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.
January 2013 P/N 651GS6604035G
FCC Warning
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part
15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference
when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate
radio frequency energy, and, if not installed and used in accordance with this manual, may cause harmful
interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the interference at their own expense.
CE Mark Warning
This is a Class A product. In a domestic environment, this product may cause radio interference in which case
the user may be required to take adequate measures.
Warnung!
Dies ist ein Produkt der Klasse A. Im Wohnbereich kann dieses Produkt Funkstoerungen verursachen. In diesem
Fall kann vom Benutzer verlangt werden, angemessene Massnahmen zu ergreifen.
Precaución!
Este es un producto de Clase A. En un entorno doméstico, puede causar interferencias de radio, en cuyo case,
puede requerirse al usuario para que adopte las medidas adecuadas.
Attention!
Ceci est un produit de classe A. Dans un environnement domestique, ce produit pourrait causer des
interférences radio, auquel cas l`utilisateur devrait prendre les mesures adéquates.
Attenzione!
Il presente prodotto appartiene alla classe A. Se utilizzato in ambiente domestico il prodotto può causare
interferenze radio, nel cui caso è possibile che l`utente debba assumere provvedimenti adeguati.
Notes, Notices, and Cautions.............................................................................................................................ix
Safety Recommendations for Handling the Switch ....................................................................................... ix
Safety Recommendations for Removing and replacing Batteries.................................................................ix
Safety Precautions for Installing and Removing the Switch.......................................................................... x
Electrical Safety ............................................................................................................................................ x
Laser Safety.................................................................................................................................................. xiii
Product Features ..........................................................................................................................................1
Product Features ..........................................................................................................................................5
Installation Site Requirements ...........................................................................................................................33
Power Requirements .................................................................................................................................... 35
System Grounding Requirements.................................................................................................................35
Verifying the Installation ..................................................................................................................................... 38
Installing the Cabinet..........................................................................................................................................39
Mounting the DGS-6600 Series Switch into the Cabinet ................................................................................... 40
Fan Tray Installation...........................................................................................................................................41
Power Supply Installation...................................................................................................................................43
Air Filter Installation............................................................................................................................................44
System Ground Connection ............................................................................................................................... 45
Checking the Cabinet.................................................................................................................................... 51
Checking the Cables.....................................................................................................................................51
Checking the Power Supply..........................................................................................................................51
Chapter 3 Connecting the Switch ....................................................................................... 52
Switch to End Node............................................................................................................................................52
Chassis to Switch...............................................................................................................................................53
Connecting To Network Backbone or Server..................................................................................................... 54
Connecting the Management Module Cable......................................................................................................55
Connecting the External Interface Cables.......................................................................................................... 55
Web-based User Interface ............................................................................................................................ 56
Remote Command Line Interface using Telnet ............................................................................................56
Command Line Interface through the Serial Ports........................................................................................57
Connecting the Console Port ............................................................................................................................. 57
To connect a terminal to the console port:.................................................................................................... 57
First Time Connecting to the Switch ..................................................................................................................60
Connecting to the Ethernet Management Port...................................................................................................61
Enabling and Configuring the Web User Interface.............................................................................................66
Logging onto the Web Manager......................................................................................................................... 67
Web-based User Interface (Web UI).................................................................................................................. 67
Areas of the User Interface ........................................................................................................................... 68
Configuring the Management Interface using the Web UI .................................................................................69
The DGS-6600 Series Switch Hardware Installation Guide contains information on how to install the Switch
hardware. This manual is intended for network or I.T. managers familiar with network management concepts and
terminology.
Typographical Conventions
The conventions used in this Configuration Guide are explained in the following table:
ConventionDescriptionExample
Typewriter
Font
Boldface
Typewriter
Font
BOLD UPPER
CASE ITALIC
TYPEWRITER
FONT
Square
brackets [ ]
Vertical bar |This token separates the alternative elements. dhcp | bootp
Braces { }This token specifies a required element. The user must
, -These tokens specify that multiple interfaces can be
This is used in the CLI examples to represent the text
that is seen in the Switch console window and the
output. This is also used to indicate Switch responses.
