 Rear Panel

Power: Connect the supplied AC power cable to this port

DGS-2000-52MP

52-Port 10/100/1000Mbps includes 4 SFP Combo Ports (100/1000Mbps) Ethernet PoE Switch.

Front Panel

Figure 1.19 – DGS-2000-52MP Front Panel

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

The front panel of the DGS-2000-52MP switch consists out of the following:

• Power LED : The Power LED lights up when the Switch is connected to a power source.

• Fan Error: The FAN LED shows the status of the fans, light off indicates all fans work fine and the red

light indicates that one or multiple fans are working abnormally.

• PoE Max: The solid amber of PoE Max LED indicates the Switch reaches the maximum power budget

defined by the administrator via PoE System Settings page of Web GUI or the default power budget of

370 Watts. The blinking amber of PoE Max LED represents the switch is in guradband mode (available

power left is less 7 watts).

• Port Link/Act/Speed LED (1-52): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When a port has an amber light, this indicates that the port is running on 10M or 100M. When

it has a green light it is running on 1000M.

• Port Link/Act/Speed LED (49F-52F): The Link/Act/Speed LED flashes, which indicates a network link

through the corresponding port. Blinking indicates that the Switch is either sending or receiving data to

the port. When the port LED glows in amber, it indicates the port is running on 100M. When the port

LED glows in green, it is running on 1000Mbps.

• Mode: By pressing the Mode button, the Port LED will switch between Link/Act and PoE modes.

• Reset: Press the Reset button for 1~5 seconds to reset the Switch back to the default settings and led

will be solid light with amber for 1 second.

CAUTION: The MiniGBIC ports should use UL

listed Optical

Transceiver product, Rated Laser Class I. 3.3Vdc.

Si le transceiveur optique n'est pas livré avec l'appareil, le manuel

d'utilisation doit comporter la description ci-

dessous ou son

équivalent :«

Ce produit est destiné à être utilisé avec un

transceiveur optique homologué UL,tension DC3.3V, classe laser

NOTE: The port 1 ~ port 48 are PoE ports. When user press the

Mode button to PoE mode, only port 1 ~ port 48 will light up.

CAUTION: This equipment can

be connected only to PoE

networks without routing to the outside plant.

L’équipement est conçu pour une installation dans un bâtiment et

ne doit pas être connecté à des réseaux exposés (installations

extérieures), notamment des environnements de campus, et l’ITE

doit être connecté uniquement à des réseaux PoE sans

acheminement vers une installation extérieure." ou équivalent.

NOTE: Once user enter in loader mode, you can use DNA tool

(standalone version 2.0.2.4 only (No support by Chrome

DNA3.x.x.x)) to download the image or call D-

Link Technical

Support for further help.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

Rear Panel

Figure 1.20 – DGS-2000-52MP Rear Panel

Power: Connect the supplied AC power cable to this port

LED Indicators

The Switch supports LED indicators for Power, Fan, and Link/Act for each port. The following shows the LED

indicators for the DGS-2000 series Ethernet Switch along with an explanation of each indicator.

Figure 1.21 –LED Indicators on DGS-2000 series

Location LED Indicative Color Status Description

Per Device

Power Green

Solid Light

Power on

Light off Power off

Fan Error Red Solid light The fan has runtime failure and is

brought offline.

PoE Max. Amber

Solid light

The PoE Max LED lights up when

the total PoE output of Switch

reached or exceeded:

DGS-2000-10P: 65 Watts

DGS-2000-10MP: 130 Watts

DGS-2000-28P: 193 Watts

DGS-2000-28MP and DGS-2000-

52MP: 370 Watts

In the meantime, no additional PoE

device can be supported.

Blinking

Amber

Total PoE output of Switch reached

guard band mode. (Max. PoE

budget < 7 Watts )

Light off

When the system power usage

does not reach the guard band

range.

LED Per

10/100/1000

Mbps

Copper Port

Link/Act Green/Amber

Solid

Green

When there is a secure 1000Mbps

Ethernet connection (or link) at any

of the ports.

Blinking

Green

When there is reception or

transmission (i.e. Activity—Act) of

data occurring at a 1000Mbps

Ethernet connected port.

Solid

Amber

When there is a secure

10/100Mbps Ethernet connection

(or link) at any of the ports.

Blinking

Amber

When there is reception or

transmission (i.e. Activity—Act) of

data occurring at a 10/100Mbps

Ethernet connected port.

1 Product Introduction D-Link DGS-2000 Series Ethernet Switch User Manual

Light off No link.

PoE Mode

Green Solid Light

Power feeding.

Amber Solid Light

Error Condition.

Off Solid Off No Power feeding.

LED Per

100/1000Mbps

SFP Port

Link/Act

Green/Amber

Solid

Green

When there is a secure 1000Mbps

Ethernet connection (or link) at any

of the ports.

Blinking

Green

When there is reception or

transmission (i.e. Activity—Act) of

data occurring at a 1000Mbps

Ethernet connected port.

Solid

Amber

When there is a secure 100Mbps

Ethernet connection (or link) at any

of the ports.

Blinking

Amber

When there is reception or

transmission (i.e. Activity—Act) of

data occurring at a 100Mbps

Ethernet connected port.

Off Solid off No link.

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

2 Hardware Installation

This chapter provides unpacking and installation information for the D-Link DGS-2000 Series Ethernet

Switch.

Safety Cautions

To reduce the risk of bodily injury, electrical shock, fire and damage to the equipment, observe the following

precautions:

• Observe and follow service markings

 Do not service any product except as explained in your system documentation.

 Opening or removing covers that are marked with the triangular symbol with a lightning bolt may

expose you to electrical shock.

• Only a trained service technician should service components inside these compartments.

• If any of the following conditions occur, unplug the product from the electrical outlet and replace the

part or contact your trained service provider:

 The power cable, extension cable, or plug is damaged.

 An object has fallen into the product.

 The product has been exposed to water.

 The product has been dropped or damaged.

 The product does not operate correctly when you follow the operating instructions.

• Keep your system away from radiators and heat sources. Also, do not block cooling vents.

• Do not spill food or liquids on your system components, and never operate the product in a wet

environment. If the system gets wet, contact your trained service provider.

• Do not push any objects into the openings of your system. Doing so can cause fire or electric shock by

shorting out interior components.

• Use the product only with approved equipment.

• Allow the product to cool before removing covers or touching internal components.

• Operate the product only from the type of external power source indicated on the electrical ratings label.

If you are not sure of the type of power source required, consult your service provider or local power

company.

• Also, be sure that attached devices are electrically rated to operate with the power available in your

location.

• Use only approved power cable(s). If you have not been provided with a power cable for your system or

for any AC powered option intended for your system, purchase a power cable that is approved for use

in your country. The power cable must be rated for the product and for the voltage and current marked

on the product’s electrical ratings label. The voltage and current rating of the cable should be greater

than the ratings marked on the product.

• To help prevent electric shock, plug the system and peripheral power cables into properly grounded

electrical outlets.

• These cables are equipped with three-prong plugs to help ensure proper grounding. Do not use

adapter plugs or remove the grounding prong from a cable. If you must use an extension cable, use a

3-wire cable with properly grounded plugs.

• Observe extension cable and power strip ratings. Make sure that the total ampere rating of all products

plugged into the extension cable or power strip does not exceed 80 percent of the ampere ratings limit

for the extension cable or power strip.

• To help protect your system from sudden, transient increases and decreases in electrical power, use a

surge suppressor, line conditioner, or uninterruptible power supply (UPS).

• Position system cables and power cables carefully; route cables so that they cannot be stepped on or

tripped over. Be sure that nothing rests on any cables.

• Do not modify power cables or plugs. Consult a licensed electrician or your power company for site

modifications.

• Always follow your local/national wiring rules.

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

• When connecting or disconnecting power to hot-pluggable power supplies, if offered with your system,

observe the following guidelines:

 Install the power supply before connecting the power cable to the power supply.

 Unplug the power cable before removing the power supply.

 If the system has multiple sources of power, disconnect power from the system by unplugging all

power cables from the power supplies.

• Move products with care; ensure that all casters and/or stabilizers are firmly connected to the system.

Avoid sudden stops and uneven surfaces.

Step 1: Unpacking

Open the shipping carton and carefully unpack its contents. Please consult the packing list located in the

User Manual to make sure all items are present and undamaged. If any item is missing or damaged, please

contact your local D-Link reseller for replacement.

One D-Link DGS-2000 Series Ethernet Switch

One Multilingual Getting Started Guide

User Guide CD

Power cord and Power Cord Retainer

Rack-mount kit and rubber feet

If any item is found missing or damaged, please contact the local reseller for replacement.

Step 2: Switch Installation

For safe switch installation and operation, it is recommended that you:

Visually inspect the power cord to see that it is secured fully to the AC power connector.

Make sure that there is proper heat dissipation and adequate ventilation around the switch.

Do not place heavy objects on the switch.

Desktop or Shelf Installation

When installing the switch on a desktop or shelf, the rubber feet included with the device must be attached

on the bottom at each corner of the device’s base. Allow enough ventilation space between the device and

the objects around it.

Figure 2.1 – Attach the adhesive rubber pads to the bottom

Rack Installation

The switch can be mounted in an EIA standard size 19-inch rack, which can be placed in a wiring closet with

other equipment. To install, attach the mounting brackets to the switch’s side panels (one on each side) and

secure them with the screws provided (please note that these brackets are not designed for palm size

switches).

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 2.2 – Attach the mounting brackets to the Switch

Then, use the screws provided with the equipment rack to mount the switch in the rack.

Figure 2.3 – Mount the Switch in the rack or chassis

Please be aware of following safety Instructions when installing:

A) Elevated Operating Ambient - If installed in a closed or multi-unit rack assembly, the operating ambient

temperature of the rack environment may be greater than room ambient. Therefore, consideration should be

given to installing the equipment in an environment compatible with the maximum ambient temperature (Tma)

specified by the manufacturer.

B) Reduced Air Flow - Installation of the equipment in a rack should be such that the amount of air flow

required for safe operation of the equipment is not compromised.

C) Mechanical Loading - Mounting of the equipment in the rack should be such that a hazardous condition is

not achieved due to uneven mechanical loading.

D) Circuit Overloading - Consideration should be given to the connection of the equipment to the supply

circuit, and the effect that overloading of the circuits might have on overcurrent protection and supply wiring.

Appropriate consideration of equipment nameplate ratings should be used when addressing this concern.

E) Reliable Earthing - Reliable earthing of rack-mounted equipment should be maintained. Particular

attention should be given to supply connections other than direct connections to the branch circuit (e.g. use

of power strips)."

Step 3: Plugging in the AC Power Cord with Power Cord Clip

To prevent accidental removal of the AC power cord, it is recommended to install the power cord clip

together with the power cord.

A) With the rough side facing down, insert the Tie Wrap into the hole below the power socket.

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 2.4 – Insert Tie Wrap to the Switch

B) Plug the AC power cord into the power socket of the Switch.

Figure 2.5 – Connect the power cord to the Switch

C) Slide the Retainer through the Tie Wrap until the end of the cord.

Figure 2.6 – Slide the Retainer through the Tie Wrap

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

D) Circle the tie of the Retainer around the power cord and into the locker of the Retainer.

Figure 2.7 – Circle around the power cord

E) Fasten the tie of the Retainer until the power cord is secured.

Figure 2.8 – Secure the power cord

F) Users may now connect the AC power cord to an electrical outlet (preferably one that is grounded and

surge protected).

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 2.9 – Plugging the switch into an outlet

Power Failure

As a precaution, the switch should be unplugged in case of power failure. When power is resumed, plug the

switch back in.

Grounding the Switch

This section describes how to connect the DGS-2000 Series Switch to ground. You must complete this

procedure before powering your switch.

Required Tools and Equipment

• Ground screws (included in the accessory kit): One M4 x 6 mm (metric) pan-head screw.

• Ground cable (not included in the accessory kit): The grounding cable should be sized according to

local and national installation requirements. Depending on the power supply and system, a 12 to 6

AWG copper conductor is required for U.S installation. Commercially available 6 AWG wire is

recommended. The length of the cable depends on the proximity of the switch to proper grounding

facilities.

• A screwdriver (not included in the accessory kit)

The following steps let you connect the switch to a protective ground:

Step 1: Verify if the system power is off.

Step 2: Use the ground cable to place the #8 terminal lug ring on top of the ground-screw opening, as

seen in the figure below.

Step 3: Insert the ground screw into the ground-screw opening.

Step 4: Using a screwdriver, tighten the ground screw to secure the ground cable to the switch.

Step 5: Attach the terminal lug ring at the other end of the grounding cable to an appropriate grounding

stud or bolt on rack where the switch is installed.

Step 6: Verify if the connections at the ground connector on the switch and the rack are securely

attached.

Figure 2.10 – Connect a Grounding Cable

CAUTION: The equipment power supply cord shall be connected

to a socket-outlet with earthing connection.

2 Hardware Installation D-Link DGS-2000 Series Ethernet Switch User Manual

Le cordon d'alimentation de l'équipement doit être branché sur une

prise de courant dotée d'une connexion à la terre.

3 Getting Started D-Link DGS-2000 Series Ethernet Switch User Manual

3 Getting Started

This chapter introduces the management interface of D-Link DGS-2000 Series Ethernet Switch.

Management Options

The D-Link DGS-2000 Series Ethernet Switch can be managed through any port on the device by using the

Web-based

Management.

Each switch must be assigned its own IP Address, which is used for communication with Web-Based

Management or a SNMP network manager. The PC should have an IP address in the same range as the

switch. Each switch can allow up to four users to access to the Web-Based Management concurrently.

Please refer to the following installation instructions for the Web-based Management.

Using Web-based Management

After a successful physical installation, you can configure the Switch, monitor the network status, and display

statistics using a web browser.

Supported Web Browsers

The embedded Web-based Management currently supports the following web browsers:

Web Browser via IE8(or later version), Firefox, Chrome and Safari.

Connecting to the Switch

You will need the following equipment to begin the web configuration of your device:

1. A PC with a RJ-45 Ethernet connection

2. A standard Ethernet cable

Connect the Ethernet cable to any of the ports on the front panel of the switch and to the Ethernet port on the

PC.

Figure 3.1 – Connected Ethernet cable

In order to login and configure the switch via an Ethernet connection, the PC must have an IP address in the

same subnet as the switch. For example, if the switch has an IP address of 10.90.90.90, the PC should have

an IP address of 10.x.y.z (where x/y is a number between 0 ~ 254 and z is a number between 1 ~ 254), and

a subnet mask of 255.0.0.0. There are two ways to launch the Web-based Management, you may either click

the Web Access button at the top of the SmartConsole Utility or open the web browser and enter 10.90.90.90

(the factory-default IP address) in the address bar. Then press <Enter>.

3 Getting Started D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 3.2 –Enter the IP address 10.90.90.90 in the web browser

NOTE: The switch's factory default IP address is

10.90.90.90 with a subnet mask of 255.0.0.0 and

a default gateway of 0.0.0.0.

The web configuration can also be accessed through the SmartConsole Utility. Open the SmartConsole

Utility and double-click the switch as it appears in the Monitor List. This will automatically load the web

configuration in your web browser.

When the following logon dialog box appears, enter the password of the Web-based Management interface

then click OK.

By default, the username and password are null.

Figure 3.3 – Logon Dialog Box

Smart Wizard

After a successful login, the Smart Wizard will guide you through essential settings of the D-Link DGS-2000

Series Ethernet Switch. Please refer to the Smart Wizard Configuration section for details.

Web-based Management

By clicking the Exit button in the Smart Wizard, you will enter the Web-based Management interface. Please

refer to Chapter 4 Web-based Switch Configuration for detailed instructions.

D-Link Network Assistant

D-Link Network Assistant (DNA) is a program that is used to discover switches which are in the same layer 2

network segment as your PC. You can download the DNA utility from http://tools.dlink.com/intro/dna/. Please

go to above link for details.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

4 Web-based Switch Configuration

The features and functions of the D-Link DGS-2000 Series Ethernet Switch can be configured for optimum

use through the Web-based Management Utility.

Web-based Management

After clicking the Exit button in Smart Wizard you will see the screen below:

Figure 4.1 – Web-based Management

The above image is the Web-based Management screen. The three main areas are the Tool Bar on top, the

Function Tree, and the Main Configuration Screen.

Item Area Description

Tool Bar To provide a quick and convenient way for essential utility functions

like firmware and configuration management.

Function Tree By choosing different functions in the Function Tree, you can change

all the settings in the Main Configuration Screen.

Main Configuration Screen To display the current status of your Switch by clicking the model name

on top of the function tree.

At the upper right corner of the screen the username and current IP address will be displayed.

Under the username is the Logout button. Click this to end this session.

NOTE:

If you close the web browser without

clicking the Logout button first, then it will be seen

as an abnormal exit and the login session will still

be occupied.

Finally, by clicking on the D-Link logo at the upper-left corner of the screen you will be redirected to the local

D-Link website.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Tool Bar > Save Menu

The Save Menu provides Save Configuration and Save Log functions.

Figure 4.2 – Save Menu

Save Configuration

Select to save the entire configuration changes to configuration ID 1 or 2 you have made to the device to

switch’s non-volatile RAM.

Figure 4.3 – Save Configuration

Save Log

Save the log entries to your local drive and a pop-up message will prompt you for the file path. You can view

or edit the log file by using text editor (e.g. Notepad).

Figure 4.4 – Save Log

Tool Bar > Tools Menu

The Tools Menu offers global function controls such as Reset System, Reboot Device, Configuration Backup

& Restore, System Log Backup, Firmware Backup & Upgrade, Firmware Information and Configuration

Information.

Figure 4.5 – Tool Menu

Reset System

Provide variable safe reset options for the Switch. User may chose any one of these options to perform

system reset.

Figure 4.6 – Tool Menu > Reset System

Reboot Device

Provide a safe way to reboot the system. Select YES or NO to save the current settings before action. And

click Reboot to restart the switch.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.7 – Tool Menu > Reboot Device

Configuration Backup and Restore

Allow the current configuration settings to be saved to a file (not including the password), and if necessary,

you can restore configuration settings from this file. Two methods can be selected: HTTP or TFTP.

Figure 4.8 – Tool Menu > Configure Backup and Restore

HTTP: Backup or restore the configuration file to or from your local drive.

Click Backup to save the current settings to your disk.

Click Choose File to browse your inventories for a saved backup settings file.

Click Restore after selecting the backup settings file you want to restore.

TFTP: TFTP (Trivial File Transfer Protocol) is a file transfer protocol that allows you to transfer files to a

remote TFTP server. TFTP Server IP Address with IPv4 or IPv6 address and TFTP File Name for the

configuration file you want to save to / restore from.

Click Backup to save the current settings to the TFTP server.

Click Restore after selecting the backup settings file you want to restore.

Note: Switch will reboot after restore, and

all current configurations will be lost.

System Log Backup

Backup system logs via HTTP or TFTP.

Figure 4.9 – Tool Menu > System Log Backup

HTTP: Backup log to your local drive directly from HTTP.

TFTP: Specify IP address (IPv4 or IPv6) and file name. Click Backup to start process.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Firmware Backup and Upgrade

Allow for the firmware to be saved, or for an existing firmware file to be uploaded to the Switch. Two methods

can be selected: HTTP or TFTP.

Figure 4.10 – Tool Menu > Firmware Backup and Upload

HTTP: Backup or upgrade the firmware to or from your local PC drive.

Backup firmware to file: Select image_id 1 or image_id 2.

Click Backup to save the firmware to your disk.

Click Choose File to browse your inventories for a saved firmware file.

Click Upgrade after selecting the firmware file you want to restore.

TFTP: Specifies the Image_id 1 or Image_id 2 to backup or upgrade the firmware to or from a remote TFTP

server. Specifies TFTP Server IP Address with IPv4 or IPv6 address and TFTP File Name for the

configuration file you want to save to / restore from.

Backup firmware to file: Select Image_id1 or Image_id 2.

Click Backup to save the firmware to the TFTP server.

Click Upgrade after selecting the firmware file you want to restore.

NOTE: Do not disconnect the PC or remove the

power cord from device until the upgrade

completes. The Switch may crash if the

Firmware upgrade is incomplete.

Firmware Information

This page displays the firmware information and allow user to identify the image used for system boot.

Figure 4.11 – Tool Menu > Firmware Information

Configuration Information

This page displays the configuration information and allow user to identify the config used for system boot.

Figure 4.12 – Tool Menu > Configuration Information

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Tool Bar > Online Help

The Online Help provides two ways of online support: D-Link Support Site will lead you to the D-Link

website where you can find online resources such as updated firmware images; User Guide can offer an

immediate reference for the feature definition or configuration guide.

Figure 4.13 – Online Help

Function Tree

All configuration options on the switch are accessed through the Setup menu on the left side of the screen.

Click on the setup item that you want to configure. The following sections provide more detailed description

of each feature and function.

Figure 4.14 –Function Tree

Device Information

The Device Information provides an overview of the switch, including essential information such as firmware

& hardware information, and IP address.

Figure 4.15 – Device Information

It also offers an overall status of common software features:

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

SNMP Status: Click Settings to link to SNMP > SNMP > SNMP Global Settings. Default is disabled.

802.1X Status: Click Settings to link to AAA > 802.1X > 802.1X Settings. Default is disabled.

DHCP Client: Click Settings to link to System > System Settings. Default is disabled.

Jumbo Frame: Click Settings to link to L2 Functions > Jumbo Frame. Default is disabled.

Port Mirroring: Click Settings to link to L2 Functions > Port Mirroring. Default is disabled.

QinQ Setting: Click Settings to link to Configuration > QinQ > QinQ Settings. Default is disabled.

IGMP Snooping: Click Settings to link to L2 Functions > Multicast > IGMP Snooping. Default is disabled.

Power Saving: Click Settings to link to System > Power Saving. Default is disabled

System > System Settings

The System Setting allows the user to configure the IP address and the basic system information of the

Switch.

Figure 4.16 – System > System Settings

IPv4 Information: There are three ways for the switch to obtain an IP address: Static, DHCP (Dynamic Host

Configuration Protocol) and BOOTP.

When using static mode, the Interface Name, VLAN Name, Interface Admin State, IPv4 Address,

NetMask and Gateway can be manually configured. When using DHCP mode, the Switch will first look for a

DHCP server to provide it with an IP address (including network mask and default gateway) before using the

default or previously entered settings. By default the IP setting is static mode with IP address is 10.90.90.90

and subnet mask is 255.0.0.0.

DHCP Option 12 State: Specifies the DHCP option 12 state is enabled or disabled.

DHCP Option 12 Host Name: Specifies the host name for DHCP.

DHCP Retry Times: Specifies the retry time of DHCP.

System Information: The fields for System Name and System Location which provide network

administrator unique identification information for different switches. Also, system information can be read

and printed on SmartConsole utility.

no action for a specific time span in the Web-based Management. If the current session times out (expires),

the user is required a re-login before using the Web-based Management again. Selective range is from 3 to

30 minutes, and the default setting is 5 minutes.

System > DHCP Auto Configuration

The DHCP Auto Configuration page allows user to enable the DHCP Auto Configuration feature on the

Switch. When enabled, the Switch becomes a DHCP client and gets the configuration file from a TFTP

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

server automatically on next boot up. To accomplish this, the DHCP server must deliver the TFTP server IP

address and configuration file name information in the DHCP reply packet. The TFTP server must be up and

running and store the necessary configuration file in its base directory when the request is received from the

Switch.

Figure 4.17 – System > DHCP Auto Configuration

System > Port Settings

In the Port Setting page, the status of all ports can be monitored and adjusted for optimum configuration. By

selecting a range of ports (From Port and To Port), the Speed can be set for all selected ports by clicking

Apply. Press the Refresh button to view the latest information.

