®
SuperStack II Hub 1000 SX
User Guide
®
A member of the 3Com SuperStack II System
Part No. 09-1354-000
Published March 1998
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Asymmetric Flow Control 1-3
Auto-Negotiation 1-3
Using Optional Power Systems 2-8
Advanced RPS 2-8
Power Modules 2-9
Cabling Options 2-9
Uninterruptible Power System 2-10
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Connecting a Power Workgroup 3-2
Mixing Connections 3-4
Connecting Through the Uplink 3-5
Troubleshooting 3-6
Requirements A-2
Updating the Firmware Image A-15
Checking the Firmware Version A-15
Transferring the Firmware Image File A-16
Logging Off A-17
Troubleshooting A-17
iv
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3ComFacts Automated Fax Service C-2
3ComForum on CompuServe Online Service C-3
Support from 3Com C-4
Returning Products for Repair C-5
GLOSSARY
INDEX
FCC CLASS A VERIFICATION STATEMENT
v
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FIGURES
3-2 Power Workgroup Connection 3-3
3-4 Mixed Connection 3-5
3-5 Connection to Another Hub 1000 SX 3-5
3-6 Uplink Connection to a 10/100 Mbps Switch 3-6
A-1 Console Port A-1
vii
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2-3 GBIC Modules 2-7
A-1 Situations That Require Configuring Port Settings A-5
A-2 Port Configuration Menu A-7
A-3 Hub Status Information A-12
A-4 File Transfer Error Messages
A-18
A-5 Fatal Error Messages
A-18
ix
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ABOUT THIS GUIDE
This guide contains installation procedures and technical information
about the 3Com® SuperStack® II Hub 1000 SX Gigabit Ethernet
full-duplex repeater (part number 3C510-SX).
It is assumed that the user knows basic precautions and procedures for
working with electrical equipment and has experience installing, using,
and managing an Ethernet network. It is also assumed that the user has
If release notes are shipped with this product and the information in
the release notes differs from the information in this guide, follow
the information in the release notes.
Table 1 and Table 2 list conventions that are used throughout this guide.
Table 1 Notice Icons
Icon
Notice Type
Description
Information note
Important features or instructions
Caution
Warning
Information to alert you to potential damage to a
program, system, or device
Information to alert you to potential personal injury
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2
ABOUT THIS GUIDE
Table 2 Text Conventions
Convention
Description
Screen displays
This typeface represents information as it appears on
the screen.
Commands
The word “command” means you must enter the
command exactly as shown in text and press Return
or Enter. For example:
To remove the IP address, enter the following
command:
SETDEFAULT !0 -IP NETaddr = 0.0.0.0
This guide always gives the full form of a command in
uppercase and lowercase letters. However, you can
abbreviate commands by entering only the uppercase
letters and the appropriate value. Commands are not
case sensitive.
The words “enter”
and “type”
When you see the word “enter” in this guide, you must
type something, and then press the Return or Enter key.
Do not press the Return or Enter key when an instruction
simply says “type.”
Keyboard key names
If you must press two or more keys simultaneously, the key
names are linked with a plus sign (+). For example:
Press Ctrl+Alt+Del.
Menu commands
and buttons
Menu commands or button names appear in italics.
Example:
From the Help menu, select Contents.
Words in italicized type Italics emphasize a point or denote new terms at the place
where they are defined in the text.
Words in bold-face
Bold text denotes key features.
type
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INTRODUCTION
1
Gigabit Ethernet technology allows signal transmission at the rate of one
gigabit per second (1 Gbps, or 1000 Mbps), while continuing to support
IEEE 802.3 CSMA/CD local area networks. Using this technology, you can
add gigabit bandwidth to critical areas of a network and fully leverage
investments in Ethernet and Fast Ethernet products.
Hub 1000 SX
The 3Com® SuperStack® II Hub 1000 SX Gigabit Ethernet full-duplex
General Description repeater (part number 3C510-SX) combines the low cost and simplicity
of a hub with the high performance and efficient throughput of a switch.
You can use the Hub 1000 SX to:
■
■
■
Aggregate servers
Aggregate 10/100 Mbps switches
Provide gigabit bandwidth to a power workgroup that is running a
high-bandwidth application such as medical imaging, video editing,
film postproduction, CAD/CAM, or digital prepress
The Hub 1000 SX is an eight-port repeater. All ports transmit and receive
at a speed of one gigabit per second. The hub forwards all incoming
packets (without filtering them) to all links except the originating
link, thus providing a shared bandwidth domain. Like a switch, the
Hub 1000 SX uses full-duplex ports and packet flow control to increase
bandwidth and ensure reliable performance.