This is used in the CLI examples to represent the
commands that the user will type in the Switch console
window. The commands must be typed exactly as
printed in the manual.
This is used in the CLI examples to indicate the
parameters in a CLI command.
This token specifies optional elements. A user can
specify zero, one, or multiple elements.
specify one of the elements.
specified. The ‘-' symbol is used to represent a range
of interfaces and the ‘,’ symbol is used to connect
multiple ranges.
DGS-6600:2>
configure terminal
VLAN-NAME
[view VIEW-NAME]
{1 | 2c | 3 {auth |
noauth | priv}}
[,|-]
Angle brackets <>This token represents the numeric range of a
parameter. The available range is enclosed in the <>
symbols.
Bold FontIndicates a Switch command or a Keyword.configure terminal
Italic FontIndicates a variable or parameter that is replaced with
A NOTE indicates important information that helps make better use of the device
.
A NOTICE indicates either potential damage to hardware or loss of data and tells how to
avoid the problem.
A CAUTION indicates a potential for property damage, personal injury, or death.
Safety Suggestions
While DGS-6600 series switches are designed and manufactured to meet accepted safety standards improper
use can result in electrical shock, fire hazards and personal injury. Please read the safety suggestions carefully
before installing the DGS-6600 series switch.
NOTE: The following safety suggestions do not cover all potential dangers.
Safety Recommendations for Handling the Switch
• The DGS-6600 Series chassis (6604 and 6608 models) is heavy, particularly if it has been completely
configured with the power units, command module and line modules. Please do not risk personal injury
or equipment damage by attempting to transport or lift the DGS-6600 series switch chassis without
assistance.
• When lifting or handling the DGS-6600 series switch use the lifting handles show in Figure 1. No other
parts of the DGS-6600 series switch should be used for lifting or handling.
• Do not place the Switch in a location that will obstruct a walkway or cause a safety hazard.
• Do not wear loose clothing or items that may become caught in the chassis during handling, installation
or maintenance.
Safety Recommendations for Removing and replacing Batteries
Batteries included with DGS-6600 Series products are encapsulated and must be replaced only by qualified
Service personnel. Contact your qualified Service personnel for product replacement. Do not attempt to replace
the battery. If these instructions are disregarded and replacement of these batteries is attempted, the following
guidelines must be followed to avoid danger of explosion:
• Replace with the same or equivalent battery type as recommended by the battery manufacturer.
• Dispose of the battery in accordance with the battery manufacturers recommendation.
Safety Precautions for Installing and Removing the Switch
Before moving the chassis, remove all line cards, the fan tray, and all power modules. After removing all line
cards, the fan tray, and all power modules, use the handles on the top of the chassis (Please see Figure 1.) to
move the Switch to avoid causing any damage.
• Before installing or removing any part of the DGS-6604/6608 (line cards, the fan tray or power modules)
please ensure that you, the equipment rack and any line cards are at ground potential to prevent electrostatic discharge (ESD).
• Before installing or removing the chassis, ensure that all the power supplies are turned off and that all
power cables are unplugged.
Figure 1 Diagram showing how to correctly hold, while moving, the DGS-6604
NOTE: Do not move the equipment by grasping the panel, power supply handle, or the
ventilation holes of the chassis as they are not designed to bear the weight of the entire
equipment. Attempting to move the Switch in this way may cause damage or cause you an
injury.
Electrical Safety
• Please follow any applicable safety regulations and laws when performing electrical work. All electrical
work should be carried out by a qualified individual.
• Before beginning any work with the switch carefully check for any potential dangers in the working area,
eg. a damp or wet floor, an ungrounded power supply, or an unreliable grounding of the power supply.
• Locate the emergency power off switch in the room before installing or working on the switch.
• If an electrical accident occurs, cut off the power supply to the Switch first.
• Avoid carrying out maintenance on the equipment alone when the Switch is powered on.
• Before shutting down the power supply, check that it is safe to do so.
• Do not place the Switch in a damp/wet location. Ensure that no liquid enters the chassis.