Figure 4.18 – System > Port Settings

Speed: Gigabit Fiber connections can operate in 1000M Auto or Disabled. Copper connections can operate

in Forced Mode settings (2500M Full, 1000M Full, 100M Full, 100M Half, 10M Full, 10M Half), Auto, or

Disabled. The default setting for all ports is Auto.

NOTE:

Be sure to adjust port speed settings

appropriately after changing the connected cable

media types.

NOTE: All ports do not support MDI/MDI-X

function when the speed links to 1000M force

mode.

MDI/MDIX:

A medium dependent interface (MDI) port is an Ethernet port connection typically used on the Network

Interface Card (NIC) or Integrated NIC port on a PC. Switches and hubs usually use Medium dependent

interface crossover (MDIX) interface. When connecting the Switch to end stations, user have to use

straight through Ethernet cables to make sure the Tx/Rx pairs match up properly. When connecting the

Switch to other networking devices, a crossover cable must be used.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

This switch provides a configurable MDI/MDIX function for users. The switches can be set as an MDI port in

order to connect to other hubs or switches without an Ethernet crossover cable.

Auto MDI/MDIX is designed on the switch to detect if the connection is backwards, and automatically

chooses MDI or MDIX to properly match the connection. The default setting is “Auto” MDI/MDIX.

Flow Control: You can enable this function to mitigate the traffic congestion. Ports configured for full-duplex

use 802.3x flow control, half-duplex ports use backpressure flow control. The default setting is Disabled.

Auto Downgrade: Enable or disable automatically downgrading advertised speed. This function only takes

effect, when Speed is configured as Auto.

Capability Advertised: When the Speed is set to Auto, these capabilities are advertised during auto-

negotitation.

System > Port Description

Port description can be given on this page.

Figure 4.19 – System > Port Description

From Port / To Port: Specifies the range of ports to describe.

Description: Specifies the description for the chosen ports.

Click Apply to set the description in the table.

System > Port Configuration > Port Error Disabled

The Port Error Disabled page displays the information about ports that have had their connection status

disabled, for reasons such as STP loopback detection or link down status.

Figure 4.20 – System > Port Configuration > Port Error Disabled

Port: Displays the port that has been error disabled.

Port State: Describes the current running state of the port, whether Enabled or Disabled.

Connection Status: This field will read the uplink status of the individual ports, whether Enabled or Disabled.

Reason: Describes the reason why the port has been error-disabled, such as a STP loopback occurrence.

System > IP Interface

Used to configure IP Interface parameters for system interface.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.21 – System > IP Interface Settings

Interface Name: Specifies the name of IP interface.

VLAN Name: Specifies the VLAN name of IP interface.

IPv4 Address: Specifies the IPv4 address for the interface.

Netmask: Select the netmask of IP address.

Interface Admin State: Enables or disables the interface administration state.

System > IPv6 Setting > IPv6 System Settings

Used to configure IPv6 parameters for system interface.

Figure 4.22 – System > IPv6 Interface Settings

IPv6: Options to enable/disable IPv6 address of system interface.

DHCPv6 Client: Options to enable/disable DHCPv6 client mode on system interface.

NS Retransmit Time Settings: Specify the time period for sending NS.

Automatic Link Local State Setting: Options to enable/disable Link Local address of system interface.

System > IPv6 Setting > IPv6 Neighbor Settings

Figure 4.23 – System > IPv6 Neighbor Settings

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Neighbor IPv6 Address: Specifies the neighbor IPv6 address.

Link Layer MAC Address: Specifies the link layer MAC address.

Click Apply to make the configurations take effect.

To search for all the current interfaces on the Switch, go to the second Interface Name field in the middle

part of the window, tick the All check box. Tick the Hardware option to display all the neighbor cache entries

which were written into the hardware table.

State: Use the drop-down menu to select All, Address, Static or Dynamic. When the user selects address

from the drop-down menu, the user will be able to enter an IP address in the space provided next to the state

option.

System > SNMP Settings > SNMP Global State

Simple Network Management Protocol (SNMP) is an OSI Layer 7 (Application Layer) protocol designed

specifically for managing and monitoring network devices. SNMP enables network management stations to

read and modify the settings of gateways, routers, switches, and other network devices. Use SNMP to

configure system features for proper operation, monitor performance and detect potential problems in the

Switch or LAN.

Managed devices that support SNMP include software (referred to as an agent), which runs locally on the

device. A defined set of variables (managed objects) is maintained by the SNMP agent and used to manage

the device. These objects are defined in a Management Information Base (MIB), which provides a standard

presentation of the information controlled by the on-board SNMP agent. SNMP defines both the format of the

MIB specifications and the protocol used to access this information over the network.

The default SNMP global state is disabled. Select Enable and click Apply to enable the SNMP function.

Figure 4.24 – System > SNMP Settings > SNMP Global State

System > SNMP Settings > SNMP User Table

This page is used to maintain the SNMP user table for the use of SNMPv3. SNMPv3 allows or restricts users

using the MIB OID, and also encrypts the SNMP messages sent out between users and Switch.

Figure 4.25 – System > SNMP Settings > SNMP User Table

User Name: Enter a SNMP user name of up to 32 characters.

Group Name: Specify the SNMP group of the SNMP user.

SNMP Version: Specify the SNMP version of the user. Only SNMPv3 encrypts the messages.

Encrypt: Specifies the Encrypt is enabled or disabled when the SNMP Version is V3.

Auth-Protocol/Password: Specify either HMAC-MD5-96 or HMAC-SHA to be the authentication protocol.

Enter a password for SNMPv3 encryption in the right column.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Priv-Protocol/Password: Specify either no authorization or DES 56-bit encryption and then enter a

password for SNMPv3 encryption in the right column.

Click Apply to create a new SNMP user account, and click Delete to remove any existing data.

System > SNMP Settings > SNMP Group Table

This page is used to maintain the SNMP Group Table associating to the users in SNMP User Table.

SNMPv3 can control MIB access policy, security policy for a user group directly.

Group Name: Specify the SNMP user group of up to 32 characters.

Read View Name: Specify a SNMP group name for users that are allowed SNMP read privileges to the

Switch's SNMP agent.

Write View Name: Specify a SNMP group name for users that are allowed SNMP write privileges to the

Switch's SNMP agent.

Security Model: Select the SNMP security model.

SNMPv1 - SNMPv1 does not support the security features.

SNMPv2 - SNMPv2 supports both centralized and distributed network management strategies. It

includes improvements in the Structure of Management Information (SMI) and adds some security

features.

SNMPv3 - SNMPv3 provides secure access to devices through a combination of authentication and

encrypting packets over the network.

Security Level: This function is only available when user select SNMPv3 security level.

NoAuthNoPriv - No authorization and no encryption for packets sent between the Switch and SNMP

manager.

AuthNoPriv - Authorization is required, but no encryption for packets sent between the Switch and

SNMP manager.

AuthPriv – Both authorization and encryption are required for packets sent between the Switch and

SNMP manger.

Notify View Name: Specify a SNMP group name for users that can receive SNMP trap messages generated

by the Switch's SNMP agent.

Figure 4.26– System > SNMP Settings > SNMP Group Table

System > SNMP Settings > SNMP View Table

This page allows user to maintain SNMP views to community strings that define the MIB objects which can

be accessed by a remote SNMP manager.

Figure 4.27 – System > SNMP Settings > SNMP View Table

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

View Name: Name of the view, up to 32 characters.

Subtree OID: The Object Identifier (OID) Subtree for the view. The OID identifies an object tree (MIB tree)

that will be included or excluded from access by an SNMP manager.

OID Mask: The mask of the Subtree OID. 1 means this object number is concerned, 0 means do not

concerned. For example 1.3.6.1.2.1.1 with mask 1.1.1.1.1.1.0 means 1.3.6.1.2.1.X.

View Type: Specify the configured OID is Included or Excluded that a SNMP manager can access.

Click Apply to create a new view, Delete to remove an existing view.

System > SNMP Settings > SNMP Community Table

This page is used to maintain the SNMP community string of the SNMP managers using the same

community string are permitted to gain access to the Switch's SNMP agent.

Community Name: Name of the community string

User Name (View Policy): Specify the read/write or read-only level permission for the MIB objects

accessible to the SNMP community.

Figure 4.28 – System > SNMP Settings > SNMP Community Table

Click Apply to create a new SNMP community, Delete to remove an existing community.

System > SNMP Settings > SNMP Host Table

This page is to configure the SNMP trap recipients.

Host IP Address: Select IPv4 or IPv6 and specify the IP address of SNMP management host.

SNMP Version: Specify the SNMP version to be used to the management host.

Community String/SNMPv3 User Name: Specify the community string or SNMPv3 user name for the

management host.

Figure 4.29– System > SNMP Settings > SNMP Host Table

Click Apply to create a new SNMP host, Delete to remove an existing host.

System > SNMP Settings > SNMP Engine ID

The Engine ID is a unique identifier used to identify the SNMPv3 engine on the Switch.

Input the Engine ID then click Apply to apply the changes and click Default resets to default value.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.30 – System > SNMP Settings > SNMP Engine ID

System > SNMP Settings > SNMP Trap Settings

The SNMP Trap Settings page provide user to Specify whether the device can send SNMP notifications.

Figure 4.31 – System > SNMP Settings > SNMP Trap Settings

Type Description

SNMP Authentication Traps Trap event of authentication failure.

System Coldstart Traps Trap event of device cold boot up.

System Warmstart Traps Trap event of device warn boot up.

Port Link Up / Link Down Trap event of link state changes (link down/link up).

Firmware Upgrade State Trap event of firmware upgrade status (success/failure).

Port Security Violation Trap event of violations for port security.

Loopback Detection occuring /

recovery

Trap events of state changes (detected/recovery) for

loopback detection.

Duplicate IP Detected Trap event when duplicate IP address detected.

Trap notification if PoE Power

On / Off

Trap event of PoE powering state in port basis.

Trap notification if PoE Power

Error

Trap event of PoE error.

Trap notification if over max

power budget

Trap event when device supplies power over

the max

power budget.

Click Apply to make the configurations take effect.

System > User Accounts

The User Accounts page provides user to control user privileges. To add a new user by typing in a User

Name, Password and retype the same password in the Confirm Password and choose the level of

privilege (Admin, Operator, or User) from the Access Right drop-down menu, then click the Apply button.

User can modify existing user account in the User Account Table. To change the password, type in the Old

Password, New Password and retype it in the Confirm New Password entry field and select the Encrypt,

then click the Edit button. To delete the user account, click on the Delete button.

Also, the Password Encryption mechanism offer encryption of account password in config file.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.32– System > User Accounts

System > MAC Address Aging Time

The MAC Address Aging Time page specifies the length of time a learned MAC Address will remain in the

forwarding table without being accessed (that is, how long a learned MAC address is allowed to remain idle).

To change this, type in a different value representing the MAC address age-out time in seconds.

Figure 4.33 – System > MAC Address Aging Time

MAC Address Aging Time (10-1000000): Specifies the aging time of MAC address on the Switch. The

range is from 10 to 1000000, and the default is 300 seconds.

System > ARP Aging Time Settings

The ARP Aging Time Settings page provides user to globally set the maximum amount of time, in minutes,

and Address Resolution Protocol (ARP) entry can remain in the Switch’s ARP table, without being accessed,

before it is dropped from the table.

Figure 4.34 – System > ARP Aging Time Settings

ARP Aging Time (0-65535): Specifies the ARP aging time on the Switch. The range is from 0 to 65535 with

a default setting of 5 minutes.

System > PPPoE Circuit ID Insertion Settings

The PPPoE Circuit ID Insertion Settings page specifies the configuration of settings. When enabled, the

system will insert the circuit tag to the received PPPoE discover request and the request packet if the tag is

absent. It will remove the circuit ID tag from the received PPPoE offer and session confirmation packet.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.35 – System > PPPoE Circult ID Insertion Settings

PPPoE Circuit ID Insertion State: Enable or disable the PPPoE circuit insertion state, and Click Apply to

make the configurations take effect.

From Port/ To Port: Specifies the ports to be configured.

State: Enable or disable the state of specified ports.

Circuit ID: Specifies the Circuit ID is Switch IP, Switch MAC, UDF String, Vendor2 and Vendor3.

Switch IP – The Switch’s IP address will be used to encode the circuit ID option. This is the default.

Switch MAC – The MAC address of the Switch will be used to encode the circuit ID option.

UDF String – A user specified string to be used to encode the circuit ID option. Enter a string with

the maximum length of 32.

Click Apply to make the configurations take effect.

System > Web Settings

The WEB State is Enabled by default. If user chooses to disable this by selecting Disabled, user will lose the

ability to configure the system through the web interface as soon as these settings are applied.

Figure 4.36 – System > Web Settings

Port (1-65535): Specifies the Port number. The range is between 1 and 65535 with the well-known default is

80.

Click Apply to make the configurations take effect.

System > Telnet Settings

Telnet configuration is Enabled by default. If user does not want to allow the Telnet configuration, they only

need to disable the Telnet State.

Figure 4.37 – System > Telnet Settings

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Port (1-65535): The TCP port number. TCP ports are numbered between 1 and 65535. The well-known TCP

port for the Telnet protocol is 23.

Click Apply to make the configurations take effect.

System > SSH Settings

SSH configuration is Enabled by default. If user does not want to allow the SSH configuration, they only

need to disable the SSH State.

Figure 4.38 – System > SSH Settings

Port (1-65535): The TCP port number. TCP ports are numbered between 1 and 65535. The well-known TCP

port for the SSH protocol is 22.

Click Apply to make the configurations take effect.

System > D-Link Discover Protocol Settings

For the D-Link Discovery Protocol (DDP) supported device, this page is an option for user to disable DDP or

configure the DDP packet report timer.

D-Link Discover Protocol State: The default setting is Disabled.

Figure 4.39 – System > D-Link Discover Protocol Settings

D-Link Discover Protocol Report Timer (Seconds): Configure the report timer of D-Link Discover Protocol

in seconds. The values are 30, 60, 90, 120 or Never. The default is 30 seconds.

Click Apply to make the configurations take effect.

System > Ping Test

The Ping Test is a small program that sends ICMP Echo packets to the IP address user specified. The

destination node then responds to or “echoes” the packets sent the Switch. This is very useful to verify

connectivity between the Switch and other nodes on the network.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.40 – System > Ping Test

Target IP address allows both IPv4 and IPv6 addresses format.

The time of ping can be configured in Repeat Pinging filed; Infinite and range of 1-255 are available options

to use.

Timeout filed specifies the timeout value of every single ping packet. The timeout range from 1- 99 seconds.

Click Start to initiate the Ping Program

System > Trace Route

Perform trace route command direct on system interface. This command used to probe path to the specific

destination address.

Figure 4.41 – System > Trace Route

IP address: Specify the destination IP address

TTL: Specify the maximum Time-to-Live

Timeout: Specify the maximum time for response in a hop.

Probe: Specify the time to probe the destination.

System > MAC Notification Settings

MAC Notification page is used to monitor MAC addresses learned and entered into the forwarding database.

To globally set MAC notification on the Switch, user should enabled or disabled state, input the Time Interval

between notification and History Size then click the Apply button.

Figure 4.42 – System > MAC Notification Settings

State: Enabled or Disabled MAC notification globally on the Switch.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Interval (1-2147483647 sec): The time in seconds between notifications.

History Size (1-500): The maximum number of entries listed in the history log used for notification. Up to

500 entries can be specified.

Click Apply to make the configurations take effect.

To change MAC notification settings for a port or group of ports on the Switch, configure the following

parameters. , then click the Apply button.

From Port / To Port: Select a port or group of ports to enable for MAC notification using the pull-down

menus.

State: Enable MAC Notification for the ports selected using the pull-down menu.

System > System Log Configuration > System Log Settings

System Logs record and manage events, as well as report errors and informational messages. Message

severity determines a set of event message will be sent. Click Enable so user can start to configure the

related settings of remote system log server, then press Apply for the changes to take effect.

Figure 4.43 – System > System Log Configuration > System Log Settings

Save Mode: Use this drop-down menu to choose the method that will trigger a log entry. User can choose

between On Demand, Time Interaval and Log Trigger.

Time Interval: Enter a time interval, in seconds, for which user would like a log entry to be made.

System > System Log Configuration > System Log Server

The user can send Syslog messages to up to four designated servers using the System Log Server. It

supports maximum 500 system log entries. To set the System Log Server configuration, click Apply.

Figure 4.44 - System > System Log Configuration > System Log Server

Server ID: Specifies the Server ID. The field range is 1-4.

Severity: Specifies the minimum severity from which warning messages are sent to the server. There are

three levels. When a severity level is selected, all severity level choices above the selection are selected

automatically. The possible levels are:

Warning - The lowest level of a device warning. The device is functioning, but an operational

problem has occurred.

Informational - Provides device information.

All - Displays all levels of system logs.

Server IPv4 Address: Specifies the IPv4 address of the system log server.

Server IPv6 Address: Specifies the IPv6 address of the system log server.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Facility: Specifies an application from which system logs are sent to the remote server. Only one facility can

be assigned to a single server. If a second facility level is assigned, the first facility is overwritten. There are

up to eight facilities can be assigned (Local 0 ~ Local 7).

UDP Port: Specifies the UDP port to which the server logs are sent. The possible range is 6000 – 65535,

and the default value is 514.

Status: Specifies the status is enable or disable

System > Time Profile

The Time Profile page allows users to configure the time profile settings of the device.

Figure 4.45 – System > Time Profile Settings

Range Name: Specifies the profile name for the time profile to be configured.

Date: Select Date and specifies the From Day and To Day of the time profile.

Hours (HH MM): Specifies the Start Time and End Time.

Weekdays: Specifies the work day for the time profile. Or tick Select All Days to select all days for the time

profile.

Click Apply to create a new time profile or click Delete to delete a time profile from the table.

NOTE: The time must be set after current time,

otherwise it will take effect on the next cycle time.

System > Power Saving

The Power Saving mode feature reduces power consumption automatically when the RJ-45 port is link down

or the connected devices are turned off. Less power will be consumed also when the short cable is used

(less than 20 meters).

By reducing power consumption, less heat is produced, resulting in extended product life and lower

operating costs. By default, the Cable Length Detection and Link Status Detection are enabled. Click Apply

to make the change effective.

Figure 4.46 – System > Power Saving

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Advanced Power Saving Settings:

Type: Specifies the Power Saving type to be LED Shut-off, Port Shut-off, Port Standby or System

Hibernation.

LED Shut-off - The LED Shut-off gets high priority. If the user select LED Shut-off, the profile

function will not take effect. It means the LED cannot be turned on after Time Profile time’s up when

the state is disabled. On the contrary, if the LED is enabled, the Time Profile function will work.

Port Shut-off - The Port Shut-off state has high priority (the priority rule is the same as LED.)

Therefore, if the Port Shut-off sate is already disabled the Time Profile function will not take effect.

System Hibernation - In this mode, switches get most power-saving figures since main chipsets

(both MAC and PHY) are disabled for all ports, and energy required to power the CPU is minimal.

State: Specifies the power saving state to be Enabled or Disabled.

Time Profile 1: Specifies the time profile or None.

Time Profile 2: Specifies the time profile or None.

Port: Specifies the ports to be configure of the Power Saving.

Click Select All configure all ports, or click Clear to uncheck all port. Then Click Apply to make the

configurations take effect.

System > IEEE802.3az EEE Settings

The IEEE 802.3 EEE standard defines mechanisms and protocols intended to reduce the energy

consumption of network links during periods of low utilization, by transitioning interfaces into a low-power

state without interrupting the network connection. The transmitted and received sides should be

IEEE802.3az EEE compliance. By default, the switch enabled the 802.3az EEE function. Users can disable

this feature by individual port via the IEEE802.3az EEE setting page.

Figure 4.47 – System > IEEE802.3az EEE Settings

From Port / To Port: A consecutive group of ports may be configured starting with the selected port.

State: Enabled or Disabled the IEEE802.3az EEE for the specified ports. By default, all ports are disabled.

Click Apply to make the configurations take effect.

If the connection speed drops down from 1000M to 100M, or the first link up takes longer time, please follow

below steps and check again:

1. Upgrade driver of Ethernet adapter or LAN controller for the host PC.

2. Disable EEE function on the switch port

Configuration > 802.1Q VLAN

A VLAN is a group of ports that can be anywhere in the network, but communicate as though they were in

the same area.

VLANs can be easily organized to reflect department groups (such as R&D, Marketing), usage groups (such

as e-mail), or multicast groups (multimedia applications such as video conferencing), and therefore help to

simplify network management by allowing users to move devices to a new VLAN without having to change

any physical connections.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The IEEE 802.1Q VLAN Configuration page provides powerful VID management functions. The original

settings have the VID as 1, no default name, and all ports as “Untagged”

Rename: Click to rename the VLAN group.

Delete VID: Click to delete the VLAN group.

Add New VID: Click to create a new VID group, assigning ports from 01 to 28 as Untag, Tag, or Not

Member. A port can be untagged in only one VID. To save the VID group, click Apply.

You may change the name accordingly to the desired groups, such as R&D, Marketing, email, etc.

Figure 4.48 – Configuration > 802.1Q VLAN

Click Add to create a new VID group, entering the VID and VLAN name, assigning ports role as Untag, Tag

or Not Member. To save the VID group, click Apply.

Figure 4.49 – Configuration > 802.1Q VLAN > Add VID

After click Apply, the 802.1Q VLAN Configuration Table will displayed with updates.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.50 – Configuration > 802.1Q VLAN > Add VLAN

Click the VID number, the configuration of VLAN group which selected by user will displayed.

Change the port assignment then click Apply to implement changes made.

Figure 4.51 - Configuration > 802.1Q VLAN > VID Assignments

Configuration > 802.1Q VLAN PVID

The 802.1Q VLAN PVID setting allows user to configure the PVID for each ports. Click Apply to implement

changes made.

Figure 4.52 – Configuration > 802.1Q VLAN PVID

Configuration > Voice VLAN > Voice VLAN Global Settings

Voice VLAN is a feature that allows you to automatically place the voice traffic from IP phone to an assigned

VLAN to enhance the VoIP service. With a higher priority and individual VLAN, the quality and the security of

VoIP traffic are guaranteed. If a VoIP packet comes with a VLAN tag, the Voice VLAN function won’t replace

the original VLAN tag.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.53 – VLAN > Voice VLAN > Voice VLAN Global Settings

Voice VLAN: Select to enable or disable Voice VLAN. The default is Disabled. After you enabled Voice

VLAN, you can configure the Voice VLAN Global Settings.

VLAN ID: The ID of VLAN that user wants to assign voice traffic to. 802.1Q VLAN group must be created

before assigned it into Voice VLAN. The member port that configured in 802.1Q VLAN setting page will be

the static member port of voice VLAN. To dynamically add ports into the voice VLAN, please enable the

Auto Detection function

Priority: The 802.1p priority levels of the traffic in the Voice VLAN.

Aging Time (1-120): Enter a period of time (in hours) to remove a port from the voice VLAN if the port is an

automatic VLAN member. When the last voice device stops sending traffic and the MAC address of this

voice device is aged out, the voice VLAN aging timer will start. The port will be removed from the voice VLAN

after the expiration of the voice VLAN aging timer. Selectable range is from 1 to 120 hours, and default is 1.

Click Apply to implement changes made.

Voice VLAN OUI Settings: This allows the user to configure the user-defined voice traffic’s OUI. An

Organizationally Unique Identifier (OUI) is the first three bytes of the MAC address. This identifier uniquely

identifies a vendor, manufacturer, or other organization.

There are some pre-defined OUIs and when the user configures personal OUI, these pre-defined OUIs must

be avoided. Below are the pre-defined voice traffic’s OUI:

OUI Vendor Mnemonic Name

00:E0:BB 3Com 3com

00:03:6B Cisco cisco

00:E0:75 Veritel veritel

00:D0:1E Pingtel pingtel

00:01:E3 Siemens siemens

00:60:B9 NEC/ Philips nec&philips

00:0F:E2 Huawei-3COM huawei&3com

00:09:6E Avaya avaya

Default OUI: Pre-defined OUI values, including brand names of 3COM, Cisco, Veritel, Pingtel, Siemens,

NEC/Philips, Huawei3COM, and Avaya.

