Installation Guide
Table Of Contents
- Table of Contents
- Preface
- ExtremeSwitching Switches
- Overview of the Switches
- ExtremeSwitching X435 Series Switches
- ExtremeSwitching X440-G2 Series Switches
- ExtremeSwitching X440-G2-12t-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-12p-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24t-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24x-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24p-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-48t-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-48p-10GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24t-10GE4-DC Switch Ports and Slots
- ExtremeSwitching X440-G2-48t-10GE4-DC Switch Ports and Slots
- ExtremeSwitching X440-G2-12t8fx-GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24fx-GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2-24t-GE4 Switch Ports and Slots
- ExtremeSwitching X440-G2 Series Switch LEDs
- ExtremeSwitching X450-G2 Series Switches
- ExtremeSwitching X450-G2-24t-GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-24t-10GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-48t-GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-48t-10GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-24p-GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-24p-10GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-48p-GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2-48p-10GE4 Switch Ports and Slots
- ExtremeSwitching X450-G2 Series Switch LEDs
- ExtremeSwitching X460-G2 Series Switches
- ExtremeSwitching X460-G2-24t-GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24t-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24x-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24p-GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24p-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-48t-GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-48t-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24t-24ht-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-48x-10GE4 Switch Ports and Slots
- Summit X460-G2-48p-GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-48p-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-24p-24hp-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2-16mp-32p-10GE4 Switch Ports and Slots
- ExtremeSwitching X460-G2 Series Switch LEDs
- ExtremeSwitching X465 Series Switches
- ExtremeSwitching X465-24MU Switch Ports and Slots
- ExtremeSwitching X465-24MU-24W Switch Ports and Slots
- ExtremeSwitching X465-24S Switch Ports and Slots
- ExtremeSwitching X465-24W Switch Ports and Slots
- ExtremeSwitching X465-24XE Switch Ports and Slots
- ExtremeSwitching X465-48P Switch Ports and Slots
- ExtremeSwitching X465-48T Switch Ports and Slots
- ExtremeSwitching X465-48W Switch Ports and Slots
- ExtremeSwitching X465i-48W Switch Ports and Slots
- ExtremeSwitching X465 Series Switch LEDs
- ExtremeSwitching X590 Series Switches
- ExtremeSwitching X620 Series Switches
- ExtremeSwitching X670-G2 Series Switches
- ExtremeSwitching X690 Series Switches
- ExtremeSwitching X695 Switch
- ExtremeSwitching X870 Series Switches
- Pluggable Interfaces for the Switches
- Power Supplies for Use with Your Switch
- External Power Supplies
- Replaceable Internal Power Supplies
- Summit 300 W AC and DC Power Supplies
- Summit 350 W AC Power Supplies
- Summit 550 W AC and DC Power Supplies
- Summit 715 W AC Power Supplies
- Summit 750 W AC Power Supply
- 750 W AC and DC Power Supplies
- Summit 770 W AC Power Supplies
- Summit 1100 W AC Power Supplies
- Summit 1100 W DC Power Supplies
- ExtremeSwitching 2000 W AC Power Supply
- Displaying the Status of Installed Power Supplies
- Expansion Modules
- Site Preparation
- Building Stacks
- Introduction to Stacking
- Plan to Create Your Stack
- Enabling and Disabling the Stacking-Support Option
- Recommendations for Placing Switches for Stacked Operation
- Recommendations for Configuring Stacks
- Stacking Considerations for Each Switch Model
- Selecting Native and Alternate Stacking Ports
- Combining Switches from Different Series
- Selecting Stacking Cables
- Using the Extreme Stacking Tool
- Set up the Physical Stack
- Installing Your Extreme Networks Switch
- Safety Considerations for Installing Switches
- Pre-installation Requirements