• Ensure that all grounding conductors are connected both before, and after the line and neutral (AC)
conductors are connected.
• Disconnect all power supply cords before servicing.
• Connect the power cable to a circuit breaker rated not greater than 20A.
• When installing multiple power supplies, connect each power supply to a different, independent overcurrent protection device, such as a circuit breaker. If a single power source fails, it will affect only the
power supply to which it is connected.
Proper grounding of the switch will help ensure stable and reliable operation of the DGS-6600 series switch. it is
important to verify that the grounding conditions during and after installation of the switch meet the grounding
requirements and grounds all devices properly.
All grounding conductors should be connected before the AC power is applied to the DGS-6600 series switch
installed AC power supplies.
2
The DGS-6604 series switch with AC power supplies must be grounded with a minimum of 0.823 mm
18AWG) of conductive grounding cable. This cable is connected between the Equipment Room Ground and the
DGS-6600 series Chassis Ground Terminal.
The DGS-6608 series switch with AC power supplies must be grounded with a minimum of 1.32 mm2
(or16AWG) of conductive grounding cable.
CAUTION: Indirectly or directly contacting the mains supply with a wet object can
cause a fatal danger.
(or
CAUTION: Hazards, including electrical shocks and fires, can be caused by any
non-standard and inaccurate electrical operation. This may cause severe or fatal
damage to the human body or equipment.
Preventing Static Discharge Damage
While all precautions have been taken with the design of the DGS-6600 series switch to prevent damage from
static electricity, if the static electricity exceeds a certain limit, damage may be caused to the Switch's circuitry
and equipment.
Electrostatic induction may come from the following sources on the network that the DGS-6600 series switch is a
member of:
• External electric fields produced by high-voltage cable supplies, lightning etc.
• Internal building factors, such as the internal floor or the building structure.
The following factors must be paid attention to in order to prevent damage from static electricity: To prevent
damage from static electricity, please use the following guidelines:
1. Be sure to install an adequate ground for all electronic equipment.
2. Use appropriate dust prevention measures.
3. Maintain the required humidity in the operating environment.
4. Hold circuit boards by their edges. Do not touch any components on the printed circuit board (PCB).
5. Always wear an anti-static wrist strap when working near any electronic circuitry.
6. Do not allow clothing to touch circuit boards. An antistatic wrist strap will only prevent static electricity from
the human body, it will not reduce the static electricity build up on clothing.
A number of the optical modules included in the DGS-6600 series switches are Class I laser products. Therefore,
when using these products pay careful attention to the following:
• Ensure that any working fiber transceivers are either connected to a working optical fiber connection or
covered with a dust cap, to keep out of dust and avoid damaging your eyesight.
• Never look into any optical port.
CAUTION: Never stare into any optical port under any circumstances, as this may
damage your eye sight.
The D-Link's DGS-6600 series switch is a modular, chassis-based Ethernet backbone switch designed for
adaptability and scalability. Currently, the DGS-6600 series chassis is available in a 4-slot chassis (DGS-6604)
and 8 slot chassis (DGS-6608). The DGS-6600 Switch provides a management platform with a backplane switch
capacity of 576Gbps per Management Module. The chassis contains, one slot for the management module and
three slots for line card modules in the DGS-6604, and two slots for the management module with six slots for the
line card modules in the DGS-6608. All the supported modules are capable of being hot-swapped. The DGS6600 chassis provides a built-in power shelf that supports, depending DGS-6604 or DGS-6608 chassis type; up
to four or eight, redundant power modules. Multiple redundant power modules enable continuous operation in the
event of a power module failure.
DGS-6604 Product Specifications
Product Features
• Powerful Expansion Capabilities
The DGS-6604 is capable of supporting strategic routing and IPv6. With support for multiple types of
line cards, the DGS-6600 allows users to customize their Switch configuration to meet their network
requirements.
• Hot-Swappable Line Cards, Fan Tray, and Power Supplies
The DGS-6604 supports the hot-swapping of line cards, the fan tray, and power supplies to
minimize disruption to the network when a fault occurs.