User defined OUI: It is able to manually create a Telephony OUI with a description. The maximum number

of user defined OUIs is 10.

Select the OUI and press Add to the lower table to complete the Auto Voice VLAN setting.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Note: Voice VLAN has higher priority than any

other features (including QoS). Therefore the

voice traffic will be operated according to the

Voice VLAN setting and not impacted by the QoS

feature.

Note: It is recommended

setting the highest

priority for Voice VLAN to guarantee the quality of

VoIP traffic.

Configuration > Voice VLAN > Voice VLAN Port Settings

The Voice VLAN Port Settings page allows users to automatically place the voice traffic from IP phone to an

assigned VLAN to enhance the VoIP service. With a higher priority and individual VLAN, the quality and the

security of VoIP traffic are guaranteed.

Figure 4.54 – VLAN > Voice VLAN > Voice VLAN Port Settings

From Port / To Port: A consecutive ports may be selected by From Port and To Port dropdown lists.

Auto Detection: Switch will add ports to the voice VLAN automatically if it detects the device OUI matches

the Telephony OUI configured in Voice VLAN OUI Setting page. Use the drop-down menu to enable or

disable the OUI auto detection function. The default is Disabled

Tagged / Untagged: Tagged or untagged the ports.

Click Apply to implement changes made and Refresh to refresh the voice vlan table.

Note:

Voice VLAN has higher priority than any

other features even QoS. Therefore the voice

traffic will be operated according to Voice VLAN

setting and not impacted by QoS feature.

Note:

It is recommended setting the highest

priority for Voice VLAN to guarantee the quality of

VoIP traffic.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Configuration > Voice VLAN > Voice Device List

The Voice Device List page displays the information of Voice VLAN.

Figure 4.55 – VLAN > Voice VLAN > Voice Device List

Select a port or all ports and click Search to display the Voice Device information in the table.

Configuration > Voice VLAN > LLDE-MED Voice Device List

The Voice Device List page displays the information of voice device learned from LLDP-MED protocol. The

device information is retrieved from Network Policy contained in LLDP-MED packets.

Figure 4.56 - Configuration > Voice VLAN > LLDP-MED Voice Device List

Configuration > Auto Surveillance VLAN > Auto Surveillance Properties

The Auto Surveillance Properties page allows user to configure and display the ports surveillance VLAN

settings and information.

Figure 4.57 – VLAN > Auto Surveillance VLAN > Auto Surveillance Properties

Global Settings: To configure the related auto surveillance VLAN global settings.

Auto Surveillance VLAN: To enable or disable the auto surveillance VLAN state.

Surveillance VLAN ID: Specifies the surveillance VLAN ID. The range is from 2 to 4094.

Surveillance VLAN CoS: Specifies the priority of the surveillance VLAN. The range is from 0 to 7.

Tagged Uplink/Downlink Port: Specifies the port or ports to be tagged uplink port or downlink port for the

Auto Surveillance VLAN.

Aging Time (1-65535): Specifies the aging time of surveillance VLAN. The range is from 1 to 65535 minutes.

The default value is 720 minutes. The aging time is used to remove a port from surveillance VLAN if the port

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

is an automatic surveillance VLAN member. When the last surveillance device stops sending traffic and the

MAC address of this surveillance device is aged out, the surveillance VLAN aging timer will be started. The

port will be removed from the surveillance VLAN after expiration of surveillance VLAN aging timer. If the

surveillance traffic resumes during the aging time, the aging timer will be reset and stop.

Discover Port (554, 1024-65535): Specifies the TCP/UDP port number for surveillance VLAN. The range is

either 554, or between 1024 and 65535. This is used to configure the TCP/UDP port number for RTSP

stream snooping. ONVIF-capable IPC and ONVIF-capable NVR utilize WS-Discovery to find other devices.

Once IPCs are discovered, the Switch can further discover NVRs by snooping RTSP, HTTP, and HTTPS

packets between NVRs and IPCs. These packets cannot be snooped if the TCP/UDP port is not equal to the

RTSP port number.

Log State: To enable or disable the log state of surveillance VLAN.

Click the Apply button to implement changes made.

Configuration > Auto Surveillance VLAN > MAC Settings and Surveillance Device

Similar as Voice VLAN, Auto Surveillance VLAN is a feature that allows you to automatically place the video

traffic from D-Link IP cameras to an assigned VLAN to enhance the IP surveillance service. With a higher

priority and individual VLAN, the quality and the security of surveillance traffic are guaranteed. The Auto

Surveillance VLAN function will check the source MAC address / VLAN ID on the incoming packets. If it

matches specified MAC address / VLAN ID, the packets will pass through switch with desired priority.

Figure 4.58 – VLAN > Auto Surveillance VLAN > MAC Settings and Surveillance Device

User-defined MAC Settings:

Component Type: Auto Surveillance VLAN will automatically detect D-Link Surveillance Devices by default.

There are another five surveillance components that could be configured to be auto-detected by the Auto

Surveillance VLAN. These five components are Video Management Server (VMS), VMS Client/Remote

viewer, Video Encoder, Network Storage and Other IP Surveillance Devices.

Description: Here to input the description for the component type.

MAC Address: User can manually create an MAC or OUI address for the surveillance component. The

maximum number of user defined MAC address is 5.

Mask: Specifies the mask address for the MAC or OUI.

Click Add to create a new surveillance component and Refresh to refresh the Auto Surveillance VLAN

summary table.

Configuration > Auto Surveillance VLAN > ONVIF IPC Information

The ONVIF (Open Network Video Interface Forum) IPC Information page displays the information on each IP

camera connected to the switch. Information includes the port number, IP address, MAC address, throughput

and other information such as port description and model name.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.59 – VLAN > Auto Surveillance VLAN > ONVIF IPC Information

Configuration > Auto Surveillance VLAN > ONVIF NVR Information

The ONVIF (Open Network Video Interface Forum) NVR Information page displays the information on each

NVR connected to the switch. Including the port number, IP address, MAC address, IP-Camera number,

throughput and description relating to the cameras connected to the NVR, such as the group name, total

number of cameras and the port and IP address of each camera.

Figure 4.60 – VLAN > Auto Surveillance VLAN > ONVIF NVR Information

Configuration > QinQ > QinQ Settings

The QinQ Settings page allows user to enable or disable the Q-in-Q function. Q-in-Q is designed for service

providers to carry traffic from multiple users across a network.

Q-in-Q is used to maintain customer specific VLAN and Layer 2 protocol configurations even when the same

VLAN ID is being used by different customers. This is achieved by inserting SPVLAN tags into the

customer’s frames when they enter the service provider’s network, and then removing the tags when the

frames leave the network.

Customers of a service provider may have different or specific requirements regarding their internal VLAN

IDs and the number of VLANs that can be supported. Therefore customers in the same service provider

network may have VLAN ranges that overlap, which might cause traffic to become mixed up. So assigning a

unique range of VLAN IDs to each customer might cause restrictions on some of their configurations

requiring intense processing of VLAN mapping tables which may exceed the VLAN mapping limit. Q-in-Q

uses a single service provider VLAN (SPVLAN) for customers who have multiple VLANs. Customer’s VLAN

IDs are segregated within the service provider’s network even when they use the same customer specific

VLAN ID. Q-in-Q expands the VLAN space available while preserving the customer’s original tagged packets

and adding SPVLAN tags to each new frame. Select Enabled or Disabled then click Apply to enable or

disable the Q-in-Q Global Settings.

Figure 4.61 - Configuration > QinQ > QinQ Settings

From Port / To Port: A consecutive group of ports that are part of the VLAN configuration starting with the

selected port.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Role: The user can choose between UNI or NNI role.

UNI – To select a user-network interface which specifies that communication between the specified

user and a specified network will occur.

NNI – To select a network-to-network interface specifies that communication between two specified

networks will occur.

Outer TPID (hex: 0x1-0xffff): The Outer TPID is used for learning and switching packets. The Outer TPID

constructs and inserts the outer tag into the packet based on the VLAN ID and Inner Priority.

Miss Drop: Specifies to enable or disable the Miss Drop. If Miss Drop is enabled, the packet does not match

any assignment rule in the VLAN translation and Q-in-Q profile will be dropped. If disabled, the packet will be

forwarded and will be assigned to the PVID of the received port.

Add Inner Tag: Unselect the Disable check box and enter an entry that an Inner Tag will be added to the

entry.

Click Apply to make the configurations take effect.

Configuration > QinQ > VLAN Translation Settings

The VLAN Translation translates the VLAN ID carried in the data packets it receives from private networks

into those used in the Service Providers network.

Figure 4.62 - Configuration > QinQ > VLAN Translation Settings

From Port / To Port: A consecutive group of ports that are part of the VLAN configuration starting with the

selected port.

Action: Specify for SPVID packets to be added or replaced.

CVID List (1-4094): The customer VLAN ID List to which the tagged packets will be added.

SVID (1-4094): This configures the VLAN to join the Service Providers VLAN as a tagged member.

Priority: Specifies the CVID entry priority.

Click Apply to make the configurations take effect. Click Delete All to remove all the CVID entries.

Q-in-Q and VLAN Translation Rules:

For Ingress untagged packets at UNI ports:

1. The Switch does not reference the VLAN translation table.

2. Check the Switch VLAN tables. The Sequence is MAC-based VLAN -> subnet-based VLAN ->

protocol-based VLAN -> port-based VLAN. If matched, the matched VLAN will become this packet’s

SPVLAN.

For Ingress tagged packets at UNI ports:

1. The Switch looks up the VLAN translation table. If matched, the VLAN tag will be translated

(replace CEVLAN with SPVLAN, or add SPVLAN).

2. Or, check the Switch VLAN tables. The sequence is the same as above. The matched VLAN

becomes this packet’s SPVLAN.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Configuration > Link Aggregation > Port Trunkings

The Port Trunkings function enables the combining of two or more ports together to increase bandwidth. Up

to eight Trunk groups may be created, and each group consists up to eight ports. Select Enabled and click

Apply to active the Link Aggregation State.

Figure 4.63 – Configuration > Link Aggregation > Port Trunkings

Link Aggregation Algorithm: Specify the algorithm to be MAC Source, MAC Destination, MAC Source

Destination, IP Source, IP Destination or IP Source Destination, and then Click Apply to make the

configurations take effect.

Edit Trunking Information:

Specify the ID, Type and Master Port then select the ports to be grouped together, and then click Apply to

activate the selected Trunking groups. Two types of link aggregation can be selected:

Static - Static link aggregation.

LACP - LACP (Link Aggregation Control Protocol) is enabled on the device. LACP allows for the

automatic detection of links in a Port Trunking Group.

Disable - Remove all members in this trunk group.

NOTE:

Each combined trunk port must be

connected to devices within the same VLAN

group.

Configuration > Link Aggregation > LACP Port Settings

The LACP Port Settings is used to create port trunking groups on the Switch. The user may set which ports

will be active and passive in processing and sending LACP control frames.

Figure 4.64 – Configuration > Link Aggregation > LACP Port Settings

From Port: The beginning of a consecutive group of ports may be configured starting with the selected port.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

To Port: The ending of a consecutive group of ports may be configured starting with the selected port.

Port Priority (0-65535): Displays the LACP priority value for the port. Default is 128.

Activity: There are two different roles of LACP ports:

Active - Active LACP ports are capable of processing and sending LACP control frames. This allows

LACP compliant devices to negotiate the aggregated link so the group may be changed dynamically

as needs require. In order to utilize the ability to change an aggregated port group, that is, to add or

subtract ports from the group, at least one of the participating devices must designate LACP ports as

active. Both devices must support LACP.

Passive - LACP ports that are designated as passive cannot initially send LACP control frames. In

order to allow the linked port group to negotiate adjustments and make changes dynamically, one

end of the connection must have "active" LACP ports.

Timeout: Specify the administrative LACP timeout. The possible field values are:

Short (3 Sec) - Defines the LACP timeout as 3 seconds.

Long (90 Sec) - Defines the LACP timeout as 90 seconds. This is the default value.

Click Apply to implement the changes made.

Configuration > IGMP Snooping > IGMP Snooping

With Internet Group Management Protocol (IGMP) snooping, the DGS-2000 Series Ethernet Switch can

make intelligent multicast forwarding decisions by examining the contents of each frame’s Layer 2 MAC

header.

IGMP snooping can help reduce cluttered traffic on the LAN. With IGMP snooping enabled globally, the

DGS-2000 Series Ethernet Switch will forward multicast traffic only to connections that have group members

attached.

The settings of IGMP snooping is set by each VLAN individually.

Figure 4.65 – Configuration > IGMP Snooping > IGMP Snooping

By default, IGMP is disabled. If enabled, the IGMP Global Settings will need to be entered:

Parameters Description

IGMP Snooping Used to control IGMP snooping global state; the radi

os buttons

enable/disable to change the state.

IGMP V3 Src Filter Enable: Specifies that the multicast group will be based on the host

mode.

Disable: Specifies that the multicast forwarding lookup will be based

on the port mode.

Host Timeout

(130-153025 sec)

This is the interval after which a learned host port entry will be

purged. For each host port learned, a 'Port Purge Timer' runs for

'Host Port Purge Interval'. This timer will be restarted whenever a

report message from host is received over that port. If no report

messages are received for 'Host Port Purge Interval' time, the

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

learned host entry will be purged from the multicast group. The

default value is 260 seconds.

Router Timeout

(60-600 sec)

This is the interval after which a learned router port entry will be

purged. For each router port learned, a 'Router Port Purge Timer'

runs for 'Router Port Purge Interval'. This timer will be restarted

whenever a Query control message is received over that port. If

there were no Query control messages received for 'Router Port

Purge Interval' time, the learned router port entry will be purged.

Default is 260 seconds.

Max Learned Entry

Value

(1-1024)

The maximum IGMP group(s) allowed to be learned for entire

system. The range from 1 to 1024 groups. The default value is 1024

groups.

IGMP Snooping Rate

Limit

Used to control if system has the maximum process limit especially

for IGMP packet (IGMP report, IGMP leave and IGMP query). Lower

rate helps to lower the CPU loading. Rate Limit Value is a range

from 1-200 in PPS.

Clicking Apply button for apply the changes.

Click IGSEdit button to enter the IGMP Parameters Settings page.

Figure 4.66 – Configuration > IGMP Snooping > IGMP Snooping Parameters Settings

Parameters Description

State Used to control IGMP snooping state for this particular VLAN group. The

state Enabled/Disabled can be selected in drop-down list.

Robustness Variable

(2-255 sec)

The Robustness Variable allows adjustment for the expected packet loss on

network. The larger robustness variable help to prevent packet lost occurred

in network; the key types of packet for IGMP: report, leave and query. The

Robustness Variable cannot be set to zero, and it SHOULD NOT be. Default

is 2 seconds

Query Interval

(60-600 sec)

The Query Interval is th

e interval between General Queries sent. By

adjusting the Query Interval, the number of IGMP messages can be

increased or decreased; larger values will cause IGMP Queries to be sent

less often. Default value is 125 seconds.

Last Member Query

Interval

(1-25 sec)

The Last Member Query Interval is the Max Response Time inserted into

Group-Specific Queries sent in response to Leave Group messages, and is

also the amount of time between Group-

Specific Query messages. This

value may be adjusted to modify the "l

eave latency" of the network. A

reduced value results in reduced time to detect the loss of the last member of

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

a group. Default is 1 second.

Max Response Time

(10-25 sec)

The Max Response Time specifies the maximum allowed time before

sending a respondin

g report message. Adjusting this setting effects the

"leave latency", or the time between the moment the last host leaves a group

and when the multicast server is notified that there are no more members. It

also allows adjustments for controlling the frequency of IGMP traffic on a

subnet. Default is 10 seconds.

Proxy Reporting

Source IP

Enter the proxy reporting source IP address.

Proxy Reporting Use the drop-down menu to enable and disable the proxy report state.

Querier State

Device starts sending general query packets by Query Interval when state

configured to Enabled. Device stop sending general query packet when state

configured to

Disabled

Querier Version Specify the general query packet version; v1, v2 and v3 are available to use.

Fast Leave If enabled, the membership is immediately removed when the system receive

the IGMP leave message.

Data Driven Learning

State

Data Driven learning is a mechanism that helps to register the IGMP group

via multicast traffic packet. The feature helps to solve some special network

application that end host does not support IGMP function but only sending

multicast traffic; for example, IP camera.

VLANDateDrivenLear

ningAge

Specifies that the aging out of the entry will be enabled or disabled.

Report Suppression By Enabled Report Suppression, the device forward 1 IGMP report that

registered the same IGMP group in 10 seconds period.

Querier Role Display the current information for Querier Role.

Querier IP Display the current information of Querier IP address.

Querier Expiry Time Display the current information for Querier Expiry Time.

Clicking Apply button for apply the changes.

Clicking Previous Page returned to IGMP Snooping Configuration page.

Click Edit button to enter the Router Port Settings page, and the ports to be assigned as router ports for

IGMP snooping for the VLAN.

A router port configured manually is a Static Router Port, a Forbidden Router Port and a Dynamic Router

Port is dynamically configured by the Switch when a query control message is received. Press Apply for

changes to take effect.

Figure 4.67 – Configuration > IGMP Snooping > IGMP Snooping-Router Port Settings

To view the Multicast Entry Table for a given VLAN, press the View button.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.68– Configuration > IGMP Snooping > IGMP Snooping-Multicast Entry Table

Configuration > IGMP Snooping > IGMP Access Control Settings

The IGMP Access Control Settings page is used to enable or disable the IGMP access control of selected

ports.

Figure 4.69 – Configuration > IGMP Snooping > IGMP Access Control Settings

From Port/To Port: Select the port ranges to be configured.

Status: Enable or disable the IGMP Access Control of specified ports.

Click Apply to make the configurations take effect.

Configuration > IGMP Snooping > Host Table

The Host Table page displays the information of Host Table. Including VLAN ID, Group, Port Number and

Host IP.

Figure 4.70 - Configuration > IGMP Snooping > Host Table

Configuration > IGMP Snooping > IGMP Snooping Static Group Settings

The IGMP Snooping Static Group Settings page allows the Switch to read the Multicast Group IP address

and the corresponding MAC address from IGMP packets that pass through the Switch.

Figure 4.71- Configuration > IGMP Snooping > IGMP Snooping Static Group Settings

VLAN Name: Specifies the VLAN name of the multicast group.

VID List: Specifies the VID list or of the multicast group.

IPv4 Address: Specifies the IPv4 address.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Click the Find button to locate a specific entry based on the information entered.

Configuration > MLD Snooping > MLD Snooping Settings

The MLD Snooping Settings page allows user to configure the max multicast group for IGMP Snooping.

Figure 4.72- Configuration > MLD Snooping > MLD Snooping Settings

MLD Snooping: Enable or disable the MLD Snooping.

MLD Global Settings:

Host Timeout (130-153025 sec): Specifies the time interval in seconds after which a port is removed from a

Multicast Group. Ports are removed if a Multicast group MLD report was not received from a Multicast port

within the defined Host Timeout period. The possible field range is 130 - 153025 seconds. The default

timeout is 260 seconds.

Router Timeout (60-600): Specifies the time interval in seconds the Multicast router waits to receive a

message before it times out. The possible field range is 60 - 600 seconds. The default timeout is 125

seconds.

Max Learned Entry Value (1-1024): Specifies the max learned entry value for MLD Snooping. The field

range is 1-1024. The default is 256.

Click Apply to make the configurations take effect. Press the Edit button under Router Port Setting, and

select the ports to be assigned for MLD snooping for the VLAN, and press Apply for changes to take effect.

Configuration > MLD Snooping > MLD Host Table

The MLD Host Table page displays the MLD Snooping information.

Figure 4.73- Configuration > MLD Snooping > MLD Host Table

Configuration > ISM VLAN Settings

In a switching environment, multiple VLANs may exist. Every time a multicast query passes through the

Switch, the switch must forward separate different copies of the data to each VLAN on the system, which, in

turn, increases data traffic and may clog up the traffic path. To lighten the traffic load, multicast VLANs may

be incorporated. These multicast VLANs will allow the Switch to forward this multicast traffic as one copy to

recipients of the multicast VLAN, instead of multiple copies.

Regardless of other normal VLANs that are incorporated on the Switch, users may add any ports to the

multicast VLAN where they wish multicast traffic to be sent. Users are to set up a source port, where the

multicast traffic is entering the switch, and then set the ports where the incoming multicast traffic is to be sent.

The source port cannot be a recipient port and if configured to do so, will cause error messages to be

produced by the switch. Once properly configured, the stream of multicast data will be relayed to the receiver

ports in a much more timely and reliable fashion.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The ISM VLAN Settings page allows the user to configure the ISM VLAN.

Figure 4.74 - Configuration > IGMP Snooping > ISM VLAN Settings

ISM VLAN Global State: Enable or disable the IGMP Snooping Multicast (ISM) VLAN Global State.

Click Apply button to confirm the ISM VLAN Global State.

State: Use the drop-down menu to enable or disable the selected Multicast VLAN.

VID: Add the corresponding VLAN ID of the Multicast VLAN. Users may enter a value between 2 and 4094.

VLAN Name: Enter the name of the new Multicast VLAN to be created. This name can be up to 32

characters in length.

Member Ports: Enter a port or list of ports to be added to the Multicast VLAN. Member ports shall be the

untagged members of the multicast VLAN.

Tagged Member Ports: Enter a port or list of ports that will become tagged members of the Multicast VLAN.

Source Ports: Enter a port or list of ports to be added to the Multicast VLAN. Source ports shall be the

tagged members of the multicast VLAN.

IPv4 Replace Source: This field is used to replace the source IPv4 address of incoming packets sent by the

host before being forwarded to the source port.

IPv6 Replace Source IP: This field is used to replace the source IPv6 address of incoming packets sent by

the host before being forwarded to the source port.

Click Add to add the ISM VLAN which will appear in the table, or click Clear All to clear all fields.

Click Edit button to modify the parameters and update the ISM VLAN Setting or click Delete to delete the

ISM VLAN.

Click View to display the detail information of ISM VLAN.

Figure 4.75 - Configuration > IGMP Snooping > ISM VLAN Settings

Configuration > Jumbo Frame

D-Link Gigabit Ethernet Switches support jumbo frames (frames larger than the Ethernet frame size of 1536

bytes) of up to 10000 bytes (tagged). Default is disabled, Select Enabled then click Apply to turn on the

jumbo frame support.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.76 – L2 Functions > Jumbo Frame

Configuration > Port Mirroring

Port Mirroring is a method of monitoring network traffic that forwards a copy of each incoming and/or

outgoing packet from one port of the Switch to another port, where the packet can be studied. This enables

network managers to better monitor network performances.

Figure 4.77 – L2 Functions > Port Mirroring

Selection options for the Source Ports are as follows:

TX (transmit) mode: Duplicates the data transmitted from the source port and forwards it to the Target Port.

Click “all” to include all ports into port mirroring.

RX (receive) mode: Duplicates the data that is received from the source port and forwards it to the Target

Port. Click “all” to include all ports into port mirroring.

TX/RX (transmit and receive) mode: Duplicate both the data transmitted from and data sent to the source

port, and forwards all the data to the assigned Target Port. Click “all” to include all ports into port mirroring.

None: Turns off the mirroring of the port. Click “all” to remove all ports from mirroring.