- Attaching the Switch to a Rack or Cabinet
- Installing Optional Components
- Installing Internal Power Supplies
- Install a 300 W Internal DC Power Supply
- Install a 450 W or 550 W Internal DC Power Supply
- Required Tools and Materials for Installing a 450 W or 550 W DC Power Supply
- Preparing the Cables for a 450 W or 550 W DC Power Supply
- Installing a 450 W or 550 W DC Power Supply
- Connecting the Ground Wire to a 450 W or 550 W DC Power Supply
- Connecting a 450 W or 550 W DC Power Supply to the Source Voltage
- Installing a 750 W Internal DC Power Supply
- Install an 1100 W Internal DC Power Supply
- Installing Internal AC Power Supplies
- Connecting Power to the Switch
- Connect Network Interface Cables
- Performing Initial Management Tasks
- Installing External Power Supplies
- Safety Considerations for Installing Power Supplies
- Pre-installation Requirements
- Installing an EPS-C2 Power Supply
- Installing an RPS-150XT Redundant Power Supply
- Installing an RPS-500p Redundant Power Supply
- Installing an STK-RPS-150PS Redundant Power Supply
- Installing an STK-RPS-1005PS Redundant Power Supply
- Installing a VX-RPS-1000 Redundant Power Supply
- Installing Expansion Modules
- Installing a V300 Virtual Port Extender
- Install a V300 Virtual Port Extender on a Wall
- Install a V300 Virtual Port Extender Under or on a Table Surface
- Install a V300 Virtual Port Extender in a VESA Mount
- Install a V300 in a Single Rack Mount
- Install a V300 in a Dual Rack Mount
- Install a V300 in a DIN Rail Mount
- Install a V300-8P-2T-W Model in a Single or Dual Rack Mount
- Installing a V300-8P-2T-W Model in a DIN Rail Mount
- Connecting the V300 Virtual Port Extender to Power
- Installing a V400 Virtual Port Extender
- Installing an LRM/MACsec Adapter
- Installing a Half-Duplex to Full-Duplex Converter
- Installing a Versatile Interface Module or Clock Module in an X460-G2 Series Switch
- Installing a Versatile Interface Module in an X465 Series Switch
- Install an SSD Module
- Installing a V300 Virtual Port Extender
- Replacing AC Power Supplies
- Replacing a Summit 300 W AC Power Supply
- Replacing a Summit 350 W or 715 W AC Power Supply
- Replacing a Summit 450 W or 550 W AC Power Supply
- Replacing a 750 W AC Power Supply
- Replacing a Summit 770 W AC Power Supply
- Replacing a Summit 1100 W AC Power Supply
- Replacing an ExtremeSwitching 2000 W AC Power Supply
- Removing an RPS-150XT Redundant Power Supply
- Removing an RPS-500p Redundant Power Supply
- Removing an STK-RPS-150PS Redundant Power Supply
- Removing an STK-RPS-1005PS Redundant Power Supply
- Removing a VX-RPS-1000 Redundant Power Supply
- Replacing DC Power Supplies
- Replacing Fan Modules
- Removing and Replacing Expansion Modules
- Removing or Replacing a V300 Virtual Port Extender
- Removing or Replacing a V400 Virtual Port Extender
- Removing or Replacing an LRM/MACsec Adapter
- Removing or Replacing a Half-Duplex to Full-Duplex Converter
- Replacing a Versatile Interface Module, Solid-state Drive, or Clock Module in an X460-G2 Series or X465 Series Switch
- Removing Switches from Service
- Technical Specifications
- ExtremeSwitching X435 Series Switches Technical Specifications
- ExtremeSwitching X440-G2 Series Switches Technical Specifications
- ExtremeSwitching X450-G2 Series Switches Technical Specifications
- ExtremeSwitching X460-G2 Series Switches Technical Specifications
- ExtremeSwitching X465 Series Switches Technical Specifications
- ExtremeSwitching X590 Series Switches Technical Specifications
- ExtremeSwitching X620 Series Switches Technical Specifications
- Summit X670-G2 Series Switches Technical Specifications
- ExtremeSwitching X690 Series Switches Technical Specifications
- ExtremeSwitching X695 Series Switch Technical Specifications
- ExtremeSwitching X870 Series Switches Technical Specifications
- V300 Virtual Port Extender Specifications
- V400 Virtual Port Extender Technical Specifications
- LRM/MACsec Adapter Technical Specifications
- Half-Duplex to Full-Duplex Converter Technical Specifications
- Summit 300 W Power Supplies Technical Specifications
- Summit 350 W Power Supplies Technical Specifications
- Summit 550 W Power Supplies Technical Specifications
- Summit 715 W Power Supplies Technical Specifications