• Power Supply Redundancy
The DGS-6604 has a built-in power shelf that can host multiple power modules. If the DGS-6600 is
running in a non-PoE environment, the Switch can operate using only one power supply. in a worst
case scenario with three 48-port PoE line cards installed, all PSUs being inserted can meet the
power request.
• Efficient Data Processing Design
The DGS-6604 implements complicated functions, such as switching, routing, ACL, and QoS via the
Switch hardware. Using the Switch hardware avoids the issues that can occur when implementing
complex functions within software.
Several functions are performed by the management module, including network management, route
management, and providing network services. The line card modules are capable of using their
hardware to independently implement functions like routing, switching, and multicast using their
hardware. The individual switch ports are capable of using their hardware to implement ACL and
QoS functions. These combined features greatly improve the equipment processing capability.
The DGS-6604 includes several features that ensure physical resilience, including multiple
redundant power supplies and the capability of hot-swapping line cards or modules in the event of a
fault.
• Secure Switch Management Methods
The DGS-6604 supports several features to prevent non-administrators from logging into the Switch
and potentially causing disruption to the network. These features include the Secure Shell (SSH)
encrypted login function and the option of restricting Telnet and web access to a specific group of
source IP addresses.
• Support for 802.1X
The DGS-6604 supports 802.1X. 802.1X is a mechanism that is designed to only allow authorized
users, or other network devices, access to network resources by establishing criteria for each port
on the Switch that a user or network device must meet before allowing that port to forward or receive
frames.
• Support for a Wide Range of Applications
The DGS-6604 supports a wide range of applications including QoS and multicast.
The QoS techniques supported by the Switch include Strict Priority Mode, Weighted Round Robin
(WRR), Deficit Round Robin (DRR), and Head of Line (HOL) blocking. These QoS techniques help
to provide bandwidth assurance for the various applications.
The multiple multicast support techniques supported by the Switch include IGMP snooping, IGMP,
PIM (SM,DM), and DVMRP. These multicast support techniques ensure that the minimum
bandwidth required for multicast applications is provided on the network.
• Support for Equal-Cost Multipath Routing (ECMP)
When traditional routing techniques are used on a network that has multiple links that can reach the
same address, packets can only take one of the links to reach their destination, with all other links
being in standby or inactive. Another issue with traditional routing techniques is that the switching
between the various links can take some time in an environment that is using dynamic routing.
Compared to traditional routing techniques, ECMP is a great improvement as it can use multiple
links at the same time in a resilient network environment. As well as increasing transmission
bandwidth, ECMP also backs up the data transmission on the link that has failed without causing
any delays or packet loss.
• STP and VRRP Support
The DGS-6604 supports both the Spanning-Tree Protocol (STP) and Virtual Router Redundancy
Protocol (VRRP). The Spanning-Tree Protocol (STP) versions supported by the Switch include
Spanning-Tree Protocol (IEEE 802.1D), Rapid Spanning-Tree Protocol (IEEE 802.1w), and Multiple
Spanning-Tree Protocol (IEEE 802.1s).
The DGS-6604 hardware consists of a chassis, management card, line cards, power system and a fan system.
Chassis
The DGS-6604 uses a standard 19-inch chassis, which has a height of 280mm, a width of 484mm, and a depth
of 470mm. The chassis consists of the system module layer, fan layer, and power layer.
The layer that handles system modules consists of a module plug-in frame, which is used for connecting the
various DGS-6604 modules.
The built-in power shelf is located at the top of the chassis.
The fan tray is located on the right-hand side of the chassis. The fan tray consists of eight fans. The dimension of
each fan is 80x80x20mm.
Module Plug-in Frame
The module plug-in frame of the DGS-6604 consists of the module slots and the backplane.
The DGS-6604 supports four module slots. The slot at the top of the Switch can only be used for the control
management module. The other three slots can be used to connect to various line cards. All the modules
supported by the DGS-6604 are of the same height, width and depth. The dimensions of each module are a
height of 42mm, a width of 388mm, and a depth of 422mm. The modules of the DGS-6604 are inserted into the
Switch horizontally. The backplane of the DGS-6604 is used to interconnect the control management card and
the line cards that have been installed in the Switch.