The hub is ready to use and requires no configuration. However, some
configuration options are available through the console interface for use
in exceptional cases.
The Hub 1000 SX is part of the 3Com SuperStack II system and can
be used with the SuperStack II Advanced Redundant Power System
(Advanced RPS) and the SuperStack II Uninterruptible Power System (UPS),
which provide fail-safe operation and a constant power supply.
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1-2
CHAPTER 1: INTRODUCTION
Downlinks
and Uplink
The hub’s eight 1000BASE-SX full-duplex downlink ports (downlinks) can
connect to servers or clients that are equipped with Gigabit Ethernet
network interface cards (NICs) or to 10/100 Mbps switches that are
equipped with Gigabit Ethernet uplink devices.
One uplink port (uplink) accepts an optional gigabit interface connector
(GBIC) module. The following types of GBIC modules are available:
■
■
■
1000BASE-CX coaxial transmits over short-haul shielded balanced
copper cable (known as twinaxial STP).
1000BASE-LX long-wavelength transmits over multimode fiber (MMF)
or single-mode fiber (SMF) cable.
1000BASE-SX short-wavelength transmits over MMF cable.
The primary use of the uplink is to connect to a network backbone
through a Gigabit Ethernet switch such as the 3Com SuperStack II
Switch 9300.
Full-Duplex
Operation
Full-duplex operation allows frames to be transmitted and received
simultaneously and, in effect, doubles the bandwidth available on a link.
For Gigabit Ethernet devices, full-duplex operation allows a peak data
transmission rate of 2 Gbps. All Hub 1000 SX ports operate only in
full-duplex mode and receive frames from attached segments at a
speed of 1 Gbps.
Each port’s input buffer places received packets in an 18 KB input FIFO to
wait in a queue for the hub’s internal bus. The hub grants ports access to
the bus in a round-robin fashion. When a port has access to the bus, it
places the packet at the head of its input queue on the bus. All the other
ports transmit the packet out. Link-level flow control manages the queue.
Flow Control
The Hub 1000 SX uses IEEE 802.3x flow control to prevent input buffers
from overflowing. Flow control uses pause frames to communicate buffer
status between linked transmitting and receiving devices (transmitters
and receivers). A receiver sends a pause frame—thereby using outgoing
flow control—to tell a transmitter to stop the transmission of data frames
for a specified period, allowing the receiver’s input port buffers to empty.
When a transmitter receives pause frames—using incoming flow
control—it suspends transmission for the specified period.
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Flow Control 1-3
When the receiver’s input buffers can store packets again, it can either
send another pause frame to tell the transmitter to resume transmission,
or wait for transmission to resume.
If the Hub 100 SX receives a pause frame, it does not remove the frame
from the network. Instead, it corrupts the frame’s CRC field and
retransmits the frame to all other ports.
Asymmetric With asymmetric flow control, only one of two linked devices can use
Flow Control incoming flow control to receive pause frames. Most full-duplex repeaters
default to asymmetric flow control. The Hub 1000 SX downlinks support
asymmetric, outgoing flow control only. The downlinks can send pause
frames to tell attached devices to stop transmission. They ignore any
pause frames that they receive, because acting upon them would stop
transmission to all ports, bringing hub operation to a halt.
Symmetric With symmetric flow control, both linked devices can use incoming
Flow Control and outgoing flow control to send and receive pause frames. The
Hub 1000 SX uplink defaults to symmetric flow control—also known
as bidirectional flow control—which prevents congestion at the core of
the network when the hub is connected to the network backbone.
The uplink can be reconfigured for asymmetric, outgoing flow control to
support a connection to a server or 10/100 Mbps switch.
Auto-Negotiation Related to flow control is the auto-negotiation capability, in which the
Hub 1000 SX ports and linked devices advertise their flow control
capabilities and automatically select the best common mode of
communication. During an auto-negotiation sequence, the Hub 1000 SX
downlinks advertise their capability for outgoing flow control and the
uplink advertises its capability for incoming and outgoing flow control.
For example, the result of an auto-negotiation sequence between a
Hub 1000 SX downlink and a SuperStack II Switch 3000 port is that the
downlink uses outgoing flow control and the switch port uses incoming
flow control.