Configuration > Loopback Detection

The Loopback Detection function is used to detect the loop created by ports which other prevention

mechanism is not available, for example: Spanning Tree Protocol (STP). It usually happens when link

partner is hub or un-management switch. Loopback Detection feature can automatically shutdown the port

and sends a log to the administrator when loop occurred. Also, Loopback Detection function offers recovery

mechanism when loop condition removed.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.78 – L2 Functions > Loopback Detection

Loopback Detection: Use the drop-down menu to enable or disable loopback detection. The default is

Disabled.

Mode: Specifies Port-based or VLAN-based mode. If port-based mode is selected, the loop happening port

will be shut down and affect all member VLANs. If VLAN-based mode is selected, only the member port in

the loop happening VLAN will be shut down.

VID List: Specifies the VID.

Interval (1-32767): Set a Loop detection Interval between 1 and 32767 seconds. The default is 2 seconds.

Recover Time (0 or 60-1000000): Time allowed (in seconds) for recovery when a Loopback is detected.

The Loop Detection Recover Time can be set at 0 seconds, or 60 to 1000000 seconds. Entering 0 will

disable the Loop Detection Recover Time. The default is 60 seconds.

From Port: The beginning of a consecutive group of ports may be configured starting with the selected port.

To Port: The ending of a consecutive group of ports may be configured starting with the selected port.

State: Use the drop-down menu to toggle between Enabled and Disabled. Default is Disabled.

Click the Apply button to implement changes made or click Refresh to refresh the Loopback Detection table.

Configuration > SNTP Settings > Time Settings

SNTP or Simple Network Time Protocol is used by the Switch to synchronize the clock of the computer. The

SNTP settings folders contain two windows: Time Settings and TimeZone Settings. Users can configure the

time settings for the switch, and the following parameters can be set or are displayed in the Time Settings

page.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.79 – Configuration > SNTP Settings > Time Settings

Clock Source: Specify the clock source by which the system time is set. The possible options are:

Local - Indicates that the system time is set locally by the device.

SNTP - Indicates that the system time is retrieved from a SNTP server.

Current Time: Displays the current date and time for the switch.

If choosing SNTP for the clock source, then the following parameters will be available:

SNTP First Server: Select IPv4 or IPv6 and specify the IP address of the primary SNTP server from which

the system time is retrieved.

SNTP Second Server: Select IPv4 or IPv6 and specify the IP address of the secondary SNTP server from

which the system time is retrieved.

SNTP Poll Interval in Seconds (30-99999): Defines the interval (in seconds) at which the SNTP server is

polled for Unicast information. The Poll Interval default is 30 seconds.

Click Apply to make the configurations take effect.

When selecting Local for the clock source, users can select from one of two options:

Manually set current time: Users input the system time manually.

Set time from PC: The system time will be synchronized from the local computer.

Configuration > SNTP Settings > TimeZone Settings

The TimeZone Setting Page is used to configure time zones and Daylight Savings time settings for SNTP.

Figure 4.80 – Configuration > SNTP > TimeZone Settings

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Daylight Saving Time State: Enable or disable the DST Settings.

Daylight Saving Time Offset: Use this drop-down menu to specify the amount of time that will constitute the

local DST offset - 30, 60, 90, or 120 minutes.

Time Zone Offset GMT +/- HH:MM: Use these drop-down menus to specify the local time zone's offset from

Greenwich Mean Time (GMT.)

DST Repeating Settings:

From: Which Week of the Month: Enter the Week of Month will start on, each year.

From: Day of the Week: Enter the Day DST will start on, each year.

From: Month: Enter the month DST will start on, each year.

From: Time In HH:MM: Enter the time of day that DST will start on, each year.

To: Which Week of the Month: Enter the Week of Month will end on, each year.

To: Day of the Week: Enter the day of week that DST will end on, each year.

To: Month: Enter the month DST and date DST will end on, each year.

To: Time In HH:MM: Enter the time of day that DST will end on, each year.

DST Annual Settings:

From: Month / Day: Enter the month DST and date DST will start on, each year.

From: Time In HH:MM: Enter the time of day that DST will start on, each year.

To: Month / Day: Enter the month DST and date DST will end on, each year.

To: Time HH:MM: Enter the time of day that DST will end on, each year.

Click Apply to make the configurations take effect.

Configuration > DHCP Relay > DHCP Relay Global Settings

User can enable and configure DHCP/BOOTP Relay Global Settings on the Switch.

Figure 4.81 - Configuration > DHCP Relay > DHCP Relay Global Settings

Parameters Descriptions

DHCP Relay State This field can be toggled between Enabled and Disabled using the

pull-down menu. It is used to enable or disable the DHCP/BOOTP

Relay service on the Switch. The default is Disabled.

DHCP Relay Hops Count Limit

(1-16)

This field allows an entry between 1 and 16 to define the maximum

number of router hops DHCP/BOOTP messages can be forwarded

across. The default hop count is 4.

DHCP Relay Time Threshold

(0-65535)

Allows an entry between 0 and 65535 seconds, and defines the

maximum time limit for routing a DHCP/BOOTP packet. If a value

of 0 is entered, the Switch will not process the value in the

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

seconds field of the BOOTP or DHCP packet. If a non-zero value

is entered, the Switch will use that value, along with the hop count

to determine whether to forward a given BOOTP or DHCP packet.

DHCP Relay Port List Specify the ports for BOOTP relay.

DHCP Relay VLAN Setting State Specify the VLAN ID to monitor DHCP client activity. The range is

from 1 – 4094.

DHCP Relay Agent Information

Option 82 State

It is used to enable or disable the DHCP Agent Information Option

82 on the Switch. The default is Disabled.

Enabled – When this field is toggled to Enabled the relay agent will

insert and remove DHCP relay information (option 82 field) in

mess

ages between DHCP servers and clients. When the relay

agent receives the DHCP request, it adds the option 82

information, and the IP address of the relay agent (if the relay

agent is configured), to the packet. Once the option 82 information

has been added to the packet it is sent on to the DHCP server.

When the DHCP server receives the packet, if the server is

capable of option 82, it can implement policies like restricting the

number of IP addresses that can be assigned to a single remote ID

or circuit ID. Then the DHCP server echoes the option 82 field in

the DHCP reply. The DHCP server unicasts reply to the back to the

relay agent if the request was relayed to the server by the relay

agent. The switch verifies that it originally inserted the option 82

ta. Finally, the relay agent removes the option 82 field and

forwards the packet to the switch port that connects to the DHCP

client that sent the DHCP request.

Disabled - If the field is toggled to Disabled the relay agent will not

insert and remove DHCP

relay information (option 82 field) in

messages between DHCP servers and clients, and the check and

policy settings will have no effect.

DHCP Relay Agent Information

Option 82 Check

It filed is used to enable or disable the ability to check DHCP option

82 information in DHCP packets:

Enabled – When the field is configured to Enabled, the relay agent

checks if DHCP packets carries option 82 information. If option 82

does not carried, the DHCP packet would be dropped.

Disabled – No check would be executed

when check state

configured to Disabled.

DHCP Relay Agent Information

Option 82 Policy

This filed is used to configure the policy for each port. It is used to

set the Switches policy for handling packets when the DHCP

Agent Information Option 82 Check is set to Disabled. There are

3 policies available to use:

Replace - The option 82 field will be replaced if the option 82 field

already exists in the packet received from the DHCP client.

Drop - The packet will be dropped if the option 82 field already

exists in the packet received from the DHCP client.

Keep -

The option 82 field will be retained if the option 82 field

already exists in the packet received from the DHCP client.

DHCP Relay Agent Information

Option 82 Remote ID

This filed is used to configure the contents of Remote ID used in

option 82. Options: Default, User Define are available to use.

Click Apply to apply the configurations.

NOTE: If the Switch receives a packet that contains the

option-82 field from a DHCP client and the information-

checking feature is enabled, the switch drops the packet

because it is invalid. However, in some instances, user

might configure a client with the option-82 field. In this

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

situation, user should disable the information-check

feature so that the switch does not remove the option-82

field from the packet. User can configure the action that

the switch takes when it receives a packet with existing

option-82 information by configuring the DHCP Agent

Information Option 82 Policy.

Configuration > DHCP Relay > DHCP Relay Interface Settings

This page allows the user to set up a server, by IP address, for relaying DHCP information the switch. The

user may enter a previously configured IP interface on the Switch that will be connected directly to the DHCP

server using the following window. Properly configured settings will be displayed in the DHCP Relay Table at

the bottom of the following window, once the user clicks the Add button under the Apply heading. The user

may add up to four server IPs per IP interface on the Switch. Entries may be deleted by clicking Delete

button.

Figure 4.82 - Configuration > DHCP Relay > DHCP Relay Interface Settings

Interface: The IP interface on the Switch that will be connected directly to the Server.

Server IP: Enter the IP address of the DHCP server. Up to four server IPs can be configured per IP Interface.

Click Apply to make the configurations take effect.

Configuration > DHCP Local Relay Settings

The DHCP Local Relay Settings page allows the user to configure DHCP Local Relay. DHCP broadcasts are

trapped by the switch CPU, and replacement broadcasts are forwarded with Option 82. Replies from the

DHCP servers are trapped by the switch CPU, the Option 82 is removed and the reply is sent to the DHCP

Client.

Figure 4.83 - Configuration > DHCP Local Relay Settings

DHCP Local Relay Status: Specifies whether DHCP Local Relay is enabled on the device.

Enabled – Enables DHCP Local Relay on the device.

Disabled – Disables DHCP Local Relay on the device. This is the default value.

DHCP Local Relay Port List: Specifies the port or ports for DHCP local relay port.

Config VLAN by: Configure the VLAN by VID or VLAN Name of drop-down menu.

State: Specifies whether DHCP Local Relay is enabled on the VLAN.

Enabled – Enables DHCP Local Relay on the VLAN.

Disabled – Disables DHCP Local Relay on the VLAN.

DHCP Local Relay VID List: Displays the list of VLANs on which DHCP Local Relay has been defined.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Click Apply to make the configurations take effect

Configuration > DHCPv6 Relay Settings

The DHCPv6 Relay Settings page allows user to configure the DHCPv6 settings.

Figure 4.84 - Configuration > DHCPv6 Relay Settings

DHCPv6 Relay Status: Specifies whether DHCPv6 Relay is enabled on the device.

Enabled – Enables DHCPv6 Relay on the device.

Disabled – Disables DHCPv6 Relay on the device. This is the default value.

DHCPv6 Relay Hops Count Limit (1-32): The field allows and entry between 1 and 32 to define the

maximum number of router hops DHCPv6 messages can be forwarded. The default hop count is 4.

DHCPv6 Relay Option37 State: Specifies the DHCPv6 Relay Option37 State to be enabled or disabled.

DHCPv6 Relay Option37 Check: Specifies the DHCPv6 Relay Option37 Check to be enabled or disabled.

DHCPv6 Relay Option37 Remote ID Type: Specifies the DHCPv6 Relay Option37 Remote ID type is CID

with User Defined, User Defined or Default.

Interface: Enter a name of the interface.

Server IP: Enter the server IP address.

Click Apply to make the configurations take effect.

Configuration > Spanning Tree > STP Bridge Global Settings

The Switch implements three versions of the Spanning Tree Protocol, the Rapid Spanning Tree Protocol

(RSTP) as defined by the IEEE 802.1w specification and a version compatible with the IEEE 802.1D STP

and Multiple Spanning Tree Protocol (MSTP) as defined by the IEEE802.1 specification. RSTP can operate

with legacy equipment implementing IEEE 802.1D, however the advantages of using RSTP will be lost.

The IEEE 802.1w Rapid Spanning Tree Protocol (RSTP) evolved from the 802.1D STP standard. RSTP was

developed in order to overcome some limitations of STP that impede the function of some recent switching

innovations. The basic function and much of the terminology is the same as STP. Most of the settings

configured for STP are also used for RSTP. This section introduces some new Spanning Tree concepts and

illustrates the main differences between the two protocols.

The IEEE 802.1 Multiple Spanning Tree (MSTP) provides various load balancing scenarios by allowing

multiple VLANs to be mapped to a single spanning tree instance, providing multiple pathways across the

network. For example, while port A is blocked in one STP instance, the same port can be placed in the

Forwarding state in another STP instance.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

By default, Rapid Spanning Tree is disabled. If enabled, the Switch will listen for BPDU packets and its

accompanying Hello packet. BPDU packets are sent even if a BPDU packet was not received. Therefore,

each link between bridges is sensitive to the status of the link. Ultimately this difference results in faster

detection of failed links, and thus faster topology adjustment.

By default Multiple Spanning Tree is enabled. It will tag BPDU packets to receiving devices and distinguish

spanning tree instances, spanning tree regions and the VLANs associated with them.

After enabling STP, setting the STP Global Setting includes the following options:

Figure 4.85 - Configuration > Spanning Tree > STP Bridge Global Settings

STP State: Specify the Spanning Tree Protocol to be Enabled or Disabled.

STP Version: Choose MSTP, RSTP or STP Compatible. The default setting is MSTP.

Bridge Priority: This value between 0 and 61410 specifies the priority for forwarding packets: the lower the

value, the higher the priority. The default is 32768.

TX Hold Count (1-10): Used to set the maximum number of Hello packets transmitted per interval. The

count can be specified from 1 to 10. The default is 6.

Maximum Age (6-40 sec): This value may be set to ensure that old information does not endlessly circulate

through redundant paths in the network, preventing the effective propagation of the new information. Set by

the Root Bridge, this value will aid in determining that the Switch has spanning tree configuration values

consistent with other devices on the bridged LAN. If the value ages out and a BPDU has still not been

received from the Root Bridge, the Switch will start sending its own BPDU to all other switches for permission

to become the Root Bridge. If it turns out that the Switch has the lowest Bridge Identifier, it will become the

Root Bridge. A time interval may be chosen between 6 and 40 seconds. The default value is 20. (Max Age

has to have a value bigger than Hello Time)

Hello Time (1-10 sec): The user may set the time interval between transmissions of configuration messages

by the root device, thus stating that the Switch is still functioning. The default is 2 seconds.

Forward Delay (4-30 sec): This sets the maximum amount of time that the root device will wait before

changing states. The default is 15 seconds.

Forwarding BPDU: Bridges use Bridge Protocol Data Units (BPDU) to provide spanning tree information.

STP BPDUs filtering is useful when a bridge interconnects two regions; each region needing a separate

spanning tree. BPDU filtering functions only when STP is disabled either globally or on a single interface.

Enabled - BPDU filtering is enabled on the port.

Disabled - BPDU forwarding is enabled on the port (if STP is disabled).

Maximum Hop (6-40 secs): Specifies the number of hops between devices in a spanning tree region before

the BPDU (bridge protocol data unit) packet sent by the Switch will be discarded. Each switch on the hop

count will reduce the hop count by one until the value reaches zero. The Switch will then discard the BPDU

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

packet and the information held for the port will age out. The user may set a hop count from 6 to 40. The

default is 20.

Root Bridge: Displays the MAC address of the Root Bridge.

Root Cost: Defines a metric that indicates the relative cost of forwarding packets to the specified port list.

Port cost can be set automatically or as a metric value. The default value is 0 (auto).

Root Maximum Age: Displays the Maximum Age of the Root Bridge. The default is 20.

Root Forward Delay: Displays the Forward Delay of the Root Bridge. The default is 15.

Root port: Displays the root port.

Click Apply for the settings to take effect. Click Refresh to renew the page.

Configuration > Spanning Tree > STP Port Settings

STP can be set up on a port per port basis. In addition to setting Spanning Tree parameters for use on the

switch level, the Switch allows for the configuration of the groups of ports, each port-group of which will have

its own spanning tree, and will require some of its own configuration settings.

An STP Group spanning tree works in the same way as the switch-level spanning tree, but the root bridge

concept is replaced with a root port concept. A root port is a port of the group that is elected based on port

priority and port cost, to be the connection to the network for the group. Redundant links will be blocked, just

as redundant links are blocked on the switch level.

The STP on the switch level blocks redundant links between switches (and similar network devices). The

port level STP will block redundant links within an STP Group.

It is advisable to define an STP Group to correspond to a VLAN group of ports.

Figure 4.86 – Configuration > Spanning Tree > STP Port Settings

From Port/To Port: A consecutive group of ports may be configured starting with the selected port.

State: Use the drop-down menu to enable or disable STP by per-port based. It will be selectable after the

global STP is enabled.

External Cost: This defines a metric that indicates the relative cost of forwarding packets to the specified

port list. Port cost can be set automatically or as a metric value. Thedefault value is 0 (auto).

0 (auto) - Setting 0 for the external cost will automatically set the speed for forwarding packets to the

specified port(s) in the list for optimal efficiency. Default port cost: 100Mbps port = 200000. Gigabit

port = 20000.

Value 1-200000000 - Define a value between 1 and 200000000 to determine the external cost. The

lower the number, the greater the probability the port will be chosen to forward packets.

Migrate: Setting this parameter as Yes will set the ports to send out BPDU packets to other bridges,

requesting information on their STP setting. If the Switch is configured for RSTP, the port will be capable to

migrate from 802.1d STP to 802.1w RSTP. Migration should be set as yes on ports connected to network

stations or segments that are capable of being upgraded to 802.1w RSTP on all or some portion of the

segment.

Edge: Selecting the True parameter designates the port as an edge port. Edge ports cannot create loops,

however an edge port can lose edge port status if a topology change creates a potential for a loop. An edge

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

port normally should not receive BPDU packets. If a BPDU packet is received, it automatically loses edge

port status. Selecting the False parameter indicates that the port does not have edge port status. Selecting

the Auto parameter indicates that the port have edge port status or not have edge port status automatically.

Priority: Specify the priority of each port. Selectable range is from 0 to 240, and the default setting is 128.

The lower the number, the greater the probability the port will be chosen as a root port.

P2P: Choosing the True parameter indicates a point-to-point (P2P) shared link. P2P ports are similar to edge

ports, however they are restricted in that a P2P port must operate in full-duplex.

Like edge ports, P2P ports transition to a forwarding state rapidly thus benefiting from RSTP. A p2p value of

false indicates that the port cannot have p2p status. Auto allows the port to have p2p status whenever

possible and operate as if the p2p status were true. If the port cannot maintain this status, (for example if the

port is forced to half-duplex operation) the p2p status changes to operate as if the p2p value were False. The

default setting for this parameter is Auto.

Restricted Role: Toggle between True and False to set the restricted role state of the packet. If set to True,

the port will never be selected to be the Root port. The default value is False.

Restricted TCN: Toggle between True and False to set the restricted TCN of the packet. Topology Change

Notification (TCN) is a BPDU that a bridge sends out to its root port to signal a topology change. If set to

True, it stops the port from propagating received TCN and to other ports. The default value is False.

Forwarding BPDU: Bridges use Bridge Protocol Data Units (BPDU) to provide spanning tree information.

STP BPDUs filtering is useful when a bridge interconnects two regions; each region needing a separate

spanning tree. BPDU filtering functions only when STP is disabled either globally or on a single interface.

The possible field values are:

Disabled – BPDU filtering is enabled on the port.

Enabled – BPDU forwarding is enabled on the port (if STP is disabled).

Hello Time: The interval between two transmissions of BPDU packets sent by the Root Bridge to indicate to

all other switches that it is indeed the Root Bridge. The default value is 2.

Click Apply to make the configurations take effect.

Click Refresh to renew the page.

Configuration > Spanning Tree > MST Configuration Identification

The MST Configuration Identification page allows user to configure a MSTI instance on the switch. These

settings will uniquely identify a multiple spanning tree instance set on the switch. The Switch initially

possesses one CI ST or Common Internal Spanning Tree of which the user may modify the parameters for but

cannot change the MSTI ID for, and cannot be deleted.

Figure 4.87 - Configuration > Spanning Tree > MST Configuration Identification

MST Configuration Identification Settings:

Configuration Name: A previously configured name set on the Switch to uniquely identify the MSTI (Multiple

Spanning Tree Instance). If a configuration name is not set, this field will show the MAC address to the

device running MSTP. This field can be set in the STP Bridge Global Set-tings window.

Revision Level: This value, along with the Configuration Name will identify the MSTP region configured on

the Switch. The user may choose a value between 0 and 65535 with a default setting of

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

MSTI ID (1-15): Enter a number between 1 and 15 to set a new MSTI on the Switch.

Type: This field allows the user to choose a desired method for altering the MSTI settings.

Add VID - Select this parameter to add VIDs to the MSTI ID, in conjunction with the VID List

parameter.

Remote VID – Select this parameter to remove VIDs from the MSTI ID, in con-junction with the VID

List parameter.

VID List (1-4094): This field displays the VLAN IDs associated with the specific MSTI.

Click Apply to make the configurations take effect.

Configuration > Spanning Tree > STP Instance Settings

The STP Instance Settings page display MSTIs currently set on the Switch and allows users to change the

Priority of the MSTPs.

Figure 4.88 - Configuration > Spanning Tree > STP Instance Settings

To modify an entry on the table, click the Edit button. To view more information about and entry on the table

at the top of the window, click the view button.

The window above contains the following information:

MSTI ID: Enter the MSTI ID in this field. An entry of 0 denotes the CIST (default MSTI).

Priority: Enter the new priority in the Priority field. The user may set a priority value between 0-61440.

Click Apply to implement the new priority setting.

Configuration > Spanning Tree > MSTP Port Information

The MSTP Port Information page can be used to update the port configuration for an MSTI ID. If a loop

occurs, the MSTP function will use the port priority to select an interface to put into the forwarding state. Set

a higher priority value for interfaces to be selected for forwarding first. In instances where the priority value is

identical, the MSTP function will implement the lowest MAC address into the forwarding state and other

interfaces will be blocked.

To View the MSTI settings for a particular port, select the Port number and click Find button. To modify the

settings for a particular MSTI Instance, click Edit button, then modify the MSTP Port Setting and click Apply.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.89 - Configuration > Spanning Tree > MST Port Information

Instance ID: Displays the MSTI ID of the instance being configured. An entry of 0 in this field denotes the

CIST (default MSTI).

Internal Path Cost (0=Auto): This parameter is set to represent the relative cost of forwarding packets to

specified ports when an interface is selected within a STP instance. The default setting is 0 (auto).

0 (Auto) - Selecting this parameter for the internal Cost will set quickest route automatically and

optimally for an interface. The default value is derived from the media speed of the interface.

Value 0-2000000 - Selecting this parameter with a value in the range of 0 to 2000000 will set the

quickest route then a loop occurs. A lower internal cost represents a quicker transmission.

Priority: Enter a value between 0 and 240 to set the priority for the port interface. A higher priority will

designate the interface to forward packets first. A lower number denotes a higher priority.

Configuration > 802.3ah EthernetLink OAM > Ethernet OAM Port Settings

The Ethernet OAM Port Settings page allows user to configure the Ethernet OAM settings.

Figure 4.90 - Configuration > Ethernet OAM > Ethernet OAM Port Settings

From Port/To Port: Select a range of ports to be configured.

Mode: Use the drop-down menu to select to operate in either Active or Passive. The default mode is Active.

State: Use the drop-down menu to enable or disable the OAM function.

Remote Loopback: Specifies the Ethernet OAM remote loopback is None or Start.

None – Select to disable the remote loopback.

Start – Select to request the peer to change to the remote loopback mode.

Received Remote Loopback: To configure the client to process or to ignore the received Ethernet OAM

remote loopback command.

Process – Select to process the received Ethernet OAM remote loopback command.

Ignore – Select to ignore the received Ethernet OAM remote loopback command.

Click Apply to make the configurations take effect.

Configuration > 802.3ah EthernetLink OAM > Ethernet OAM Event Configuration

The Ethernet OAM Event Configuration page allows user to configure the Ethernet OAM configuration

settings.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.91 - Configuration > Ethernet OAM > Ethernet OAM Event Configuration

From Port / To Port: Select a range of ports to be configured.

Link Event: Select the link event, Link Monitor or Critical Link Event.

Link Monitor: Select the link monitor. Avaliable options are Symbol Error, Frame Error, Frame Period

Error, and Frame Seconds Error.