The main functions of the DGS-6604 backplane are listed below:
• Providing a mechanism for transmitting various signals between the modules and providing channels
for high-speed communication.
• Acting as a passive backplane.
• Automatically identifying the type of line card that has been installed in each slot.
• Managing the load distribution among the installed power supplies.
When the slots of the DGS-6604 are fully populated, the modules of the DGS-6604 will have the following layout:
• One control management module.
• Three line card modules to meet the network requirements.
The slot number used for the Control Management module is 1. Slots 2, 3, and 4 are used for line card modules.
The DGS-6604 operates at a temperature of 0-50ºC. The hardware of the DGS-6604 has been thermally
designed so the surface temperature of the components does not exceed the allowed ambient temperature of
50ºC without affecting the reliability, security, and repairability of the Switch. The thermal design of the DGS-6604
hardware uses fans to induct air in a forced convection so that the equipment operates normally in the specified
environment. The diagram below shows the ventilation/heat dissipation system that has been implemented on
the DGS-6604.
Figure 1-2 DGS-6604 Ventilation/Heat Dissipation System
NOTE: The air flow direction for the DGS-6604 is from the left to the right.
DGS-6608 Product Specifications
Product Features
• Powerful Expansion Capabilities
The DGS-6608 is capable of supporting strategic routing and IPv6. With support for multiple types of
line cards, the DGS-6608 allows users to customize their Switch configuration to meet their network
requirements.
• Hot-Swappable Line Cards, Fan Tray, and Power Supplies
The DGS-6608 supports the hot-swapping of line cards, the fan tray, and power supplies to
minimize disruption to the network when a fault occurs.
• Power Supply Redundancy
The DGS-6608 has two built-in power shelves that can host up to eight power modules. If the DGS6608 is running in a non-PoE environment, the Switch can operate using only two power supply. in a
worst case scenario with six 48-port PoE line cards installed, all 8 x PSUs inserting can meet the
power request. In this case, the system does not support RPS.
The DGS-6608 implements complicated functions, such as switching, routing, ACL, and QoS via the
Switch hardware. Using the Switch hardware avoids the issues that can occur when implementing
complex functions within software.
Several functions are performed by the management module, including network management, route
management, and providing network services. The line card modules are capable of using their
hardware to independently implement functions like routing, switching, and multicast using their
hardware. The individual switch ports are capable of using their hardware to implement ACL and
QoS functions. These combined features greatly improve the equipment processing capability.
• Physical Resilience
The DGS-6608 includes several features that ensure physical resilience, including multiple
redundant power supplies and the capability of hot-swapping line cards or modules in the event of a
fault.
• Secure Switch Management Methods
The DGS-6608 supports several features to prevent non-administrators from logging into the Switch
and potentially causing disruption to the network. These features include the Secure Shell (SSH)
encrypted login function and the option of restricting Telnet and web access to a specific group of
source IP addresses.
• Support for 802.1X
The DGS-6608 supports 802.1X. 802.1X is a mechanism that is designed to only allow authorized
users, or other network devices, access to network resources by establishing criteria for each port
on the Switch that a user or network device must meet before allowing that port to forward or receive
frames.
• Support for a Wide Range of Applications
The DGS-6608 supports a wide range of applications including QoS and multicast.
The QoS techniques supported by the Switch include Strict Priority Mode, Weighted Round Robin
(WRR), Deficit Round Robin (DRR), and Head of Line (HOL) blocking. These QoS techniques help
to provide bandwidth assurance for the various applications.
The multiple multicast support techniques supported by the Switch include IGMP snooping, IGMP,
PIM (SM,DM), and DVMRP. These multicast support techniques ensure that the minimum
bandwidth required for multicast applications is provided on the network.
• Support for Equal-Cost Multipath Routing (ECMP)
When traditional routing techniques are used on a network that has multiple links that can reach the
same address, packets can only take one of the links to reach their destination, with all other links
being in standby or inactive. Another issue with traditional routing techniques is that the switching
between the various links can take some time in an environment that is using dynamic routing.