- 750 W Power Supplies Technical Specifications
- 750 W Power Supplies Technical Specifications
- Summit 770 W Power Supplies Technical Specifications
- Summit 1100 W Power Supplies Technical Specifications
- ExtremeSwitching 2000 W Power Supply Technical Specifications
- EPS-C2 Redundant Power Supply Technical Specifications
- RPS-90 Redundant Power Supply Technical Specifications
- RPS-150XT Redundant Power Supply Technical Specifications
- RPS-500p Redundant Power Supply Technical Specifications
- STK-RPS-150PS and RPS Shelves Technical Specifications
- STK-RPS-1005PS Redundant Power Supply Technical Specifications
- VX-RPS-1000 Redundant Power Supply Technical Specifications
- 3-Slot Modular Shelves: Technical Specifications
- Power Cord Requirements for AC-Powered Switches and AC Power Supplies
- Console Connector Pinouts
- Safety and Regulatory Information
- Considerations Before Installing
- General Safety Precautions
- Maintenance Safety
- Fiber Optic Ports and Optical Safety
- Cable Routing for LAN Systems
- Installing Power Supply Units and Connecting Power
- Selecting Power Supply Cords
- Battery Notice
- Battery Warning - Taiwan
- EMC Warnings
- Japan (VCCI Class A)
- Korea EMC Statement
- Index
Table 78: List of Stacking Terms (continued)
Term Description
Master node The node that is elected as the master (or primary) node in the stack. The
master node runs all of the configured control protocols such as OSPF
(Open Shortest Path First), RIP (Routing Information Protocol), Spanning
Tree, and EAPS (Extreme Automatic Protection Switching).
The master node controls all of its own data ports as well as all data ports
on the backup and standby nodes. To accomplish this, the master node
issues specific programming commands over the control path to the
backup and standby nodes.
Backup node The node assigned to take over the role of master if the master node fails.
The master node keeps the backup node's databases synchronized with
its own databases in preparation for such an event.
If and when the master node fails, the backup node becomes the master
node and begins operating with the databases it has previously received.
In this way, all other nodes in the stack can continue operating.
Standby node A node that is prepared to become a backup node in the event that the
backup node becomes the master node. When a backup node becomes a
master node, the new master node synchronizes all of its databases to the
new backup node.
When a node operates in a standby role, most databases are not
synchronized – except those few that directly relate to hardware
programming.
Acquired node A standby or backup node that is acquired by a master node. This means
that the master node has used its databases to program the hardware of
the standby or backup node. The standby or backup node has acted as a
hardware programming proxy, accepting the instructions of the master
node to do so.
An acquired backup node maintains the databases needed to reflect why
the hardware is programmed as it is. However, a standby node does not.
An acquired node can be re-acquired (without a reboot) by the backup
node only when the backup node becomes the master node, and only
when both the backup and standby nodes were already acquired by the
same master node at the time of its failure.
Data ports The set of ports on a stackable switch that are available for connection to
your data networks. Such ports can be members of a user-configured
VLAN or trunk group. They can be used for Layer 2 and 3 forwarding of
user data trac, for mirroring, or other features you can configure. Data
ports are dierent from stacking ports.
Failover The process of changing the backup node to the master node when the
original master node has failed.
When a master node fails, if a backup node is present, and if that node has
completed its initial synchronization with the master node, then the
backup node assumes the role of master node. The standby nodes
continue their operation and their data ports do not fail.
Hitless failover A failover in which all data ports in the stack, except those of the failing
master node, continue normal operation when the master node fails.
Node address The unique MAC address that is factory-assigned to each node.
SummitStack Terms Building Stacks
192 ExtremeSwitching Hardware Installation Guide