Threshold (0-4294967295): Enter the number of error frame or symbol in the period is required to be equal

to or greater than in order for the event to be generated.

Window (1000-60000): Enter the period of error frame or symbol in milliseconds summary event.

Notify: Select the notification to be enabled or disabled.

Click the Apply button to accept the changes made.

Configuration > DDM > DDM Settings

The Digital Diagnostic Monitoring (DDM) functions allow the user to view the digital diagnostic monitoring

status of SFP modules inserting to the Switch and to configure related settings.

The DDM Settings page allows user to configure the action that will occur for specific ports when an

exceeding alarm threshold or warning threshold event is encountered.

Figure 4.92 - Configuration > DDM > DDM Settings

Power Unit: Specifies the power unit for DDM. The options are mW (milliwatts) and dBm (decibel-milliwatts).

From Port / To Port: Specifies a port or range of ports to be configured.

State: Specifies to enable or disable the DDM settings state.

Shutdown: Specifies whether or not to shutdown the port, when the operating parameter exceeds the Alarm

or Warning threshold.

Click the Apply button to accept the changes made.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Configuration > DDM > DDM Temperature Settings

The DDM Temperature Threshold Settings page allows user to configure the DDM temperature threshold for

specific ports on the Switch.

Figure 4.93 - Configuration > DDM > DDM Temperature Settings

Port: Specifies the port to be configured.

Type: Specifies the type for the operating parameter, the options are High Alarm, Low Alarm, High Warning

and Low Warning.

High Alarm: Specifies the high threshold for the alarm. When the operating temperature rises above

the configured value, the action associated with the alarm is taken.

Low Alarm: Specifies the low threshold for the alarm. When the operating temperature falls below

the configured value, the action associated with the alarm is taken.

High Warning: Specifies the high threshold for the warning. When the operating temperature rises

above the configured value, the action associated with the warning is taken.

Low Warning: Specifies the low threshold for the warning. When the operating temperature falls

below the configured value, the action associated with the warning is taken.

Vaule (-128 – 127.996): Specifies the value for the specified type of port.

Click Apply to make the configurations take effect.

Configuration > DDM > DDM Voltage Settings Threshold Settings

The DDM Voltage Settings Threshold Settings page is used to configure the DDM voltage threshold for

specific ports on the Switch.

Figure 4.94 - Configuration > DDM > DDM Voltage Settings Threshold Settings

Port: Specifies the port to be configured.

Type: Specifies the type for the operating parameter, the options are High Alarm, Low Alarm, High Warning

and Low Warning.

High Alarm: Specifies the high threshold for the alarm. When the operating Voltage rises above the

configured value, the action associated with the alarm is taken.

Low Alarm: Specifies the low threshold for the alarm. When the operating Voltage falls below the

configured value, the action associated with the alarm is taken.

High Warning: Specifies the high threshold for the warning. When the operating Voltage rises

above the configured value, the action associated with the warning is taken.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Low Warning: Specifies the low threshold for the warning. When the operating Voltage falls below

the configured value, the action associated with the warning is taken.

Vaule (0 – 6.55): Specifies the value for the specified type of port.

Click Apply to make the configurations take effect.

Configuration > DDM > DDM Bias Current Threshold Settings

The DDM Bias Current Threshold Settings page is used to configure the DDM Bias current threshold for

specific ports on the Switch.

Figure 4.95 - Configuration > DDM > DDM Bias Current Threshold Settings

Port: Specifies the port to be configured.

Type: Specifies the type for the operating parameter, the options are High Alarm, Low Alarm, High Warning

and Low Warning.

High Alarm: Specifies the high threshold for the alarm. When the Bias current threshold rises above

the configured value, the action associated with the alarm is taken.

Low Alarm: Specifies the low threshold for the alarm. When the Bias current threshold falls below

the configured value, the action associated with the alarm is taken.

High Warning: Specifies the high threshold for the warning. When the Bias current threshold rises

above the configured value, the action associated with the warning is taken.

Low Warning: Specifies the low threshold for the warning. When the Bias current threshold falls

below the configured value, the action associated with the warning is taken.

Vaule (0 – 131): Specifies the value for the specified type of port.

Click Apply to make the configurations take effect.

Configuration > DDM > DDM TX Power Threshold Settings

The DDM TX Power Threshold Settings page is used to configure the threshold of TX power for specific

ports on the Switch.

Figure 4.96 - Configuration > DDM > DDM TX Power Threshold Settings

Port: Specifies the port to be configured.

Type: Specifies the type for the operating parameter, the options are High Alarm, Low Alarm, High Warning

and Low Warning.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

High Alarm: Specifies the high threshold for the alarm. When the TX power threshold rises above

the configured value, the action associated with the alarm is taken.

Low Alarm: Specifies the low threshold for the alarm. When the TX power threshold falls below the

configured value, the action associated with the alarm is taken.

High Warning: Specifies the high threshold for the warning. When the TX power threshold rises

above the configured value, the action associated with the warning is taken.

Low Warning: Specifies the low threshold for the warning. When the TX power threshold falls below

the configured value, the action associated with the warning is taken.

Vaule (0 – 6.5535): Specifies the value for the specified type of port.

Click Apply to make the configurations take effect.

Configuration > DDM > DDM RX Power Threshold Settings

The DDM RX Power Threshold Settings page is used to configure the threshold of RX power for specific

ports on the Switch.

Figure 4.97 - Configuration > DDM > DDM RX Power Threshold Settings

Port: Specifies the port to be configured.

Type: Specifies the type for the operating parameter, the options are High Alarm, Low Alarm, High Warning

and Low Warning.

High Alarm: Specifies the high threshold for the alarm. When the RX power threshold rises above

the configured value, the action associated with the alarm is taken.

Low Alarm: Specifies the low threshold for the alarm. When the RX power threshold falls below the

configured value, the action associated with the alarm is taken.

High Warning: Specifies the high threshold for the warning. When the RX power threshold rises

above the configured value, the action associated with the warning is taken.

Low Warning: Specifies the low threshold for the warning. When the RX power threshold falls below

the configured value, the action associated with the warning is taken.

Vaule (0 – 6.5535): Specifies the value for the specified type of port.

Click Apply to make the configurations take effect.

Configuration > DDM > DDM Status Table

The DDM Status Table page displays the current operating digital diagnostic monitoring parameters and their

values on the SFP module for specified ports.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.98 - Configuration > DDM > DDM Status Table

Configuration > DDM > DDM Vendor Info

The DDM Vendor Info page displays the current vendor’s operating digital diagnostic monitoring parameters

and their values on the SFP module for specified ports.

Figure 4.99 - Configuration > DDM > DDM Vendor Info

Configuration > DULD > DULD Port Settings

The DULD Port Settings page allows user to configure the unidirectional link detection on ports.

Unidirectional link detection provides discovery mechanism based on 802.3ah to discovery its neighbor. If

the OAM discovery can complete in configured discovery time, it concludes the link is bidirectional.

Otherwise, it starts detecting task to detect the link status.

Figure 4.100 - Configuration > DULD > DULD Port Settings

From Port / To Port: Specifies a range of ports to be configured.

Admin State: Enable or disable the port unidirectional link detection status. The default is disabled.

Mode: Specifies the mode of DULD.

Normal – Only log and event when a unidirectional link is detected.

Shutdown – If any unidirectional link is detected, disable the port and log an event.

Discovery Time (5-65535): Specifies these ports neighbor discovery time. If the discovery is timeout, the

unidirectional link detection will start. The default discovery time is 5 seconds.

Configuration > Multicast Forwarding & Filtering > Multicast Forwarding

Allow user to create static multicast entry.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.101 - Configuration > Multicast Forwarding & Filter > Multicast Forwarding

VID: Specify the VID

Multicast MAC Address: Specify the multicast address.

Egress: Click the Port Number for multicast traffic.

Configuration > Multicast Forwarding & Filtering > Multicast Filter Mode

The Multicast Filtering Mode page allows user to set up the filtering mode.

Figure 4.102 - Configuration > Multicast Forwarding & Filtering > Multicast Filtering

From Port / To Port: Specify the ports of the VLAN on which the corresponding MAC address belongs to.

Multicast Filtering Mode: This drop-down menu allows user to select the action the Switch will take when it

receives a multicast packet that is to be forwarded to one of the ports in the range specified above.

Forward Unregistered Groups - This will instruct the Switch to forward a multicast packet whose

destination is an unregistered multicast group residing within the range of ports specified above.

Filter Unregistered Groups - This will instruct the Switch to filter any multicast packets whose

destination is an unregistered multicast group residing within the range of ports specified above.

Configuration > Multicast Forwarding & Filtering > IP Multicast Profile Settings

The IP Multicast Profile Settings page allows user to configure the IP Multicast Profile.

Figure 4.103 - Configuration > IGMP Snooping > IP Multicast Profile Settings

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Profile ID: Specify the Profile ID.

Profile Name: Specify the Profile Name.

Click Add to create a new IP Multicast Profile or click Delete All to clear all the entries.

Configuration > Multicast Forwarding & Filtering > Limited Multicast Range Settings

The Limited Multicast Range Settings page allows user to configure the Limited Multicast. Specify the port

range, select Access IP Type is IPv4 or IPv6 and select the Access is Deny or Permit then Click Apply to

make the configurations take effect.

Figure 4.104- Configuration > IGMP Snooping > Limited Multicast Range Settings

From Port / To Port: Specify the port ranges to be configured.

Profile Type: Specify the profile type is IPv4 or IPv6.

Profile ID: Specify the Profile ID.

Click Add to create the Profile ID with specified ports or click Delete to remove the ports

Configuration > Multicast Forwarding & Filtering > MAX Multicast Group Settings

The Max Multicast Group Settings page allows user to configure the max multicast group for IGMP Snooping.

Figure 4.105- Configuration > IGMP Snooping > Max Multicast Group Settings

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

From Port / To Port: Specify the port ranges to be configured.

IP Type: Specify the IP type is IPv4 or IPv6.

Max Group (1-32): Specify the Max Group to be configured.

Action: Use the drop-down menu to select the appropriate action for this rule. The user can select Drop to

initiate the drop action or the user can select Replace to initiate the replace action.

Click Apply to make the configurations take effect.

QoS > Traffic Control

The Traffic Control feature provides the ability to control the receive rate of broadcast, multicast, and

unknown unicast packets. Once a packet storm has been detected, the Switch will drop packets coming into

the Switch until the storm has subsided.

Figure 4.106 – QoS > Traffic Control

Parameter Description

From Port / To Port Specify the From and To port(s) to be configured.

Action

Drop

: Utilizes the hardware Traffic Control mechanism,

which means the Switch’s hardware will determine the

Packet Storm based on the Threshold value stated and

drop packets until the issue is resolved.

Shutdown: Utilizes the Switch’s software

Traffic Control

mechanism to determine the Packet Storm occurring. Once

detected, the port will deny all incoming traffic to the port

except STP BPDU packets, which are essential in keeping

the Spanning Tree operational on the Switch. If the

countdown time

r has expired and yet the Packet Storm

continues, the port will be placed in rest mode and if no

action is taken will enter auto-

recovery mode after a five

minute period. Choosing this option obligates the user to

configure the interval setting as well, wh

ich will provide

packet count samplings from the Switch’s chip to determine

if a Packet Storm is occurring.

Drop Threshold

(64Kbps * N) Specify the threshold from 64 ~ 1,024,000 Kbit per second,

with steps (N) of 64Kbps. N can be from 1 to 16000.

Count Down

(0 or 5-30)

The countdown timer is set to determine the amount of

time, in minutes, that the Switch will wait before shutting

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

down the port that is experiencing a traffic storm. This

parameter is only useful for ports configured as Shutdown

in their Action field and therefore will not operate for

Hardware based Traffic Control implementations. The

possible time settings for this field are 0, 5-30 minutes. 0

denotes that the port will never shutdown.

Time Interval (5-30)

The interval will set the time between Multicast and

Broadcast packet counts sent from the Switch’s chip to the

Traffic Control function. These packet counts are the

determining factor in deciding when incoming packets

exceed the Threshold value. The interval may be set

between 5 and 30 seconds with the default setting of 5

seconds.

Shutdown Threshold

(0-255000)

Specify the shutdown threshold for traffic threshold.

Storm Control Type

User can select the

different Storm type from Broadcast,

Multicast, Broadcast + Multicast, Unknown Unicast,

Broadcast + Unknown Unicast, Multicast + Unknown

Unicast, and Broadcast + Multicast + Unknown Unicast.

Click Apply for the settings to take effect.

Auto Recover Time (0-65535): Specify the auto recover time. The value is from 0 to 65535.

Click Apply for the settings to take effect.

Traffic Trap Settings: Specify the traffic trap is None, Storm Occurred, Storm Cleared or Both.

Click Apply for the settings to take effect.

NOTE: Traffic Control cannot be implemented on

ports that are set for Link Aggregation.

NOTE: Ports that are in the rest mode will be

seen as Discarding in Spanning Tree windows

and implementations though these ports will still

be forwarding BPDUs to the Switch’s CPU.

NOTE: Ports that are in rest mode will be seen as

lin

k down in all windows and screens until it

enters the auto-

recovery mode or the user

recovers these ports by configuring the port state.

QoS > Bandwidth Control

The Bandwidth Control page allows network managers to define the bandwidth settings for a specified port’s

transmitting and receiving data rates.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.107 – QoS > Bandwidth Control

From Port / To Port: A consecutive group of ports may be configured starting with the selected port.

Type: This drop-down menu allows user to select between RX (receive), TX (transmit), and Both. This

setting will determine whether the bandwidth ceiling is applied to receiving, transmitting, or both receiving

and transmitting packets.

No Limit: This drop-down menu allows user to specify that the selected port will have no bandwidth limit.

Enabled disables the limit.

Rate 16-1000000): This field allows user to enter the data rate, in Kbits per second, will be the limit for the

selected port. The value is between 63 and 1024000.

Click Apply to set the bandwidth control for the selected ports.

NOTE: The TX rate for Gigabit ports can only be

configured in multiples of 1850kbps. If any other

value is used, the system automatically rounds it

down to the lower multiple of 1850.

QoS > QoS Settings

This page allows user to configure Qos port priority and queue mechanism.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.108 – QoS > QoS Setting

Select QoS Mode: Select QoS mode from options “Port Base”, “802.1P” and “DSCP”

Queuing mechanism: Select options from “Strict Priority” and “WRR”

From Port / To Port: Select the port that will port priority would applied

Priority: Priority from 0-7

RMON > RMON Basic Settings

Users can enable and disable remote monitoring (RMON) status for the SNMP function on the Switch. In

addition, RMON Rising and Falling Alarm Traps can be enabled and disabled. Click Apply to make effects.

Figure 4.109 - RMON > RMON Basic Settings

RMON > RMON Ethernet Statistics Configuration

The RMON Statistics Configuration page displays the information of RMON Ethernet Statistics and allows

the user to configure the settings.

Figure 4.110 - RMON > RMON Ethernet Statistics Configuration

The RMON Ethernet Statistics Configuration contains the following fields:

Index (1 - 65535): Indicates the RMON Ethernet Statistics entry number.

Port: Specifies the port from which the RMON information was taken.

Owner: Displays the RMON station or user that requested the RMON information.

Click Apply to make the configurations take effect.

RMON > RMON History Control Configuration

The RMON History Control Configuration page contains information about samples of data taken from ports.

For example, the samples may include interface definitions or polling periods.

Figure 4.111 - RMON > RMON History Control Configuration

The History Control Configuration contains the following fields:

Index (1 - 65535): Indicates the history control entry number.

Port: Specifies the port from which the RMON information was taken.

Buckets Requested (1 ~ 50): Specifies the number of buckets that the device saves.

Interval (1 ~ 3600): Indicates in seconds the time period that samplings are taken from the ports. The field

range is 1-3600. The default is 1800 seconds (equal to 30 minutes).

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Owner: Displays the RMON station or user that requested the RMON information.

Click Apply to make the configurations take effect.

RMON > RMON Alarm Configuration

The RMON Alarm Configuration page allows the user to configure the network alarms. Network alarms occur

when a network problem, or event, is detected.

Figure 4.112 - RMON > RMON Alarm Settings

The configuration contains the following fields:

Index (1 - 65535): Indicates a specific alarm.

Variable: Specify the selected MIB variable value.

Rising Threshold (0 ~ 2^31-1): Displays the rising counter value that triggers the rising threshold alarm.

Rising Event Index (1 ~ 65535): Displays the event that triggers the specific alarm. The possible field values are

user defined RMON events.

Owner: Displays the device or user that defined the alarm.

Interval (1 ~ 2^31-1): Defines the alarm interval time in seconds.

Sample type: Defines the sampling method for the selected variable and comparing the value against the

thresholds. The possible field values are:

Delta value – Subtracts the last sampled value from the current value. The difference in the values

is compared to the threshold.

Absolute value – Compares the values directly with the thresholds at the end of the sampling

interval.

Falling Threshold (0 ~ 2^31-1): Displays the falling counter value that triggers the falling threshold alarm.

Falling Event Index (1 ~ 65535): Displays the event that triggers the specific alarm. The possible field values are

user defined RMON events.

Click Apply to make the configurations take effect.

RMON > RMON Event Configuration

The RMON Event page contains fields for defining, modifying and viewing RMON events statistics.

Figure 4.113 - RMON > RMON Event Configuration

The RMON Events Page contains the following fields:

Index (1~ 65535): Displays the event.

Description: Specifies the user-defined event description.

Type: Specifies the event type. The possible values are:

None – Indicates that no event occurred.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Log – Indicates that the event is a log entry.

SNMP Trap – Indicates that the event is a trap.

Log and Trap – Indicates that the event is both a log entry and a trap.

Community: Specifies the community to which the event belongs.

Owner: Specifies the time that the event occurred.

Click Apply to add a new RMON event.

Security > Trusted Host

Use Trusted Host function to manage the switch from a remote station. User can specify up to ten

designated management stations networks by defining the IP address/Subnet Mask as seen in the figure

below.

Figure 4.114 - Security > Trusted Host

To define a management station IP setting, click the Add Host button and type in the IP address and Subnet

mask. Click the Apply button to save the settings. User may permit only single or a range of IP addresses by

different IP mask settings, the format can either be 192.168.1.1/255.255.255.0 or 192.168.0.1/24. Please

see the example below for permitting the IP range

IP Address Subnet Mask Permitted IP

192.168.0.1 255.255.255.0 192.168.0.1~192.168.0.255

172.17.5.215 255.0.0.0 172.0.0.1~172.255.255.255

To delete the IP address, simply click the Delete button. Check the unwanted address, and then click Apply.

Security > Safeguard Engine

D-Link’s Safeguard Engine is a robust and innovative technology that automatically throttles the impact of

packet flooding into the switch's CPU. This function helps protect the Switch from being interrupted by

malicious viruses or worm attacks. This option is enabled by default.

Figure 4.115 – Security > Safeguard Engine

Security > Port Security

Port Security is a security feature that prevents unauthorized computers (with source MAC addresses)

unknown to the Switch prior to stopping auto-learning processing from gaining access to the network.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

A given ports’ (or a range of ports') dynamic MAC address learning can be stopped such that the current

source MAC addresses entered into the MAC address forwarding table cannot be changed once the port is

enabled.

Figure 4.116 - Security > Port Security

The Port Security page contains the following fields:

From Port/To Port: A consecutive group of ports may be configured starting with the selected port.

Admin State: This pull-down menu allows users to enable or disable Port Security (locked MAC address

table for the selected ports).

Max. Learning Address (0-64): The number of MAC addresses that will be in the MAC address-forwarding

table for the selected switch and group of ports.

Lock Address Mode: This pull-down menu allows user to select how the MAC address table locking will be

implemented on the Switch, for the selected group of ports. The options are:

Delete On Reset – The locked addresses will not age out until the Switch has been reset.

Delete On Timeout – The locked addresses will age out after the aging timer expires.

Permanent – The locked addresses will not age out after the aging timer expires.

Click Apply to make configurations make effects.

Security > Port Security FDB Entry

The page displays the MAC entries that trigger port security reaction.

Figure 4.117 - Configuration > Port Security FDB Entry

By click Delete, the MAC entry will be released for Port Security FDB.

Security > 802.1X > 802.1X Settings

Network switches provide easy and open access to resources by simply attaching a client PC. Unfortunately

this automatic configuration also allows unauthorized personnel to easily intrude and possibly gain access to

sensitive data.

IEEE-802.1X provides a security standard for network access control, especially in Wi-Fi wireless networks.

802.1X holds a network port disconnected until authentication is completed. The switch uses Extensible

Authentication Protocol over LANs (EAPOL) to exchange authentication protocol client identity (such as a

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

user name) with the client, and forward it to another remote RADIUS authentication server to verify access

rights. The EAP packet from the RADIUS server also contains the authentication method to be used. The

client can reject the authentication method and request another, depending on the configuration of the client

software and the RADIUS server. Depending on the authenticated results, the port is either made available

to the user, or the user is denied access to the network.

The RADIUS servers make the network a lot easier to manage for the administrator by gathering and storing

the user lists.

Figure 4.118 - Security > 802.1X > 802.1X Settings

By default, 802.1X is disabled. To use EAP for security, select enabled and set the Authentication Mode

and Authentication Protocol then click Apply.

Authentication Mode: Indicates the 802.1X mode enabled on the device. The possible field values are:

Port Based – Enables 802.1X on ports. This is the default value.

MAC Based – Enables 802.1X on MAC addresses.

Authentication Protocol: Indicates the 802.1X Protocol on the device. The possible field values are Local

and RADIUS EAP.

From Port/To Port: Enter the port or ports to be set.

QuietPeriod (0 – 65535 sec): Sets the number of seconds that the switch remains in the quiet state

following a failed authentication exchange with the client. Default is 60 seconds.

ServerTimeout (1 – 65535 sec): Sets the amount of time the switch waits for a response from the client

before resending the response to the authentication server. Default is 30 seconds.

TxPeriod (1 – 65535 sec): This sets the TxPeriod of time for the authenticator PAE state machine. This

value determines the period of an EAP Request/Identity packet transmitted to the client. Default is 30

seconds.

ReAuthentication: Determines whether regular reauthentication will take place on this port. The default

setting is Disabled.

Capability: Indicates the capability of the 802.1X. The possible field values are:

Authenticator – Specify the Authenticator settings to be applied on a per-port basis.

None – Disable 802.1X functions on the port.

SuppTimeout (1 – 65535 sec): This value determines timeout conditions in the exchanges between the

Authenticator and the client. Default is 30 seconds.

MaxReq (1 – 10): This parameter specifies the maximum number of times that the switch retransmits an

EAP request (md-5challnege) to the client before it times out the authentication session. Default is 2 times.

ReAuthPeriod (1 – 65535 sec): A constant that defines a nonzero number of seconds between periodic

reauthentication of the client. The default setting is 3600 seconds.

Port Control: This allows user to control the port authorization state.

Select ForceAuthorized to disable 802.1X and cause the port to transition to the authorized state

without any authentication exchange required. This means the port transmits and receives normal

traffic without 802.1X-based authentication of the client.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

If ForceUnauthorized is selected, the port will remain in the unauthorized state, ignoring all

attempts by the client to authenticate. The Switch cannot provide authentication services to the client

through the interface.

If Auto is selected, it will enable 802.1X and cause the port to begin in the unauthorized state,

allowing only EAPOL frames to be sent and received through the port. The authentication process

begins when the link state of the port transitions from down to up, or when an EAPOL-start frame is

received. The Switch then requests the identity of the client and begins relaying authentication

messages between the client and the authentication server.

The default setting is Auto.

Direction: Sets the administrative-controlled direction on the port. The possible field values are:

Both – Specify the control is exerted over both incoming and outgoing traffic through the controlled

port selected in the first field.

In – Disables the support in the present firmware release.

Click Apply to make the configurations take effect.