Compared to traditional routing techniques, ECMP is a great improvement as it can use multiple
links at the same time in a resilient network environment. As well as increasing transmission
bandwidth, ECMP also backs up the data transmission on the link that has failed without causing
any delays or packet loss.
• STP and VRRP Support
The DGS-6608 supports both the Spanning-Tree Protocol (STP) and Virtual Router Redundancy
Protocol (VRRP). The Spanning-Tree Protocol (STP) versions supported by the Switch include
Spanning-Tree Protocol (IEEE 802.1D), Rapid Spanning-Tree Protocol (IEEE 802.1w), and Multiple
Spanning-Tree Protocol (IEEE 802.1s).
• High Port Density
The DGS-6608 supports up to 288 gigabit Ethernet ports or 96 ten gigabit Ethernet ports.
The DGS-6608 hardware consists of a chassis, management card, line cards, power system and a fan system.
Chassis
The DGS-6608 uses a standard 19-inch chassis. The chassis consists of the system module layer, fan layer, and
power layer.
The layer that handles system modules consists of a module plug-in frame, which is used for connecting the
various DGS-6608 modules.
The built-in power shelf is located at the top of the chassis.
The fan tray is located on the right-hand side of the chassis. The fan tray consists of Sixteen fans. The dimension
of each fan is 80x80x20mm.
Module Plug-in Frame
The module plug-in frame of the DGS-6608 consists of the module slots and the backplane.
The DGS-6608 supports eight module slots. The slots 4 and 5 of the Switch can only be used for the control
management module. The other six slots can be used to connect to various line cards. All the modules supported
by the DGS-6608 are of the same height, width and depth. The dimensions of each module are a height of
42mm, a width of 388mm, and a depth of 422mm. The modules of the DGS-6608 are inserted into the Switch
horizontally. The backplane of the DGS-6608 is used to interconnect the control management card and the line
cards that have been installed in the Switch.
The main functions of the DGS-6608 backplane are listed below:
• Providing a mechanism for transmitting various signals between the modules and providing channels
for high-speed communication.
• Acting as a passive backplane.
• Automatically identifying the type of line card that has been installed in each slot.
• Managing the load distribution among the installed power supplies.
When the slots of the DGS-6608 are fully populated, the modules of the DGS-6608 will have the following layout:
• Two control management module.
• Six line card modules to meet the network requirements.
The slot number used for the Control Management module is 4 and 5. Slots 1-3 to 6-8 are used for line card
modules.
The DGS-6608 operates at a temperature of 0-50ºC. The hardware of the DGS-6608 has been thermally
designed so the surface temperature of the components does not exceed the allowed ambient temperature of
50ºC without affecting the reliability, security, and repairability of the Switch. The thermal design of the DGS-6608
hardware uses fans to induct air in a forced convection so that the equipment operates normally in the specified
environment. The diagram below shows the ventilation/heat dissipation system that has been implemented on
the DGS-6608.
Figure 1-4 DGS-6608 Ventilation/Heat Dissipation System
NOTE: The air flow direction for the DGS-6608 is from the left to the right.
The DGS-6604/6608 supports the modules described below:
DGS-6600-CM: The DGS-6600-CM is a CPU module for the DGS-6604 Series. The CPU module is used to
manage the entire system, including layer 2 and layer 3 processes, controlling and managing user access,
managing routes, and maintenance on the network and operations.
DGS-6600-CM-II: The DGS-6600-CM-II is a CPU module for the DGS-6604/6608, the DGS-6608 is able to
support 2 x CM.
DGS-6600-24SC2XS: This module includes 12 SFP ports, 12 combo ports (10/100/1000Base-T/SFP Module) and 2
SFP+ ports.
DGS-6600-16XS-D: This module includes16 10G SFP+ ports.
DGS-6600-48P: This module includes 48 10/100/1000 Base -T ports and PoE.
DGS-6600-48S: This module includes 48 SFP interfaces.