Forced Link The Hub 1000 SX ports default to auto-negotiation. Rare cases (for
example, linking to a device that does not support auto-negotiation) may
require that auto-negotiation be disabled on a port, thereby enabling
forced link on that port. When forced link is enabled, linked devices must
have matching flow control capabilities. For example, a port that is set for
forced link and outgoing flow control can connect successfully only with
a port that is set for forced link and incoming flow control.
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1-4
CHAPTER 1: INTRODUCTION
Features and
Functions
The hub can be mounted in a 19-inch standard rack or placed on a
flat surface. It supports the 1000 Mbps media access control (MAC)
as specified in the IEEE 802.3z standard. In addition, the hub has
these features:
■
■
■
■
LED indicators report the status of each port and of hub operations. A
meter shows the percentage of bandwidth being used within the hub.
The serial console interface allows limited options for port
configuration and, if necessary, firmware updates.
Power-on self-test (POST) diagnostics determine whether the hub is
functioning properly at power up.
Frame-aging firmware improves performance by minimizing
unnecessary frame aging and subsequent attempts to retransmit
packets at the protocol level.
■
■
■
■
Round-robin arbitration grants fair access for all ports to the hub’s
internal bus on a packet-by-packet basis.
Signal retiming restores the timing and amplitude of the received
signal before retransmitting the signal.
A carrier integrity monitor checks packets for invalid framing and
removes invalid frames from the network.
Jabber control inhibits overly long transmissions of data generated by
the hardware failure of an attached device.
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INSTALLING THE HUB
2
This chapter describes the Hub 1000 SX package contents and provides
installation procedures for the hub and for optional GBIC modules and
power systems.
No configuration is required to install and use the hub.
Safety Precautions
To avoid personal injury or damage to the Hub 1000 SX unit, observe the
following safety precautions:
WARNING: Do not perform any maintenance on the hub while it is still
connected to a power source.
WARNING: Remove all jewelry from your hands and wrists before
installing the hub. Use insulated or nonconductive tools.
CAUTION: Power for the unit must be supplied by a grounded power
source. The hub should never be connected to an ungrounded AC outlet
or power supply.
Package Contents
Remove the hub from the shipping package and verify that you have
received these items in good condition:
■
■
■
■
■
Hub 1000 SX unit
Rack mounting kit containing two brackets and four screws
Four rubber feet for desktop placement
AC power cord
SuperStack II Hub 1000 SX User Guide
Inspect each item for damage. If you find a problem, contact the network
supplier and the carrier that delivered the package.
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2-2
CHAPTER 2: INSTALLING THE HUB
If you need to return the hub to 3Com, pack it in the original (or
If you ordered a GBIC module or optional power system, it is packaged
separately from the hub.
Hub Description
The hub’s front and rear panels are shown in Figure 2-1.
Front panel
100
50
SUPER
STACK
PORT STATUS
®
1000BASE-SX
UNIT
STATUS
ACTIVITY
LINK
OVERTEMP
PWR
RPS ON
1
2
3
4
5
6
7
8
TX
RX
TX
RX
TX
RX
TX
RX
TX
RX
TX
RX
TX
RX
TX
RX
RPS FAIL
PAUSE
1
2
3
4
5
6
7
8
9
10
%
SuperStack II
HUB 1000 SX
BW USAGE
3C510-SX
1000BASE-SX downlink ports
% BW
usage meter
Hub operation
LEDs
PORT STATUS
LEDs
Rear panel
REFER TO
AC
IN
3Com Corporation
INSTRUCTION MANUAL
Santa Clara, CA
FOR CORRECT
SELECTION OF
POWER CORD
®
!
Made in USA
DC POWER
CONSOLE
GBIC
CAUTION: For continued protection
against risk of fire use only with same
type and rating of of anti-surge fuse.
RESET
INPUT
V
SUPPLY DATA
5
+12 -12
FUSE
2.0
V~
H
z
A
1.0
A
100-240 50/60
A
max 8.5 2.5 1.0
AC input
DC power
Console
Reset
GBIC port
Figure 2-1 Hub 1000 SX Front and Rear Panels
downlink ports accept SC connectors and support 50/125 µ or
62.5/125 µ fiber-optic cable. The ports can connect to servers that
are equipped with Gigabit Ethernet NICs or to switches that are
equipped with Gigabit Ethernet uplink devices.
Indicators (see Table 2-2) show hub and port status when power is on.