Security > 802.1X > 802.1X User

The 802.1X User page allows user to set different local users on the Switch. Enter a 802.1X User name,

Password and Confirm Password. Properly configured local users will be displayed in the table.

Figure 4.119 - Security > 802.1X > 802.1X User

Click Add to add a new 802.1X user.

Security > 802.1X > Radius Accounting Settings

The page allows user to turn of accounting state in 802.1x.

Figure 4.120 - Security > 802.1X > Radius Accounting Settings

Security > 802.1X > 802.1X Authentication RADIUS Server

The 802.1X Authentication RUAIUS of the Switch allows user to facilitate centralized user administration as

well as providing protection against a sniffing, active hacker.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.121 - Security > 802.1X > 802.1X Authentication RUDIUS

Index: Choose the desired RADIUS server to configure: 1, 2 or 3.

IP Address: Select IPv4 or IPv6 and enter the IP address.

Authentication Port (1 - 65535): Set the RADIUS authentic server(s) UDP port. The default port is 1812.

Accounting Port (1 - 65535): Set the RADIUS account server(s) UDP port. The default port is 1813.

Timeout (1 – 255 sec): This field will set the time the Switch will wait for a response of authentication from

the user. The user may set a time between 1 and 255 seconds. The default setting is 5 seconds.

Retransmit (1 – 255 times): This command will configure the maximum number of times the Switch will

accept authentication attempts. Users failing to be authenticated after the set amount of attempts will be

denied access to the Switch and will be locked out of further authentication attempts. Command line

interface users will have to wait 60 seconds before another authentication attempt. Telnet and web users will

be disconnected from the Switch. The user may set the number of attempts from 1 to 255. The default

setting is 2.

Key: Set the key the same as that of the RADIUS server.

Confirm Key: Confirm the shared key is the same as that of the RADIUS server.

Click Apply to make the configurations take effect.

Security > 802.1X > 802.1X Guest VLAN

The 802.1X Guest VLAN page allows user to set a Guest VLAN, and the user must first configure a normal

VLAN which can be enabled here for Guest VLAN status.

Enter the pre-configured VLAN name to create as a Guest 802.1X VLAN and select the port or ports. Click

Apply to implement the settings.

Figure 4.122 - Security > 802.1X > 802.1X Guest VLAN

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Security > MAC Address Table > Static MAC

Allow user to create static MAC address entry into forwarding table. This feature usually used in the port

connected to certain devices that are permanent used in network, for example: DHCP servers, syslog server,

network gateway location, etc.

Figure 4.123 – Security > MAC Address Table > Static Mac Address

The Static MAC Address Lists table displays the static MAC addresses connected, as well as the VID.

Add Static MAC Address: you need to select the assigned Port number. Enter both the Mac Address and

VID, and then Click Add. Click Delete to remove one entry or click Delete all to clear the list.

Security > MAC Address Table > Dynamic Forwarding Table

For each port, this table displays the MAC address learned by the Switch. To add a MAC address to the

Static Mac Address List, click the Add checkbox, and then click Apply associated with the identified address.

Figure 4.124 – Security > MAC Address Table > Dynamic Forwarding Table

Security > Access Authentication Control > Authentication Policy Settings

This feature will enable an administrator-defined authentication policy for users trying to access the Switch.

When enabled, the device will check the Login Method List and choose a technique for user authentication

upon login.

Figure 4.125 – Security > Access Authentication control > Authentication Policy Settings

Authentication Policy: Use the pull-down menu to enable or disable the Authentication Policy on the Switch.

Response Timeout (0 - 255): This field will set the time the Switch will wait for a response of authentication

from the user. The user may set a time between 0 and 255 seconds. The default setting is 30 seconds.

User attempts (1 - 255): This command will configure the maximum number of times the Switch will accept

authentication attempts. Users failing to be authenticated after the set amount of attempts will be denied

access to the Switch and will be locked out of further authentication attempts. Command line interface users

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

will have to wait 60 seconds before another authentication attempt. Telnet and web users will be

disconnected from the Switch. The user may set the number of attempts from 1 to 255. The default setting is

Click Apply to make the configurations take effect.

Security > Access Authentication Control > Application Authentication Settings

The Application Authentication Settings page allows user to configure switch configuration applications

(Console, Telnet, SSH, HTTP) for login at the user level and at the administration level (Enable Admin)

utilizing a previously configured method list.

Figure 4.126 – Security > Access Authentication control > Application Authentication Settings

Application: Lists the configuration applications on the Switch. The user may configure the Login Method

List and Enable Method List for authentication for Console, Telnet application, SSH and the WEB (HTTP)

application.

utilizing a previously configured method list. The user may use the default Method List or other Method List

configured by the user.

Enable Method List: Using the pull-down menu, configure an application for normal login on the user level,

utilizing a previously configured method list. The user may use the default Method List or other Method List

configured by the user.

Click Apply to implement configuration changes.

Security > Access Authentication Control > Authentication Server Group

A server group is a technique used to group TACACS+ and RADIUS server hosts into user-defined

categories for authentication using method lists. The user may define the type of server group by protocol or

by previously defined server group. The Switch has three built-in Authentication Server Groups that cannot

be removed but can be modified.

To add a user-defined group to the list, click the Add button in the Authentication Server Group page.

Figure 4.127 – Security > Access Authentication control > Authentication Server Group

Simply enter a group name of no more than 15 alphanumeric characters to define the user group to add.

After clicking Apply, the new user-defined group will be displayed in the Server Group table. Here, it can be

configured as the user desires.

The Switch has two built-in Authentication Server Groups that cannot be removed but can be modified. To

modify a particular group, click Edit button, which will then display the following window.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.128 – Security > Access Authentication control > Authentication Server Group-Edit

Select Group Name, Protocol and IP address then click Add to implement the changes.

NOTE: The user mu

st configure Authentication

Server Hosts using the Authentication Server

Hosts page before adding hosts to the list.

Authentication Server Hosts must be configured

for their specific protocol on a remote centralized

server before this function can work properly.

NOTE: The two built in server groups can only

have server hosts running the same TACACS

daemon. The TACACS+ and RADIUS protocols

are separate entities and are not compatible with

each other.

Security > Access Authentication Control > Authentication Server

This Authentication Server page will set user-defined Authentication Server Hosts for the TACACS+ and

RADIUS security protocols on the Switch. When a user attempts to access the Switch with Authentication

Policy enabled, the Switch will send authentication packets to a remote TACACS+ or RADIUS server host on

a remote host. The TACACS+ or RADIUS server host will then verify or deny the request and return the

appropriate message to the Switch. More than one authentication protocol can be run on the same physical

server host but, remember that TACACS+ and RADIUS are separate entities and are not compatible with

each other. The maximum supported number of server hosts is 16.

Figure 4.129 – Security > Access Authentication control > Authentication Server

To add an Authentication Server Host:

IP Address: Select IPv4 or IPv6 and enter the IP address.

Protocol: The protocol used by the server host. The user may choose one of the following:

TACACS+ – Enter this parameter if the server host utilizes the TACACS+ protocol.

RADIUS – Enter this parameter if the server host utilizes the RADIUS protocol.

Key: Authentication key to be shared with a configured TACACS+ or RADIUS servers only. Specify an

alphanumeric string up to 254 characters.

Port (1 - 65535): Enter a number between 1 and 65535 to define the virtual port number of the

authentication protocol on a server host. The default port number is 49 for TACACS+ server and 1813 for

RADIUS servers but the user may set a unique port number for higher security.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Timeout (1 - 255): Enter the time in seconds the Switch will wait for the server host to reply to an

authentication request. The default value is 5 seconds.

Retransmit (1 - 255): Enter the value in the retransmit field to change how many times the device will resend

an authentication request when the TACACS server does not respond.

Click Apply to add a new Authentication Server Host.

NOTE: More than one authentication protocol can

be run on the same physical server host.

Security > Access Authentication Control > Login Method Lists

This feature will configure a user-defined or default Login Method List of authentication techniques for users

logging on to the Switch. Successful login using any of these techniques will give the user a "User" privilege

only. To upgrade his or her status to the administrator level, the user must use the Enable Admin window, in

which the user must enter a previously configured password, set by the administrator.

The Switch contains one Method List that is set and cannot be removed, yet can be modified. To delete a

Figure 4.130 – Security > Access Authentication control > Login Method Lists

To define a Login Method List, set the following parameters and click Apply:

Method List Name: Enter a method list name defined by the user of up to 15 characters.

Priority 1, 2, 3, 4: The user may add one, or a combination of up to four of the following authentication

methods to this method list:

none – Adding this parameter will require an authentication to access the Switch.

local – Adding this parameter will require the user to be authenticated using the local user account

database on the Switch.

tacacs+ – Adding this parameter will require the user to be authenticated using the TACACS+

protocol from a remote TACACS+ server.

radius – Adding this parameter will require the user to be authenticated using the RADIUS protocol from a

remote RADIUS server.

Security > Access Authentication Control > Enable Method Lists

The Enable Method Lists page is used to set up Method Lists to promote users with user level privileges to

Administrator (Admin) level privileges using authentication methods on the Switch. Once a user acquires

normal user level privileges on the Switch, he or she must be authenticated by a method on the Switch to

gain administrator privileges on the Switch, which is defined by the Administrator. A maximum of eight

Enable Method Lists can be implemented on the Switch, one of which is a default Enable Method List. This

default Enable Method List cannot be deleted but can be configured.

To delete an Enable Method List defined by the use, click Delete button to the entry desired to be deleted.

To modify and Enable Method List, click Edit button to make the changes and click Apply.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.131 – Security > Access Authentication control > Enable Method Lists

To define an Enable Login Method List, set the following parameter and click Apply:

Method List Name: Enter a method list name defined by the user of up to 15 characters.

Priority 1, 2, 3, 4: The user may add one, or a combination of up to four of the following authentication

methods to this method list:

none – Adding this parameter will require an authentication to access the Switch.

local – Adding this parameter will require the user to be authenticated using the local user account

database on the Switch.

tacacs+ – Adding this parameter will require the user to be authenticated using the TACACS+

protocol from a remote TACACS+ server.

radius – Adding this parameter will require the user to be authenticated using the RADIUS protocol

from a remote RADIUS server.

Security > Access Authentication Control > Local Enable Password Settings

The Local Enable Password Settings page allows user to configure the locally enabled password. When a

user chooses the "local_enable" method to promote user level privileges to administrator privileges, he or

she will be prompted to enter the password configured here that is locally set on the Switch.

Figure 4.132 – Security > Access Authentication control > Local Enable Password Settings

To set the Local Enable Password, set the following parameters and click Apply:

Old Local Enable Password: If a password was previously configured for this entry, enter it here in order to

change it to a new password.

New Local Enable Password: Enter the new password that user specified for the Switch to authenticate

users attempting to access Administrator Level privileges on the Switch. The user may set a password of up

to 15 characters.

Confirm Local Enable Password: Confirm the new password entered above. Entering a different password

here from the one set in the New Local Enabled field will result in a fail message.

Security > Traffic Segmentation

This feature provides administrators to limit traffic flow from a single port to a group of ports on a single

Switch. This method of segmenting the flow of traffic is similar to using VLANs to limit traffic, but is more

restrictive.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.133 – Security > Traffic Segmentation

To configure traffic segmentation specify a port or All ports from the switch, using the Port pull-down menu

and select Port Map then click Apply to enter the settings into the Switch’s Traffic Segmentation table.

Click Select All to select all port maps or click Clear button to uncheck port maps.

Security > DoS Prevention Settings

The DoS is a malicious attack against a network. This attack is designed to stop a network from functioning

by flooding it with useless traffic. Symptoms of a malicious attack include the inability to access any web site

or a particular web site being unavailable and network performance slowing down.

Figure 4.134 – Security > DoS Prevention Settings

Prevention Settings:

Type: Select the attack types to be prevented. The types are Land Attack, TCP Tine Frag Attack, TCP Null

Scan, TCP Xmascan, TCP SYNFIN, TCP SYN SrcPortless 1024, Ping Death Attack or All.

State: Specify the state to be enabled or disabled.

Click Apply to make the configurations take effect

Security > Smart Binding > Smart Binding Settings

The primary purpose of Smart Binding is to restrict client access to a switch by enabling administrators to

configure pairs of client MAC and IP addresses that are allowed to access networks through a switch.

The Smart Binding function is port-based, meaning that a user can enable or disable the function on any

individual port. Once Smart Binding is enabled on a switch port, the switch will restrict or allow client access

by checking the pair of IP-MAC addresses with the pre-configured database, also known as the “IMPB white

list”.

Users can enable or disable the Packet Inspection and DHCP Snooping on the Switch.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.135 – Security > Smart Binding > Smart Binding Settings

The Smart Binding Settings page contains the following fields:

From Port/ To Port: Select a range of ports to set for IP-MAC-port binding.

Admin State: Use the drop-down menu to enable or disable these ports for Smart Binding.

Enabled –Enable Smart Binding with related configurations to the ports

Disabled –Disable Smart Binding.

ARP Inspection: If ARP inspection is enabled, the Switch will inspect incoming ARP packets and compare

them with the Switch’s Smart Binding white list entries. If the IP-MAC pair of an ARP packet is not found in

the white list, the Switch will block the MAC address. A major benefit of Loose state is that it uses less CPU

resources. However, it cannot block malicious users who send only unicast IP packets. An example of this is

that a malicious user can perform DoS attacks by statically configuring the ARP table on their PC. In this

case, the Switch cannot block such attacks because the PC will not send out ARP packets.

IP Inspection: When IP Inspection is enabled, and ARP Inspection is disabled, all non-IP packets are

forwarded by default. If ARP Inspection and IP Inspection mode are enabled, the Switch will inspect all

incoming ARP and IP packets and compare them to the IMPB white list. If the IP-MAC pair find a match in

the white list, the packets from that MAC address are unblocked. If not, the MAC address will stay blocked.

While the mode examines every ingress ARP and IP packet, it enforces better security.

Allow Zero IP: Enable or disable to allow zero IP to configure the state which allows ARP packets with

0.0.0.0 source IP to bypass.

Forward DHCP Packet: Enable or disable to forward DHCP packet.

DHCP Snooping: By enable DHCP Snooping, the switch will snoop the packets sent from DHCP Server and

clients, and update information to the White List.

Max Entry: Specifies the max entries of Smart Binding. The range is between 1 and 10, or No Limit.

Max Entry (IPv6): Specifies the IPv6 max entries of Smart Binding. The range is between 1 and 10, or No

Limit.

Click Apply to make configurations make effects.

Security > Smart Binding > Smart Binding

The Smart Binding page allows the user to create Static IP-MAC-Port Binding entries on the Switch.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.136 – Security > Smart Binding > Smart Binding

The Manual Binding Settings contains the following fields:

From Port / To Port: Specifies the port ranges for MAC address to bind to the IP address of Binding list.

IP Address: Specifies the IP address to bind to the MAC address set below.

MAC Address: Specifies the MAC address to bind to the IP address set above.

Click Add to add a new entry.

Auto Scan: Specifies to scan connected devices in a range of IP address.

IP Address From/To: Specifies the range of IP Address to scan all devices in the network.

Click Scan and the search results will be listed in below table.

Binding: check the box to select desired binding devices.

Apply: click Apply to set IP-MAC-Port Binding entries.”

Select All: to check the boxes of Binding for all found devices.

Clear All: to cancel the box of Binding.

Security > Smart Binding > White List

When IP+ARP Inspection Mode were selected, the White List page displays finished IP-MAC-Port Binding

entries from page Smart Binding. Only IP packets or ARP packets carrying matched IP-MAC-Port

information can access to the switch. User can cancel a device’s authorization by deleting it from the table.

Figure 4.137 – Security > Smart Binding > White List

Click Select All to select all entries of the table or click Clean to select none entries. Please keep at least

one management host in the White List.

Security > Smart Binding > Black List

The Black List page shows unauthorized accesses. When ARP Inspection is selected and a device sends

out an ARP packet containing unmatched IP-MAC-Port information, the device will be forbidden and listed

here.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.138 – Security > Smart Binding > Black List

By giving conditions, desired devices information can be screened out below then click Find to search for a

list of the entry:

VID: Enter the VLAN ID number of the device.

IP Address: Enter the IP Address of the device.

MAC Address: Enter the MAC Address of the device.

Port: Enter the port number which the device connects.

Check a box of Delete column to release an entry from the forbidden list then click Apply to delete an entry

from the list.

Click Select All to select all entries, or click Clean to select none of the entries.

Security > Smart Binding > DHCP Snooping List

The DHCP Snooping List page shows the DHCP Snooping list.

Figure 4.139 – Security > Smart Binding > DHCP Snooping List

Monitoring > Statistics

The Statistics screen displays the status of each port packet count.

Figure 4.140 – Monitoring > Statistics

Refresh All: Renews the details collected and displayed.

Clear All: To reset the details displayed.

TxOK: Number of packets transmitted successfully.

RxOK: Number of packets received successfully.

TxError: Number of transmitted packets resulting in error.

RxError: Number of received packets resulting in error.

To view the statistics of individual ports, click one of the linked port numbers for details.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.141 – Monitoring > Port Statistics

Previous Page: Go back to the Statistics main page.

Refresh: To renew the details collected and displayed.

Clear Counter: To reset the details displayed.

Monitoring > Session Table

The Session Table allows the user to view detailed information on the current configuration session of the

Switch. Information such as the Session ID of the user, initial Login Time, Live Time, configuration

connection From the Switch, Level and Name of the user are displayed. Click Reload to refresh this window.

Figure 4.142 – Monitoring > Session Table

Monitoring > CPU Utilization

The CPU Utilization displays the percentage of the CPU being used, expressed as an integer percentage

and calculated as a simple average by time interval. The window will automatically refresh with new updated

statistics.

Figure 4.143 – Monitoring > CPU Utilization

Clear: Clicking this button clears all statistics counters on this window.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Monitoring > Memory Utilization

The Memory Utilization displays the percentage of the memory being used, expressed as an integer

percentage and calculated as a simple average by time interval. Click Apply to implement the configured

settings. The window will automatically refresh with new updated statistics.

Figure 4.144 – Monitoring > Memory Utilization

The information is described as follows:

Time Interval: Select the desired setting between 1s and 60s, where "s" stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

Show/Hide: Check whether to display Five Secs, One Min, and/or Five Mins.

Clear: Clicking this button clears all statistics counters on this window.

Monitoring > Port Utilization

The Port Utilization page displays the percentage of the total available bandwidth being used on the port.

Figure 4.145 – Monitoring > Port Utilization

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The user may use the real-time graphic of the Switch at the top of the web page to view utilization statistics

per port by clicking on a port. Click Apply to make the configurations take effect. The following field can be

set:

Time Interval: Select the desired setting between 1s and 60s, where "s" stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

Show/Hide: Check whether to display Utilization.

Clear: Clicking this button clears all statistics counters on this window.

Monitoring > Packet Size

The Web Manager allows packets received by the Switch, arranged in six groups and classed by size, to be

viewed as either a line graph or a table. Two windows are offered. To select a port to view these statistics for,

select the port by using the Port pull-down menu. The user may also use the real-time graphic of the Switch

at the top of the web page by simply clicking on a port.

Figure 4.146 – Monitoring > Packet Size

To view the Packet Size Analysis Table, click the link View Table, which will show the following table:

Figure 4.147 – Monitoring > Packet Size Table

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

64: The total number of packets (including bad packets) received that were 64 octets in length (excluding

framing bits but including FCS octets).

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

65-127: The total number of packets (including bad packets) received that were between 65 and 127 octets

in length inclusive (excluding framing bits but including FCS octets).

128-255: The total number of packets (including bad packets) received that were between 128 and 255

octets in length inclusive (excluding framing bits but including FCS octets).

256-511: The total number of packets (including bad packets) received that were between 256 and 511

octets in length inclusive (excluding framing bits but including FCS octets).

512-1023: The total number of packets (including bad packets) received that were between 512 and 1023

octets in length inclusive (excluding framing bits but including FCS octets).

1024-1518: The total number of packets (including bad packets) received that were between 1024 and 1518

octets in length inclusive (excluding framing bits but including FCS octets).

Show/Hide: Check whether or not to display 64, 65-127, 128-255, 256-511, 512-1023, and 1024-1518

packets received.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Packets > Transmitted (TX)

The Transmitted (TX) page displays the following graph of packets transmitted from the Switch. To select a

port to view these statistics for, use the Port pull-down menu. The user may also use the real-time graphic of

the Switch at the top of the web page by simply clicking on a port.

Figure 4.148 - Monitoring > Packets > Transmitted (TX) (line graph for Bytes and Packets)

To view the Transmitted (TX) Table, click the link View Table, which will show the following table:

Figure 4.149 - Monitoring > Packet s > Transmitted (TX) (table for Bytes and Packets)

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

Bytes: Counts the number of bytes successfully sent from the port.

Packets: Counts the number of packets successfully sent on the port.

Unicast: Counts the total number of good packets that were transmitted by a unicast address.

Multicast: Counts the total number of good packets that were transmitted by a multicast address.

Broadcast: Counts the total number of good packets that were transmitted by a broadcast address.

Show/Hide: Check whether or not to display Bytes and Packets.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Packets > Received (RX)

The Received (RX) page displays the following graph of packets received on the Switch. To select a port to

view these statistics for, use the Port pull-down menu. The user may also use the real-time graphic of the

Switch at the top of the web page by simply clicking on a port.

Figure 4.150 - Monitoring > Packets > Received (RX) (line graph for Bytes and Packets)

To view the Received Packets Table, click the link View Table, which will show the following table:

Figure 4.151 - Monitoring > Packet s > Received (RX) (table for Bytes and Packets)

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

Bytes: Counts the number of bytes received on the port.

Packets: Counts the number of packets received on the port.

Unicast: Counts the total number of good packets that were received by a unicast address.

Multicast: Counts the total number of good packets that were received by a multicast address.

Broadcast: Counts the total number of good packets that were received by a broadcast address.

Show/Hide: Check whether or not to display Bytes and Packets.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Packets > UMB Cast (RX)

The UMB Cast (RX) page displays the following graph of UMB cast packets received on the Switch. To

select a port to view these statistics for, use the Port pull-down menu. The user may also use the real-time

graphic of the Switch at the top of the web page by simply clicking on a port.

Figure 4.152 - Monitoring > Packets > UMB Cast (RX) (line graph for Unicast, Multicast and Broadcast Packets)

To view the UMB Cast Table, click the View Table link, which will show the following table:

Figure 4.153 - Monitoring > Packets > UMB Cast (RX) (table for Unicast, Multicast and Broadcast Packets)

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

Unicast: Counts the total number of good packets that were received by a unicast address.

Multicast: Counts the total number of good packets that were received by a multicast address.

Broadcast: Counts the total number of good packets that were received by a broadcast address.

Show/Hide: Check whether or not to display Multicast, Broadcast and Unicast packets.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Errors > Received (RX)

This page displays the following graph of error packets received on the Switch. To select a port to view these

statistics for, select the port by using the Port pull-down menu. The user may also use the real-time graphic

of the Switch at the top of the web page by simply clicking on a port.

Figure 4.154 - Monitoring > Errors > Received (RX) (line graph)

To view the Received Error Packets Table, click the link View Table, which will show the following table:

Figure 4.155 - Monitoring > Errors > Received (RX) (table)

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

CRC Error: Counts otherwise valid packets that did not end on a byte (octet) boundary.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

UnderSize: The number of packets detected that are less that the minimum permitted packets size of 64

bytes and have a good CRC. Undersize packets usually indicate collision fragments, a normal network

occurrence.

OverSize: Counts packets received that were longer that 1518 octets, or if a VLAN frame is 1522 octets, and

less that the MAX_PKT_LEN. Internally, MAX_PKT_LEN is equal to 1522.

Fragment: The number of packets less than 64 bytes with either bad framing or an invalid CRC. These are

normally the result of collisions.