DGS-6600-48T: This module includes 48 10/100/1000 Base-T ports.
DGS-660048TS: This module includes 24 10/100/1000 Base-T ports and 24 SFP interfaces.
DGS-6600-8XG: This module includes 8 10G XFP interfaces and is only supported by the DGS-6604.
The basic appearance of the DGS-6600-CM management module is shown in Figure 1-5. The DGS-6600-CM
management module is designed to manage all features of the DGS-6604 model including: system switching,
controlling user access, managing user access, controlling the system status, managing routing, controlling
maintenance on the network and controlling network operations. The DGS-6600-CM management module needs
to be inserted in slot 1 of the chassis.
NOTE: The DGS-6604 needs one DGS-6600-CM management module to operate.
Figure 1-5 Basic Appearance of DGS-6600-CM
Interface
UART Console Interface
The DGS-6600-CM front panel provides two types of UART Console Interface. The first console interface is an
RS-232 connector and the second console interface is a USB connector. These two interfaces are mutually
exclusive; the USB interface has a higher priority. If the Switch is being managed via the RS-232 console
connection and a USB connection is established, the CLI engine will use the USB connection and automatically
disconnect the user that is connected to the Switch via the RS-232 console connection.
Out-of-Band Management Port
The DGS-6600-CM module features an out-of-band Management port. The management port uses an RJ-45
connected so it can be easily connected to a notebook computer using a standard Ethernet cable. Connect to the
port for out-of-band management using a web browser or Telnet command prompt interface. The Management
port is enabled by default, so it can be used for the first time that you connect to the Switch.
To use the management port, use an Ethernet cable to connect the port to the Ethernet interface of a computer
used for Switch management. The default IP address of the management port is 10.90.90.90 with a subnet mask
of 255.0.0.0, make sure the computer used for Switch management has a non-conflicting IP address in the
Management port supports IEEE802.3, IEEE802.3u, IEEE802.3ab Half/Full-duplex support
CLI
Telnet
Web-based
1x Female USB series type B console port
1x RJ-45 management port
System
CPU Utilization
Master
USB
RS-232
Compact Flash
Not-supported
53.856 Watts
EMC (Class A):
FCC Part 15, CSA C108.8, 89/336/EEC, EN 55022, EN 61000-3-2, EN 61000-3-3, EN
61000-4-2, EN 61000-4-3, EN 61000-4-4, EN 61000-4-5, EN 61000-4-6, EN 61000-4-11, EN
55024, AS/NZS 3548, VCCI V-3.
The basic appearance of the DGS-6600-CM-II management module is shown in Figure 1-6. The DGS-6600-CMII management module is designed to manage all features of the DGS-6608 Switch including: system switching,
controlling user access, managing user access, controlling the system status, managing routing, controlling
maintenance on the network and controlling network operations. The DGS-6600-CM-II management module
needs to be inserted in slot 1 in DGS-6604 and slot 4 and 5 in the DGS-6608
NOTE: The DGS-6608 needs at least one DGS-6600-CM-II management modules to operate.
Figure 1-6 Basic Appearance of DGS-6600-CM-II
Interface
UART Console Interface
The DGS-6600-CM-II front panel provides two types of UART Console Interface. The first console interface is an
RS-232 connector and the second console interface is a USB connector. These two interfaces are mutually
exclusive; the USB interface has a higher priority. If the Switch is being managed via the RS-232 console
connection and a USB connection is established, the CLI engine will use the USB connection and automatically
disconnect the user that is connected to the Switch via the RS-232 console connection.
Out-of-Band Management Port
The DGS-6600-CM-II module features an out-of-band Management port. The management port uses an RJ-45
connected so it can be easily connected to a notebook computer using a standard Ethernet cable. Connect to the
port for out-of-band management using a web browser or Telnet command prompt interface. The Management
port is enabled by default, so it can be used for the first time that you connect to the Switch.