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Preparing the Site 2-3
Rear Panel The AC input socket accepts a 100–240 V AC power cord. Power can
be supplied through optional 3Com SuperStack II Advanced Redundant
Power System (Advanced RPS) and SuperStack II Uninterruptible Power
System (UPS) units. These units use the DC power connector. See “Using
Optional Power Systems” later in this chapter.
The console port, a DB-9 standard male connector, can connect to a PC
through a null modem cable. For information on the console functions,
see Appendix A.
The Reset button resets the hub’s on-board CPU.
The GBIC port accepts an optional 3Com GBIC module that lets the hub
connect to a Gigabit Ethernet device.
Preparing the Site
Make sure that the installation site meets the following conditions:
■
The hub is accessible and you can easily connect the cables.
The cables are away from:
■
■
Sources of electrical noise, such as: heating, ventilation,
and air conditioning (HVAC); radios; transmitters; and
broadband amplifiers
■
Power lines and fluorescent lighting fixtures
■
■
Water or moisture cannot enter the hub’s case.
Airflow around the unit and through the vents is not restricted.
Provide a minimum of 1-inch (2.5-cm) clearance on all four sides
of the unit.
■
No objects are placed directly on top of the unit.
Installing and
You can mount the hub in a standard 19-inch rack or place it on a desk
Connecting the Hub or table.
Mounting in a Rack Two brackets and four screws allow rack mounting in a standard
19-inch rack.
1 Place the hub on a level surface, with the front panel facing you.
2 Position a bracket over the mounting holes on one side of the hub,
as shown in Figure 2-2.
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2-4
CHAPTER 2: INSTALLING THE HUB
.
®
Figure 2-2 Attaching a Bracket for Rack Mounting
3 Insert the two screws and tighten with a screwdriver. Do not overtighten
the screws.
4 Repeat steps 2 and 3 for the other side of the hub.
5 Mount the hub in the rack and secure it with suitable screws, as shown in
Figure 2-3.
TX
1
RX
TX
2
RX
TX
3C510-SX
3
RX
1000BASE-SX
TX
4
RX
TX
5
RX
TX
6
RX
TX
7
100
50
RX
TX
8
RX
PORT ST
ACTIVITY
LINK
A
TUS
10
%
1
2
3
4
SUPER
STACK
BW USAGE
OVERTEMP
PWR
5
6
7
8
RPS ON
RPS
UNIT
ST
9
F
A
TUS
AIL
PAUSE
®
SuperStack II
HUB 1000 SX
Figure 2-3 Rack Mounting the Hub
6 Remove the protective rubber cap from each downlink port and attach
the proper cable to make the desired network connection. Table 2-1
provides connector and cable information for downlink connections.
For guidelines on making typical connections, see Chapter 3.
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Interpreting Hub Indicators 2-5
Table 2-1 Downlink Connections
Connector
Type
Maximum Cable
Length (Meters)
Cable Type
SC
Short-wavelength (850 nm) fiber-optic:
62.5/125 µ MMF
260
550
50/125 µ MMF
7 Apply power to the hub in either of these ways:
■
Plug one end of the power cord into the AC input socket and the
other end into a power source.
■
Connect the hub to a power supply, as described in “Using Optional
Power Systems” later in this chapter.
Placing on a Desktop If you place the hub on a desk or table, attach the supplied rubber feet to
each bottom corner of the hub. Remove the protective cap from each
downlink port and attach the proper cable to make the desired network
guidelines on making typical connections, see Chapter 3.) Apply power
to the hub in either of these ways:
■
Plug one end of the power cord into the AC input socket and the
other end into a power source.
■
Connect the hub to a power supply, as described in “Using Optional
Power Systems” later in this chapter.
Interpreting Hub
Indicators
When power is applied, all the indicators on the front panel light
momentarily. The UNIT STATUS LED is amber while POST is running.
After approximately 30 seconds, the UNIT STATUS LED turns green.
Verify that the PWR (power) LED remains lit, indicating that the hub
is receiving power.
For explanations of the hub indicators, see Table 2-2.
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2-6
CHAPTER 2: INSTALLING THE HUB
Table 2-2 Hub 1000 SX Indicators
SUPER
STACK
100
50
PORT STATUS
UNIT
STATUS
ACTIVITY
LINK
OVERTEMP
PWR
RPS ON
RPS FAIL
PAUSE
1
2
3
4
5
6
7
8
9
SuperStack II
HUB 1000 SX
10
% BW USAGE
Indicator
Color
Status
Meaning
% BW usage meter
Green
Fluctuating
The meter indicates the percentage of bandwidth that the
hub is using. Because the hub can be connected to multiple
network segments, this meter represents the aggregate
load on the hub.