Jabber: The number of packets with lengths more than the MAX_PKT_LEN bytes. Internally,

MAX_PKT_LEN is equal to 1522.

Drop: The number of packets that are dropped by this port since the last Switch reboot.

Show/Hide: Check whether or not to display CRC Error, Under Size, Over Size, Fragment, Jabber, and

Drop errors.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Errors > Transmitted (TX)

This page displays the following graph of error packets transmitted on the Switch. To select a port to view

these statistics for, select the port by using the Port pull-down menu. The user may also use the real-time

graphic of the Switch at the top of the web page by simply clicking on a port.

Figure 4.156 - Monitoring > Errors > Transmitted (TX) (line graph)

To view the Transmitted Error Packets Table, click the link View Table, which will show the following table:

Figure 4.157 - Monitoring > Errors > Transmitted (TX) (table)

The following fields can be set or viewed:

Time Interval: Select the desired setting between 1s and 60s, where “s” stands for seconds. The default

value is one second.

Record Number: Select number of times the Switch will be polled between 20 and 200. The default value is

200.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

ExDefet: Counts the number of packets for which the first transmission attempt on a particular interface was

delayed because the medium was busy.

CRC Error: Counts otherwise valid packets that did not end on a byte (octet) boundary.

LateColl: Counts the number of times that a collision is detected later than 512 bit-times into the

transmission of a packet.

ExColl: Excessive Collisions. The number of packets for which transmission failed due to excessive

collisions.

SingColl: Single Collision Frames. The number of successfully transmitted packets for which transmission is

inhibited by more than one collision.

Coll: An estimate of the total number of collisions on this network segment.

Show/Hide: Check whether or not to display ExDefer, LateColl, ExColl, SingColl, and Coll errors.

Clear: Clicking this button clears all statistics counters on this window.

View Table: Clicking this button instructs the Switch to display a table rather than a line graph.

View Line Chart: Clicking this button instructs the Switch to display a line graph rather than a table.

Monitoring > Cable Diagnostics

The Cable Diagnostics is designed primarily for administrators and customer service representatives to

examine of the copper cable quality. It rapidly determines the type of cable errors occurred in the cable.

Select a port and then click the Test Now button to start the diagnosis.

Figure 4.158 - Monitoring > Cable Diagnostics

Test Result: The description of the cable diagnostic results.

•OK means the cable is good for the connection.

•Short in Cable means the wires of the RJ45 cable may be in contact somewhere.

•Open in Cable means the wires of RJ45 cable may be broken or the other end of the cable is simply

disconnected.

•Test Failed means some other errors occurred during cable diagnostics. Please select the same port and

test again.

Cable Fault Distance (meters): Indicates the distance of the cable fault from the Switch port, if the cable is

less than 2 meters, it will show “No Cable”, whether the fiber is connected to the port or not.

Cable Length (meter): If the test result shows OK, then cable length will be indicated for the total length of

the cable. The cable lengths are categorized into four types: <50 meters, 50~80 meters, 80~100 meters and

>100 meters. Deviation is +/-2 meters, therefore "No Cable" may be displayed under "Test Result," when the

cable used is less than 2 m in length. This test can only be performed when the port is up and operating at 1

Gbps.

NOTE:

Cable length detection is effective on Gigabit

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

ports only.

The definition of cable pair is listed below:

Pair1: PIN4, PIN5

Pair2: PIN1, PIN2

Pair3: PIN3, PIN6

Pair4: PIN7, PIN8

Monitoring > System Log

The System Log page provides information about system logs, including information when the device was

booted, how the ports are operating, when users logged in, when sessions timed out, as well as other

system information.

Figure 4.159 - Monitoring > System Log

ID: Displays an incremented counter of the System Log entry. The Maximum entries are 500.

Time: Displays the time in days, hours, and minutes the log was entered.

Log Description: Displays the description of event recorded.

Severity: Displays a severity level of the event recorded.

Click Refresh to renew the page, and click Clear to clean out all log entries.

Monitoring > Browse ARP Table

The Browse ARP Table page provides information regarding ARP VLANs, including which IP address was

mapped to what MAC address. To clear the ARP Table, click Clear All.

Figure 4.160 - Monitoring > Browse ARP Table

Click Find, The table updates and displays the values required.

Interface Name: Defines the name of ARP mappings.

IP Address: Defines the station IP address, which is associated with the MAC address.

MAC Address: Displays the MAC address associated with the IP address.

Type: Indicates how the MAC was assigned. The possible values are:

Dynamic – Indicates that the MAC address is dynamically created.

Static – Indicates the MAC address is a static IP address.

Port: Defines the ARP mapping ports.

Monitoring > Ethernet OAM > Browse Ethernet OAM Event Log

The Browse Ethernet OAM Event Log page displays the ports Ethernet OAM event log information.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.161 - Monitoring > Ethernet OAM > Browse Ethernet OAM Event Log

Port: Select the port to be viewed.

Port List: Enter a list of ports. Tick the All Ports check box to select all ports.

Click Find to locate a specific entry based on the information entered.

Click Clear to clear all the information entered in the fields.

Monitoring > Ethernet OAM > Browse Ethernet OAM Statistics

The Browse Ethernet OAM Statistics page displays the ports Ethernet OAM statistics information.

Figure 4.162 - Monitoring > Ethernet OAM > Browse Ethernet OAM Statistics

Port List: Enter a list of ports. Tick the All Ports check box to select all ports.

Click Clear to clear all the information entered in the fields.

Monitoring > IGMP Snooping > IGMP Snooping Group

The IGMP Snooping Group page is used to display the current IGMP snooping static group information on

the Switch.

Figure 4.163 - Monitoring > IGMP Snooping > IGMP Snooping Group

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

VLAN Name: Specify the name of the VLAN for which to be displayed the IGMP Snooping Group nformation.

VID: Specify the list of the VLAN IDs for which to be displayed the IGMP Snooping Group information.

Group IP Address: Specify the static group address for which to be displayed the IGMP Snooping static

group information.

Click Find VLAN to display the IGMP group information or click Clear Data Driven to clear the IGMP group

information.

Monitoring > IGMP Snooping > IGMP Snooping Host

The IGMP Snooping Host page allows user to display the information of IGMP Snooping Host.

Figure 4.164 - Monitoring > IGMP Snooping > IGMP Snooping Host

VLAN Name: Specify the name of the VLAN for which to be displayed the IGMP Snooping Host information.

VID (1-4094): Specify the list of the VLAN IDs for which to be displayed the IGMP Snooping Host information.

Port: Specify the ports of IGMP Snooping Host information to be displayed.

Group: Specify the group of IGMP Snooping Host information to be displayed.

Click Find to display the information.

Monitoring > MLD Snooping > MLD Snooping Group

The MLD Snooping Group page allows user to configure the MLD Snooping group settings.

Figure 4.165 - Monitoring > MLD Snooping > MLD Snooping Group

VLAN Name: Specify the VLAN name for MLD Snooping group.

VID: Specify the VID for MLD Snooping group.

Group IP Address: Specify the IP address for the specified VLAN.

Click Find Vlan to locate a specific entry based on the information entered.

Click View All to display all the existing entries.

Click View All Data Driven to display all existing entire entries.

Click Clear All Data Driven to clear data driven information for all entries.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Monitoring > Port Access Control > RADIUS Authentication

This table contains information concerning the activity of the RADIUS authentication client on the client side

of the RADIUS authentication protocol. It has one row for each RADIUS authentication server that the client

shares a secret with.

Figure 4.166 - Monitoring > Port Access Control > RADIUS Authentication

The user may also select the desired time interval to update the statistics, between 1s and 60s, where “s”

stands for seconds. The default value is one second. To clear the current statistics shown, click the Clear

button in the top left hand corner.

The following fields can be viewed:

Server Index: The identification number assigned to each RADIUS Authentication server that the client

shares a secret with.

UDP Port: The UDP port the client is using to send requests to this server.

Timeouts: The number of authentication timeouts to this server. After a timeout the client may retry to the

same server, send to a different server, or give up. A retry to the same server is counted as a retransmit as

well as a timeout. A send to a different server is counted as a Request as well as a timeout.

Requests: The number of RADIUS Access-Request packets sent to this server. This does not include

retransmissions.

Challenges: The number of RADIUS Access-Challenge packets (valid or invalid) received from this server.

Accepts: The number of RADIUS Access-Accept packets (valid or invalid) received from this server.

Rejects: The number of RADIUS Access-Reject packets (valid or invalid) received from this server.

RoundTripTime: The time interval (in hundredths of a second) between the most recent Access-

Reply/Access-Challenge and the Access-Request that matched it from this RADIUS authentication server.

AccessRetrans: The number of RADIUS Access-Request packets retransmitted to this RADIUS

authentication server.

PendingRequests: The number of RADIUS Access-Request packets destined for this server that have not

yet timed out or received a response. This variable is incremented when an Access-Request is sent and

decremented due to receipt of an Access-Accept, Access-Reject or Access-Challenge, a timeout or

retransmission.

AccessResponses: The number of malformed RADIUS Access-Response packets received from this

server. Malformed packets include packets with an invalid length. Bad authenticators or Signature attributes

or known types are not included as malformed access responses.

BadAuthenticators: The number of RADIUS Access-Response packets containing invalid authenticators or

Signature attributes received from this server.

UnknownTypes: The number of RADIUS packets of unknown type which were received from this server on

the authentication port.

PacketsDropped: The number of RADIUS packets of which were received from this server on the

authentication port and dropped for some other reason.

Monitoring > Port Access Control > RADIUS Account Client

This RADIUS Account Client page shows managed objects used for managing RADIUS accounting clients,

and the current statistics associated with them. It has one row for each RADIUS authentication server that

the client shares a secret with.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.167 - Monitoring > Port Access Control > RADIUS Account Client

The user may also select the desired time interval to update the statistics, between 1s and 60s, where “s”

stands for seconds. The default value is one second. To clear the current statistics shown, click the Clear

button in the top left hand corner.

The following fields can be viewed:

Server IP Addr: The IP address assigned to each RADIUS Accounting server that the client shares a secret

with.

Server Port Number: The UDP port the client is using to send requests to this server.

Timeouts: The number of accounting timeouts to this server. After a timeout the client may retry to the same

server, send to a different server, or give up. A retry to the same server is counted as a retransmit as well as

a timeout. A send to a different server is counted as an Accounting-Request as well as a timeout.

Requests: The number of RADIUS Accounting-Request packets sent. This does not include retransmissions.

Responses: The number of RADIUS packets received on the accounting port from this server.

RoundTripTime: The time interval between the most recent Accounting-Response and the Accounting-

Request that matched it from this RADIUS accounting server.

AccessRetrans: The number of RADIUS Access-Request packets retransmitted to this RADIUS

authentication server.

PendindRequests: The number of RADIUS Accounting-Request packets sent to this server that have not

yet timed out or received a response. This variable is incremented when an Accounting-Request is sent and

decremented due to receipt of an Accounting-Response, a timeout or a retransmission.

MalformedResponses: The number of malformed RADIUS Accounting-Response packets received from

this server. Malformed packets include packets with an invalid length. Bad authenticators and unknown types

are not included as malformed accounting responses.

BadAuthenticators: The number of RADIUS Accounting-Response packets, which contained invalid

authenticators, received from this server.

UnknownTypes: The number of RADIUS packets of unknown type which were received from this server on

the accounting port.

PacketsDropped: The number of RADIUS packets, which were received from this server on the accounting

port and dropped for some other reason.

ACL > ACL Configuration Wizard

Access Control List (ACL) allows user to establish criteria to determine whether or not the Switch will forward

packets based on the information contained in each packet's header. These criteria can be specified on a

basis of MAC address, or IP address.

The ACL Configuration Wizard will aid with the creation of access profiles and ACL Rules. The ACL Wizard

will create the access rule and profile automatically. The maximum usable profiles are 50 and with 240 Rules

in total for the switch.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.168 - ACL > ACL Configuration Wizard

From: Specify the origin of accessible packets. The possible values are:

Any - Indicates ACL action will be on packets from any source.

MAC Address - Indicates ACL action will be on packets from this MAC address.

IPv4 Addresses - Indicates ACL action will be on packets from this IPv4 source address.

IPv6 Addresses - Indicates ACL action will be on packets from this IPv6 source address

To: Specify the destination of accessible packets. The possible values are:

Any - Indicates ACL action will be on packets from any source.

MAC Address - Indicates ACL action will be on packets from this MAC address. The field of format

is xx-xx-xx-xx-xx-xx.

IPv4 Addresses - Indicates ACL action will be on packets from this IPv4 source address.

IPv6 Addresses - Indicates ACL action will be on packets from this IPv6 source address.

Service Type: Specify the type of service. The possible values are:

Any - Indicates ACL action will be on packets from any service type.

Ether type - Specifies an Ethernet type for filtering packets.

ICMP All - Indicates ACL action will be on packets from ICMP packets.

IGMP - IGMP packets can be filtered by IGMP message type.

TCP All - Indicates ACL action will be on packets from TCP Packets.

TCP Source Port - Matches the packet to the TCP Source Port.

TCP Destination Port - Matches the packet to the TCP Destination Port.

UDP All - Indicates ACL action will be on packets from UDP Packets.

UDP Source Port - Matches the packet to the UDP Source Port.

UDP Destination Port - Matches the packet to the UDP Destination Port.

Action: Specify the ACL forwarding action matching the rule criteria.

Permit - Forwards packets if all other ACL criteria are met.

Deny - Drops packets if all other ACL criteria is met.

Mirror - Mirrors packets if all other ACL criteria is met.

Rate Limit - Rate limiting is activated if all other ACL criteria is met.

Replace DSCP - Reassigns a new DSCP value to the packet if all other ACL criteria are met.

Ports: Enter a range of ports to be configured.

Press Apply for the settings to take effect.

NOTE:

Once the ACL rules conflict, rules with

smaller rule ID will take higher priority.

NOTE: Be careful when configuring ACL rules, an

inappropriate may cause management access

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

failed.

ACL > Access Profile List

The Access Profile List provides information for configuring ACL Profiles manually. ACL profiles are attached

to interfaces, and define how packets are forwarded if they match the ACL criteria.

Figure 4.169 - ACL > Access Profile List

The contents of Access Profile List table include:

Profile ID: Indicates the profile Identification number. The possible configured profile IDs are 1~50, and

profile ID 51~55 are reserved for the pre-defined features.

Owner Type: The owner type of ACL profile; it can be normal ACL, Voice VLAN or Surveillance VLAN.

Profile Summary: Displays the profile summary.

Show Details: To display an ACL’s profile details. The ACL profile details are displayed below the ACL table.

Show Rules: To show the access rule in this profile.

To add a new rule, please see Access Rule List in the next section.

Delete: To delete an access profile.

To manually add a profile, click Add ACL Profile:

Figure 4.170 - Add ACL Profile

The steps of adding an access profile is like below:

1) After selecting the Profile ID and Frame Type (MAC, IPv4, IPv6 or Packet content ACL), specify

attributes like Untagged/Tagged (for MAC), ICMP/IGMP/TCP/UDP/Protocol ID (for IPv4), or

ICMPv6/TCP/UDP (for IPv6), then click Select and a simplified frame diagram will be displayed.

2) Select the field of interest and related columns will be displayed in lower part of the page. Enter the

filtering mask and click Create when done. A filtering mask is to specify the digit that user wants to check.

For example, if user wants to check a network of 192.168.1.0/24, then it should enter the IP mask as

255.255.255.0.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

NOTE: Unable to select Payload in a MAC ACL,

or L2 Header in IP ACL.

3) After the Profile ID has been created, it will go back to the main Access Profile List page.

ACL > ACL Finder

The ACL Finder page is used to help user to find a previously configured ACL entry. To search for an entry,

enter the Profile ID from the drop-down menu, select a port that user would like to view and click Find. The

table on the lower half of the screen will display the entries. To delete an entry click the corresponding

Delete button.

Figure 4.171 - ACL > ACL Finder

ACL > CPU Filter Configuration Wizard

The CPU Filter Configuration Wizard will aid with the creation of CPU Filter Rules.

Figure 4.172 - ACL > CPU Filter Configuration Wizard

From: Specify the origin of accessible packets. The possible values are:

Any - Indicates CPU Filter action will be on packets from any source.

MAC Address - Indicates CPU Filter action will be on packets from this MAC address.

IPv4 Addresses - Indicates CPU Filter action will be on packets from this IPv4 source address.

IPv6 - Indicates CPU Filter action will be on packets from this IPv6 source address.

To: Specify the destination of accessible packets. The possible values are:

Any - Indicates CPU Filter action will be on packets to any source.

MAC Address - Indicates CPU Filter action will be on packets to this MAC address. The field of

format is xx-xx-xx-xx-xx-xx.

IPv4 Addresses - Indicates CPU Filter action will be on packets to this IPv4 source address.

IPv6 - Indicates CPU Filter action will be on packets to this IPv6 source address.

Service Type: Specify the type of service. The possible values are:

Any - Indicates CPU Filter action will be on packets of any service type.

Ether type - Specifies an Ethernet type for filtering packets.

ICMP All - Indicates CPU Filter action will be on all ICMP packets.

IGMP - IGMP packets can be filtered by IGMP message type.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

TCP All - Indicates CPU Filter action will be on all TCP Packets.

TCP Source Port - Take effect if TCP Source Port matches.

TCP Destination Port - Take effect if TCP Destination Port matches.

UDP All - Indicates CPU Filter action will be on all UDP Packets.

UDP Source Port - Take effect if UDP Source Port matches.

UDP Destination Port - Take effect if UDP Destination Port matches.

Action: Specify the CPU Filter forwarding action matching the rule criteria.

Permit - Forwards packets if all other CPU Filter criteria are met.

Deny - Drops packets if all other CPU Filter criteria is met.

Press Apply for the settings to take effect.

ACL > CPU Filter Access Profile List

The CPU Filter Access Profile List provides information for configuring CPU Profiles manually. CPU Filter

Access profiles are attached to interfaces, and define how packets are forwarded if they match the CPU

Filter criteria.

Figure 4.173 - ACL > CPU Filter Access Profile List

The contents of CPU Filter Access Profile List table include:

Profile ID: Indicates the profile Identification number. The possible configured profile IDs are 1~50, and

profile ID 51 is reserved for Voice VLAN.

Owner Type: The owner type of CPU Filter profile, it can be normal CPU Filter, Voice VLAN or Surveillance

VLAN.

Profile Summary: Displays the profile summary.

Show Details: To display a CPU Filter’s profile details. The CPU Filter profile details are displayed below the

CPU Filter table.

Edit/New Rules: To configure or add the CPU access rule in this profile.

To add a new rule, please see Add CPU Filter Profile in the next section.

Delete All: To delete all access profile.

To manually add a profile, click Add CPU Filter Profile.

Figure 4.174 - ACL > CPU Filter Access Profile List -Add CPU Filter Profile

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

The steps of adding a CPU Filter profile is like below:

1) After selecting the Profile ID and Frame Type (MAC, IPv4, IPv6 or UDF), specify attributes like

Untagged/Tagged (for MAC), or ICMP/IGMP/TCP/UDP/Protocol ID (for IPv4), or Traffic Class (for IPv6), then

click Select and a simplified frame diagram will be displayed.

2) Select the field of interest and related columns will be displayed in lower part of the page. Enter the

filtering mask and click Create when done. A filtering mask is to specify the digit that user wants to check.

For example, if user wants to check a network of 192.168.1.0/24, then it should enter the IP mask as

255.255.255.0.

3) After the Profile ID has been created, it will go back to the main CPU Filter Access Profile List page.

ACL > CPU Filter Finder

The CPU Filter Finder page is used to help user to find a previously configured CPU entry. To search for an

entry, enter the Profile ID from the drop-down menu, select a port that user would like to view and click Find.

The table on the lower half of the screen will display the entries. To delete an entry click the corresponding

Delete button.

Figure 4.175 - ACL > CPU Filter Finder

PoE > PoE Port Settings (DGS-2000-10P/10MP/28P/28MP/52MP only)

DGS-2000-10P/10MP/28P/28MP/52MP supports Power over Ethernet (PoE) as defined by the IEEE

specification.

DGS-2000-10P/10MP/28P/28MP/52MP works with all D-Link 802.3af or 802.3at capable devices. The

Switch also works in PoE mode with all non-802.3af capable D-Link AP, IP Cam and IP phone equipment via

the PoE splitter DWL-P50.

IEEE 802.3at defined that the PSE provides power according to the following classification:

Class Usage Output power limit by PSE

0 Default 15.4W

1 Optional 4.0W

2 Optional 7.0W

3 Optional 15.4W

4 Reserved 30W

The PoE port table will display the PoE status including, Port Enable, Power Limit, Power (W), Voltage (V),

Current (mA), Classification, Port Status. User can select From Port / To Port to control the PoE functions of

a port. DGS-2000-10P/28P/28MP/52P/52MP/52MPP/ME will auto disable the ports if port current is over

375mA in 802.3af mode or 625mA in pre-802.3at mode.

Note:

The PoE Status information of Power

current, Power Voltage, and Current is the power

usage information of the connected PD; please

"Refresh" to renew the information.

Note: The following table listed PoE hardware specificati

ons for each

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

model of DGS-2000/ME series:

Model 802.3at compliance port System Budget

DGS-2000-10P 1-8 65 Watts

DGS-2000-10MP 1-8 130 Watts

DGS-2000-28P 1-24 193 Watts

DGS-2000-28MP 1-24 370 Watts

DGS-2000-52MP 1-8 370 Watts

Figure 4.176 – PoE > PoE Port Settings

Parameter Description

From Port/To Port Specifies the PoE function of a port or ports

State Select “Enabled” or “Disabled” to configure PoE function for

designated port(s). Default is Enabled

Time Range Select the PoE time profile configured from Time-Based

PoE > Time Range Settings to enable the time-based PoE

function on designated port(s). Default setting is N/A

Priority Configure the power supply priority as “Low”, “Normal”, or

“High” on designated port(s). Default is Normal.

Delay Power Detect

Configure the delay power detection. Default is Disabled.

This switch conforms to IEEE 802.3af and 802.3at

standards. The IEEE PoE standard requires a switch to

shut off power to a port if the power draw is less than 10mA

within a 400ms time interval. To support some non-

standard devices that may take longer, user may enable

this feature to extend the time interval to 500ms. If the PD

is still not powering on, please contact the vendor of the

device for support.

Power Limit This feature allows user to specify the power limit for each

ports. If a port requested the power exceeds its power limit,

it will shut down. There are options as the following list:

Auto: Automatic classification the PD’s power consumption.

Class 1: Specifies that the power limit will be set to 4W

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Class 2: Specifies that the power limit will be set to 7W

Class 3: Specifies that the power limit will be set to 15.4W

Class 4: For 802.3at compliance PD devices. Supports up

to 30W in this class.

User Define: Maximum supports to 30W

Click Apply to make the configurations take effect or click Refresh to redisplay the table.

Note: For the PoE Port Settings table, if the

classification was shown as “Legacy PD”, it will be

classified to non-AF PD or Legacy PD.

Note: The ports 1-4 are capable of feeding power

up to 30 watts to devices with the LLDP-Med

function is enabled of the connected PD. Or the

ports can only feeding power up to 15.4 watts.

PoE > PoE System Settings (DGS-2000-10P/10MP/28P/28MP/52MP only)

This PoE System Settings page will display the PoE status including System Budget Power, Support Total

Power, Remainder Power, and The ratio of system power supply.

Figure 4.177 – PoE > PoE System Settings

System Power Threshold: Manually configure the system power budget 7.1 ~ 193.0 watts for DGS-2000-

28P/ME.

PoE LeacyPD Detection: Specifies the legacy PDs detection status.

System Setting Disconnect Method: Defines the method used to deny power to a port once the threshold

is reached. The possible fields are:

Deny next port: When the power budget is exceeded, the next port attempting to power up is

denied, regardless of the port priority.