To use the management port, use an Ethernet cable to connect the port to the Ethernet interface of a computer
used for Switch management. The default IP address of the management port is 10.90.90.90 with a subnet mask
of 255.0.0.0, make sure the computer used for Switch management has a non-conflicting IP address in the
Management port supports IEEE802.3, IEEE802.3u, IEEE802.3ab Half/Full-duplex support
CLI
Telnet
Web-based
1x Female USB series type B console port
1x RJ-45 management port
System
CPU Utilization
Master
USB
RS-232
Compact Flash
Supported
54.86 Watts
EMC (Class A):
FCC Part 15, CSA C108.8, 89/336/EEC, EN 55022, EN 61000-3-2, EN 61000-3-3, EN
61000-4-2, EN 61000-4-3, EN 61000-4-4, EN 61000-4-5, EN 61000-4-6, EN 61000-4-11, EN
55024, AS/NZS 3548, VCCI V-3.
The basic appearance of the DGS-6600-24SC2XS module is shown in Figure 1-7. The DGS-6600-24SC2XS is a
line card module of the DGS-6604, which provides 12 SFP ports, 12 combo ports (10/100/1000Base-T/SFP Module)
and 2 SFP+ ports.
Figure 1-7 Basic Appearance of DGS-6600-24SC2XS
Interface
The DGS-6600-24SC2XS features 12 SFP ports, 12 combo ports (10/100/1000Base-T/SFP Module) and 2 SFP+
ports, please note that the DGS-6600-24SC2XS last two SFP+ ports do not support DEM-310GT/311GT/312GT2/
314GT/315GT/330T/R/331T/R/210/211/220/T/R or DGS-712 transceiver
.
LEDs
The DGS-6600-24SC2XS uses different colored LEDs to indicate different systems status, described in Table 1-
7.
LED
Indicator
PowerSolid GreenThis LED will light solid green when the Switch is powered on.
SystemSolid GreenThis LED will light solid green when the Switch is operating
Link/Act/
Speed Mode
Color and StatusDescription
OffThis LED will remain off when the Switch is powered off.
normally.
Solid RedThis LED will light solid red when the Switch has failed.
Blinking GreenThis LED will blink green while the Switch is booting up or
shutting down.
OffThis LED will remain off when the Switch is shut down.
Solid GreenThis LED will light solid green when there is a secure
connection (or link) to a device. (Either 1000 Mbps or 10 Gbps,
depending on if it is a 10/100/1000 Mbps port, SFP port or a
10G port.)
Blinking GreenThis LED will blink green when there is activity occurring on a
port that is operating. (Either 1000 Mbps or 10 Gbps, depending
on if it is a 10/100/1000 Mbps port, SFP port or a 10G port.)
Solid AmberWhen there is a secure connection or link at any of the ports.
(Either 10/100 Mbps or 100 Mbps, depending on if it is a 10/
100/1000 Mbps port or an SFP port.)
Blinking AmberWhen there is a reception of transmission. (Either 10/100 Mbps
or 100 Mbps, depending on if it is a 10/100/1000 Mbps port or
an SFP port.)
OffThis LED will remain off when there is no link on the port.
Port Type12 SFP ports, 12 combo ports (10/100/1000Base-T/SFP Module) and 2 SFP+ ports.
LEDPower
Hot Swap
Ability
Power
Consumption
EMC
IEEE 802.3
IEEE 802.3ab
IEEE 802.3ae
IEEE 802.3aq
IEEE 802.3u
IEEE 802.3z
Full-duplex support/Half-duplex support (IEEE 802.3x Flow Control support for Full-Duplex
mode)
SFF-8431 compliant transceiver support
System
Supported
105.5 Watts
EMC (Class A):
FCC Part 15, CSA C108.8, 89/336/EEC, EN 55022, EN 61000-3-2, EN 61000-3-3, EN
61000-4-2, EN 61000-4-3, EN 61000-4-4, EN 61000-4-5, EN 61000-4-6, EN 61000-4-11, EN
55024, AS/NZS 3548, VCCI V-3.
Safety
Regulation
MTBF349982.9658 Hours
Heat
Dissipation
Weight3.328 Kilograms
UL 1950, CSA C22.2 No. 950, 73/23/EEC, EN 60825, EN 60950, IEC 950