Deny low priority port: The port with the lower priority will be shut down to allow the higher priority

port to power up.

Click Apply to make the configurations take effect.

LLDP > LLDP Global Settings

LLDP (Link Layer Discovery Protocol) provides IEEE 802.1AB standards-based method for switches to

advertise themselves to neighbor devices, as well as to learn about neighbor LLDP devices. The switch will

keep the information in the Management Information Base (MIB). SNMP utilities can learn the network

topology by obtaining the MIB information in each LLDP device. The LLDP function is enabled by default.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.178 – LLDP > LLDP Global Settings

LLDP: When this function is Enabled, the switch can start to transmit, receive and process the LLDP packets.

For the advertisement of LLDP packets, the switch announces the information to its neighbor through ports.

For the receiving of LLDP packets, the switch will learn the information from the LLDP packets advertised

from the neighbor in the neighbor table. Click Apply to make the change effective.

Message TX Hold Multiplier (2-10): This parameter is a multiplier that determines the actual TTL value

used in an LLDPDU. The default value is 4.

Message TX Interval (5-32768): This parameter indicates the interval at which LLDP frames are transmitted

on behalf of this LLDP agent. The default value is 30 seconds.

LLDP Reinit Delay (1-10): This parameter indicates the amount of delay from the time adminStatus

becomes "disabled" until re-initialization is attempted. The default value is 2 seconds.

LLDP TX Delay (1-8192): This parameter indicates the delay between successive LLDP frame

transmissions initiated by value or status changes in the LLDP local systems MIB. The value for txDelay is

set by the following range formula: 1 < txDelay < (0.25 °— msgTxInterval). The default value is 2 seconds.

LLDP > Basic LLDP Port Settings

The Basic LLDP Port Settings page displays LLDP port information and contains parameters for configuring

LLDP port settings.

Figure 4.179– LLDP > Basic LLDP Port Settings

From Port/ To Port: A consecutive group of ports may be configured starting with the selected port.

Notification State: Specifies whether notification is sent when an LLDP topology change occurs on the port.

The possible field values are:

Enabled – Enables LLDP notification on the port.

Disabled – Disables LLDP notification on the port. This is the default value.

Admin Status: Specifies the LLDP transmission mode on the port. The possible field values are:

TX_Only – Enables transmitting LLDP packets only.

RX_Only – Enables receiving LLDP packets only.

TX_and_RX – Enables transmitting and receiving LLDP packets. This is the default.

Disabled – Disables LLDP on the port.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Port Description: Specifies whether the Port Description TLV is enabled on the port. The possible field

values are:

Enabled – Enables the Port Description TLV on the port.

Disabled – Disables the Port Description TLV on the port.

System Name: Specifies whether the System Name TLV is enabled on the port. The possible field values

are:

Enabled – Enables the System Name TLV on the port.

Disabled – Disables the System Name TLV on the port.

System Description: Specifies whether the System Description TLV is enabled on the port. The possible

field values are:

Enabled – Enables the System Description TLV on the port.

Disabled – Disables the System Description TLV on the port.

System Capabilities: Specifies whether the System Capabilities TLV is enabled on the port. The possible

field values are:

Enabled – Enables the System Capabilities TLV on the port.

Disabled – Disables the System Capabilities TLV on the port.

Define these parameter fields. Click Apply to implement changes made and click Refresh to refresh the

table information.

LLDP > 802.1 Extension LLDP Port Settings

This 802.1 Extension LLDP Port Settings page is used to configure the LLDP Port settings.

Figure 4.180 – LLDP > 802.1 Extension LLDP Port Settings

From Port / To Port : A consecutive group of ports may be configured starting with the selected port.

Port VLAN ID : Specifies the Port VLAN ID to be enabled or disabled.

VLAN Name : Specifies the VLAN name to be enabled or disabled in the LLDP port. If select Enabled, users

can specifies the content of VLAN Name.

Protocol Identity : Specifies the Protocol Identity to be enabled or disabled in the LLDP port. If select

Enabled, users can specifies the EAPOL, LACP, GVRP, STP or ALL.

Click Apply to implement changes made and click Refresh to refresh the table information.

LLDP > 802.3 Extension LLDP Port Settings

The 802.3 Extension LLDP Port Settings page displays 802.3 Extension LLDP port information and contains

parameters for configuring 802.3 Extension LLDP port settings.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.181 – LLDP > 802.3 Extension LLDP Port Settings

From Port/To Port: A consecutive group of ports may be configured starting with the selected port.

MAC/PHY Configuration/Status: Specifies whether the MAC/PHY Configuration Status is enabled on the

port. The possible field values are:

Enabled – Enables the MAC/PHY Configuration Status on the port.

Disabled – Disables the MAC/PHY Configuration Status on the port.

Maximum Frame Size: Specifies whether the Maximum Frame Size is enabled on the port. The possible

field values are:

Enabled – Enables the Maximum Frame Size configured on the port.

Disabled – Disables the Maximum Frame Size configured on the port.

Define these parameter fields. Click Apply to implement changes made and click Refresh to refresh the

table information.

LLDP > LLDP Management Address Settings

The LLDP Management Address Settings allows the user to set management address which is included in

LLDP information transmitted.

Figure 4.182 – LLDP > LLDP Management Address Settings

From Port/To Port: A consecutive group of ports may be configured starting with the selected port.

Address Type: Specify the LLDP address type on the port. The value is always IPv4.

Address: Specify the address.

Port State: Specify whether the Port State is enabled n the port. The possible field values are:

Enabled – Enables the port state configured on the port.

Disabled – Disables the port state configured on the port.

Click Apply to make the configurations take effect.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

LLDP > LLDP Statistics Table

The LLDP Statistics page displays an overview of all LLDP traffic.

Figure 4.183 – LLDP > LLDP Statistics Table

The following information can be viewed:

LLDP Statistics System: Displays the counters that refer to the whole switch.

Last Change Time – Displays the time for when the last change entry was last deleted or added. It

is also displays the time elapsed since last change was detected.

Number of Table Insert – Displays the number of new entries inserted since switch reboot.

Number of Table Delete – Displays the number of new entries deleted since switch reboot.

Number of Table Drop – Displays the number of LLDP frames dropped due to that the table was

full.

Number of Table Age Out – Displays the number of entries deleted due to Time-To-Live expiring.

LLDP Port Statistics: Displays the counters that refer to the ports.

TxPort FramesTotal – Displays the total number of LLDP frames transmitted on the port.

RxPort FramesDiscarded – Displays the total discarded frame number of LLDP frames received on

the port.

RxPort FramesErrors – Displays the Error frame number of LLDP frames received on the port.

RxPort Frames – Displays the total number of LLDP frames received on the port.

RxPortTLVsDiscarded – Each LLDP frame can contain multiple pieces of information, known as

TLVs. If a TLV is malformed, it is counted and discarded.

RxPortTLVsUnrecognized – Displays the number of well-formed TLVs, but with a known type value.

RxPort Ageouts – Each LLDP frame contains information about how long time the LLDP information is valid.

If no new LLDP frame is received within the age out time, the LLDP information is removed, and the Age-Out

counter is incremented.

LLDP > LLDP Management Address Table

The LLDP Management Address Table page displays the detailed management address information for the

entry.

Figure 4.184 – LLDP > LLDP Management Address Table

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Management Address: Specifies IPv4 or IPv6 address then enter the address. Click Search and the table

will update and display the values required.

Subtype: Displays the managed address subtype. For example, MAC or IPv4.

Management Address: Displays the IP address.

IF Type: Displays the IF Type.

OID: Displays the SNMP OID.

Advertising Ports: Displays the advertising ports.

LLDP > LLDP Local Port Table

The LLDP Local Port Table page displays LLDP local port information.

Figure 4.185 –LLDP > LLDP Local Port Table

No: Displays the port number.

Port ID Subtype: Displays the port ID subtype.

Port ID: Displays the port ID (Unit number/Port number).

Port Description: Displays the port description.

Click View of Normal column to display more information.

Figure 4.186 – LLDP > LLDP Local Port Normal Table

Click View of Detailed column to display detail information.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.187 – LLDP > LLDP Local Port Detailed Table

LLDP > LLDP Remote Port Table

This LLDP Remote Port Table page is used to display the LLDP Remote Port Brief Table. Select port

number and click Search to display additional information.

Figure 4.188 – LLDP > LLDP Remote Port Table

To view the settings for a remote port, click View Normal and the following page displays.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.189 – LLDP > LLDP Remote Port Normal Table

To view the detail settings for a remote port, click View Detailed and the following page displays.

Figure 4.190 – LLDP > LLDP Remote Port Detailed Table

LLDP > LLDP-MED Settings

By selecting a range of ports (From Port and To Port), the power PSE TLV type can be enabled for all

selected ports to indicate the power source equipment (PSE) switch to transmit high power (15.4 to 30 Watts)

to the pre-standard of 802.3at power devices via LLDP MDI TLV. Through this feature, the PSE can provide

precise output power to the pre-standard of 802.3at power devices and achieve optimal power management.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Figure 4.191 – LLDP > LLDP –MED Settings

L3 Functions > IPv4 Static Route

By The Switch supports static routing for IPv4 formatted addressing. User can create up to 256 static route

entries for IPv4. For IPv4 static routes, once a static route has been set, the Switch will send an ARP request

packet to the next hop router that has been set by the user. Once an ARP response has been retrieved by

the Switch from that next hop, the route becomes enabled. However, if the ARP entry already exists, an ARP

request will not be sent.

The Switch also supports a floating static route, which means that the user may create an alternative static

route to a different next hop. This secondary next hop device route is considered as a backup static route for

when the primary static route is down. If the primary route is lost, the backup route will uplink and its status

will become active. Entries into the Switch’s forwarding table can be made using both an IP address subnet

mask and a gateway.

Figure 4.192 – L3 Functions > IPv4 Static Route

IPv4 Address: Specifies an IPv4 address to be assigned to the static route.

Netmask: Specifies a subnet mask to be applied to the corresponding subnet mask of the IPv4 address.

Gateway: Specifies the entry of a Gateway IP address to be applied to the corresponding gateway of the

IPv4 address.

Metric (1-65535): Represents the metric value of the IP interface entered into the table. The value ranges

between 1 and 65535.

Backup State: Each IP address can only have one primary route, while other routes should be assigned to

the backup state. When the primary route failed, Switch will try the backup routes according to the order

learnt by the routing table until route success. The field represents the Backup state that the Static and

Default Route is configured for.

Click Add to create a new IPv4 static route entry.

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

L3 Functions > IPv4 Routing Table Finder

The IPv4 routing table stores all the external routes information of the Switch. The IPv4 Routing Table

Finder page displays all the routing information on the Switch.

Figure 4.193 – L3 Functions > IPv4 Routing Table Finder

Network Address; Specifies the destination network address of the route to be displayed.

Click Search to display the information of specified route entry.

L3 Functions > IPv6 Static Route

A static entry of an IPv6 address can be entered into the Switch’s routing table for IPv6 formatted addresses.

Figure 4.194 – L3 Functions > IPv6 Static Route

IPv6 Address / Prefix Length: Specifies an IPv6 address to be assigned to the static route.

Nexthop Address: Specifies the corresponding IPv6 address for the next hop gateway address in IPv6

format.

Metric (1-65535): Specifies a metric of the IPv6 interface into the table representing the number of routers

between the Switch and the IPv6 address above. The value ranges between 1 and 65535.

Backup State: Each IPv6 address can only have one primary route, while other routes should be assigned

to the backup state. When the primary route failed, the Switch will try the backup routes according to the

order learnt by the routing table until route success. This field represents the backup state for the IPv6

configured. This field may be Primary or Backup.

Click Add to create a new IPv6 static route entry.

L3 Functions > IPv6 Routing Table Finder

The IPv6 routing table stores all the external routes information of the Switch. The IPv6 Routing Table

Finder page displays all the routing information on the Switch.

Figure 4.195 – L3 Functions > IPv6 Routing Table Finder

4 Web-based Switch Configuration D-Link DGS-2000 Series Ethernet Switch User Manual

Network Address; Specifies the destination network address of the route to be displayed.

Click Search to display the information of specified route entry.

Appendix A - Ethernet Technology D-Link DGS-2000 Series Ethernet Switch User Manual

Appendix A - Ethernet Technology

This chapter will describe the features of the D-Link DGS-2000 Series Ethernet Switch 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.

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

130

Appendix B - Technical Specifications

This appendix contains the device specifications, and contains the topics:

• Hardware Specifications

• Features

Hardware Specifications

Key Components / Performance

Switching Capacity

DGS-2000-10: 20Gbps

DGS-2000-10P: 20Gbps

DGS-2000-10MP: 20Gbps

DGS-2000-20: 40Gbps

DGS-2000-26: 52Gbps

DGS-2000-28: 56Gbps

DGS-2000-28P: 56Gbps

DGS-2000-28MP: 56Gbps

DGS-2000-52: 104Gbps

DGS-2000-52MP: 104Gbps

Max. Forwarding Rate

DGS-2000-10: 14.88 Mpps

DGS-2000-10P: 14.88 Mpps

DGS-2000-10MP: 14.88 Mpps

DGS-2000-20: 29.8 Mpps

DGS-2000-26: 38.7 Mpps

DGS-2000-28: 41.7 Mpps

DGS-2000-28P: 41.7 Mpps

DGS-2000-28MP: 41.7 Mpps

DGS-2000-52: 77.4 Mpps

DGS-2000-52MP: 77.4 Mpps

Forwarding Mode Store and Forward

Packet Buffer memory

DGS-2000-10: 4.1 Mbits

DGS-2000-10P: 4.1 Mbits

DGS-2000-10MP: 4.1 Mbits

DGS-2000-20: 4.1 Mbits

DGS-2000-26: 4.1 Mbitss

DGS-2000-28: 4.1 Mbits

DGS-2000-28P: 4.1 Mbits

DGS-2000-28MP: 4.1 Mbits

DGS-2000-52: 12 Mbits

DGS-2000-52MP: 12 Mbits

DDRIII for CPU 256M bytes

Flash Memory 32M bytes

Priority Queues 8

Port Functions

10/100/1000BASE-TX

8 x 10/100/1000BaseT ports for DGS-2000-10, DGS-2000-10P and DGS-

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

Ethernet ports

2000-10MP

20 x 10/100/1000BaseT ports for DGS-2000-20

24 x 10/100/1000BaseT ports for DGS-2000-26

28 x 10/100/1000BaseT ports for DGS-2000-28, DGS-2000-28P, DGS-2000-

28MP

52 x 10/100/1000BaseT ports for DGS-2000-52, DGS-2000-52MP

1000Base-T ports compliant to following standards:

- IEEE 802.3 compliance

- IEEE 802.3u compliance

- IEEE 802.3ab compliance

Support Half/Full-Duplex operations

- IEEE 802.3x Flow Control support for Full-Duplex mode

- Back Pressure for Half-Duplex mode

- Head-of-line blocking prevention

Support manual/auto MDI/MDIX configuration

Support Auto-Negotiation for each port

SFP ports

Port 9 ~ 10 for DGS-2000-10, DGS-2000-10P and DGS-2000-10MP

Port 17 ~ 20 for DGS-2000-20

Port 25 ~ 26 for DGS-2000-26

Port 25 ~ 28 for DGS-2000-28, DGS-2000-28P, DGS-2000-28MP

Port 49 ~ 52 for DGS-2000-52 and DGS-2000-52MP

SFP ports comply with following standards:

- IEEE 802.3u compliance (Support 100M transceivers)

- IEEE 802.3z compliance

- IEEE 802.3ah compliance

Support Transceivers:

- 100M/1000M SFP Transceivers

- WDM SFP Transceivers

- 1000BASE-T Transceivers

SFP Transceivers Supported:

- DGS-712 (1000Base-T)

- DEM-210 (100BASE-FX, 15km)

- DEM-211 (100BASE-FX, 2km)

- DEM-310GT (1000BASE-LX, 10km)

- DEM-311GT (1000BASE-SX, 550m)

- DEM-314GT (1000BASE-LH, 50km)

- DEM-315GT (1000BASE-ZX, 80km)

- DEM-312GT2 (1000BASE-SX, 2km)

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

WDM Transceivers Supported:

- DEM-220T (100Base-BX,TX-1550/RX-1310nm, 20km)

- DEM-220R (100Base-BX,TX-1310/RX-1550nm, 20km)

- DEM-330T (1000Base-BX,TX-1550/RX-1310nm, 10km)

- DEM-330R (1000Base-BX,TX-1310/RX-1550nm, 10km)

- DEM-331T (1000Base-BX,TX-1550/RX-1310nm, 40km)

- DEM-331R (1000Base-BX,TX-1310/RX-1550nm, 40km)

Physical & Environment

Power Consumption

DGS-2000-10:

Standby power consumption: 2.03 Watts

DGS-2000-10P:

Maximum power consumption: 81.9 Watts (PoE On),7.6 Watts (PoE Off)

Standby power consumption: 2.5 Watts

DGS-2000-10MP:

Maximum power consumption: 152.3 Watts (PoE On), 9.4 Watts (PoE Off)

Standby power consumption: 5.2 Watts

DGS-2000-20:

Standby power consumption: 5.47 Watts

DGS-2000-26:

Standby power consumption: 5.01 Watts

DGS-2000-28:

Standby power consumption: 6.49 Watts

DGS-2000-28P:

Maximum power consumption: 263.9 Watts (PoE On), 30.6 Watts (PoE Off)

Standby power consumption: 19.6 Watts

DGS-2000-28MP:

Maximum power consumption: 446.1 Watts (PoE On), 29.8 Watts (PoE Off)

Standby power consumption: 18.5 Watts

DGS-2000-52:

Standby power consumption: 13.7 Watts

DGS-2000-52MP:

Maximum power consumption: 478.9 Watts (PoE On), 54.4 Watts (PoE Off)

Standby power consumption: 32 Watts

Power Supply DGS-2000-10P: DC:54V / 1.574A

DGS-2000-10/10MP/20/26/28/28P/28MP/52/52MP: AC:100~240V, 50/60Hz

Fans

DGS-2000-28P: 2pcs Smart Fan

DGS-2000-28MP: 2pcs Smart Fan

DGS-2000-52: 2pcs Smart Fan

DGS-2000-52MP: 2pcs Smart Fan

Operating Temperature -5~50°C

Storage Temperature -20~70°C

Humidity Storage: 0%~90% non-condensing

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

Dimensions

DGS-2000-10: 280 x 126 x 44 mm

DGS-2000-10P: 280 x 126 x 44 mm

DGS-2000-10MP: 330 x 180 x 44 mm

DGS-2000-20: 280 x 180 x 44 mm

DGS-2000-26: 440 x 140 x 44 mm

DGS-2000-28: 440 x 140 x 44 mm

DGS-2000-28P: 440 x 250 x 44 mm

DGS-2000-28MP: 440 x 250 x 44 mm

DGS-2000-52:440 x 210 x 44 mm

DGS-2000-52MP: 440 x 430 x 44 mm

Weight

DGS-2000-10: 0.98 kg

DGS-2000-10P: 0.95 kg

DGS-2000-10MP: 1.77 kg

DGS-2000-20: 1.75 kg

DGS-2000-26: 2.06 kg

DGS-2000-28: 2.15 kg

DGS-2000-28P: 3.75 kg

DGS-2000-28MP: 3.94 kg

DGS-2000-52: 3.46 kg

DGS-2000-52MP: 6.26 kg

EMI CE, FCC/IC, VCCI, BSMI, C-Tick

Safety UL, CB, BSMI

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

Features

L2 Features

Supports up to 8K MAC address

Supports 256 static MAC

Jumbo frame: Supports up to 10,000

bytes.

IGMP Snooping v1/v2/v3 awareness:

- Supports 256 multicast groups

- Supports at least 32 static multicast groups

MLD Snooping:

- Supports max. 32 MLD Snooping groups

802.1D Spanning Tree

802.1w Rapid Spanning Tree

802.1s MSTP

Loopback Detection

802.3ad Link Aggregation:

Port mirroring

SNTP

LLDP/LLDP-MED

IPv6 neighbor Discovery (ND): Supports

256 dynamic + static ND entries

L2 Multicast Filtering

L3 Features

ARP:

Max 128 ARP entries

- Support 128 static ARP entries

Support 4 IPv4 and 4 IPv6 interfaces

Support IPv6 Neighbor Discovery:

- Max 256 ND entries

- Support up to 256 static ND

entries

Max. 128 IPv4 and 128 IPv6 static route

entries

Supports default route backup entry

VLAN

802.1Q VLAN standard (VLAN Tagging)

Up to 256 static VLAN groups

Asymmetric VLAN

Management VLAN

Auto Voice VLAN

Auto Surveillance VLAN 2.0

QoS (Quality of Service)

Priority queue mapping by :

- 802.1p

- DSCP

- Port Base

Up to 8 queues per port

Supports Strict in queue handling

Bandwidth Control

AAA

802.1X port-based access control

Support RADIUS server

ACL

Max 150 ingress ACL access-list

Ingress ACL rules: 200 rules (each rule

can be associated to a single port or

multiple ports)

Support different ACL policy packet

contents:

- 802.1p priority

- VLAN

- MAC address

- Ethernet Type

- IPv4/IPv6 address

- DSCP

- Protocol type

- TCP/UDP port number

- IPv6 Traffic class

Security

Trusted Host

Port Security: Support 64 MAC addresses

per port

Traffic Segmentation

D-Link Safeguard Engine

Broadcast Storm Control

Smart Binding

- Support manual configuration and

scanning for binding.

- Supports ARP and IP packet inspection

as an option.

- Supports DHCP Snooping

OAM

Cable Diagnostics

Reset button (reset to factory default)

Management

Web-based GUI or D-Link Network

Assistant (DNA)

D-Link CLI style

SNMP support

DHCP client

Trap setting for destination IP, system

events, fiber port events,

Password access control

Web-based configuration backup /

restoration

Web-based firmware backup/restore

Firmware upgrade using D-Link Network

Assistant (DNA) & Web-based

management

Reset, Reboot

Appendix B - Technical Specifications D-Link DGS-2000 Series Ethernet Switch User Manual

D-Link Green Technology

Power Saving: Enabled by default to save

power:

- By Link Status: Drastically save power

when the switch port link is down. For

example, no PC connection or the

connected PC is powered off.

- By LED Shut-Off: LEDs can be turned

on/off by port or system through schedule.

- By Port Shut-Off: Each port on the system

can be turned on/off by schedule.

- By System Hibernation: System enters

hibernation by schedule. In this mode,

switches save most power since main

chipsets (both MAC and PHY) are disabled

for all ports, and energy required to power

the CPU is minimal.

Appendix C – Rack mount Instructions D-Link DGS-2000 Series Ethernet Switch User Manual

136

Appendix C – Rack mount Instructions

Safety Instructions - Rack Mount Instructions - The following or similar rack-mount instructions are included

with the installation instructions:

A) Elevated Operating Ambient - If installed in a closed or multi-unit rack assembly, the operating ambient

temperature of the rack environment may be greater than room ambient. Therefore, consideration should be

given to installing the equipment in an environment compatible with the maximum ambient temperature (Tma)

specified by the manufacturer.

B) Reduced Air Flow - Installation of the equipment in a rack should be such that the amount of air flow

required for safe operation of the equipment is not compromised.

C) Mechanical Loading - Mounting of the equipment in the rack should be such that a hazardous condition is

not achieved due to uneven mechanical loading.

D) Circuit Overloading - Consideration should be given to the connection of the equipment to the supply

circuit and the effect that overloading of the circuits might have on overcurrent protection and supply wiring.

Appropriate consideration of equipment nameplate ratings should be used when addressing this concern.

E) Reliable Earthing - Reliable earthing of rack-mounted equipment should be maintained. Particular

attention should be given to supply connections other than direct connections to the branch circuit (e.g. use

of power strips).