PORT STATUS LEDs
ACTIVITY
LEDs 1 through 8 show the status of the downlinks. LED 9
shows the status of the uplink.
Green
Green
ON
OFF
ON
OFF
The port is receiving data.
The port is not receiving data.
LINK
A connection exists between the port and the end node.
There is no connection between the port and the end node.
Hub operation LEDs
OVERTEMP
Amber
Green
Amber
ON
ON
ON
The internal temperature exceeds 158 °F (70 °C).
The Advanced RPS is connected and turned on.
RPS ON
UNIT STATUS
The hub is performing POST diagnostics. If the amber LED
Flashing
ON
An error has occurred.
Green
The hub is operating normally.
A firmware update is proceeding.
Flashing
Amber/Green Flashing
A firmware update error occurred. See “Troubleshooting”
in Appendix A.
PWR
Green
ON
ON
The hub is receiving power.
RPS FAIL
Amber
The Advanced RPS is connected, but a failure
condition exists.
PAUSE
Green
ON
The uplink port has received a pause frame. For an
explanation of pause frames, see “Flow Control” in
Chapter 1.
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Installing and Connecting a GBIC Module 2-7
Installing and
Connecting a
GBIC Module
The gigabit interface connector (GBIC) port on the rear panel of the
Hub 1000 SX chassis accepts an optional 3Com GBIC module that
permits connection to a Gigabit Ethernet device. GBIC modules must
be ordered separately in either single-packs or six-packs.
By inserting the appropriate GBIC module in the hub’s rear-panel uplink
port, you can use various types of cabling to connect the hub to LAN
devices. For example, you can use the 1000BASE-LX module to reach
much greater distances than is possible with 1000BASE-SX connections.
A sample GBIC module appears in Figure 2-4. Table 2-3 lists the types of
GBIC modules available from 3Com.
Figure 2-4 Sample GBIC Module
Table 2-3 GBIC Modules
3Com
Connector
Type
Maximum Cable
Length (Meters)
Module Type Part Number
Cable Type
1000BASE-CX 3CGBIC4
3CGBIC4-6PK
HSSDC
Shielded balanced twinaxial STP
(coaxial jumper)
25
1000BASE-LX
3CGBIC2
SC
Long-wavelength fiber-optic
(1300 nm):
3CGBIC2-6PK
62.5/125 µ MMF
50/125 µ MMF
SMF
440
550
3000
1000BASE-SX
3CGBIC1
SC
Short-wavelength fiber-optic
(850 nm):
3CGBIC1-6PK
62.5/125 µ MMF
50/125 µ MMF
260
550
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2-8
CHAPTER 2: INSTALLING THE HUB
To install and connect a GBIC module, follow these steps:
1 Disconnect all power to the Hub 1000 SX.
Disconnect the AC power cord. If you are using an Advanced RPS unit,
disconnect the RPS cable from the DC power connector.
2 Remove the GBIC module from its shipping container.
3 Slowly insert the module into the rear-panel uplink port, being careful not
to damage any of the components or connecting pins.
The module slides into the hub following the tracks in the slot. The
lettering that shows the module type must be positioned on top of the
connector openings when the module is in place.
4 Push the module all the way in until the connector makes contact.
5 Reattach the power cord and any power system cable to the hub.
6 Attach the proper cable to the module to make the desired
network connection.
Both ends of the connection must be of the same media type (CX, LX,
or SX).
7 Reconnect power to the hub.
Using Optional
Power Systems
You can ensure fail-safe operation and constant power to SuperStack II
components by using the SuperStack II Advanced Redundant
Power System (Advanced RPS) and the SuperStack II Uninterruptible
Power System (UPS). These units and associated Power Modules and
cabling must be purchased separately.
Advanced RPS A single SuperStack II Advanced RPS (part numbers 3C16070 and
3C16071) can protect up to four SuperStack II Hub 1000 SX units from
internal power supply failures. If a SuperStack II unit’s internal power fails,
the Advanced RPS is capable of supplying all the unit’s power needs.
The Advanced RPS chassis is rack-mountable. It is fed by two independent
AC lines and remains operational if one of the AC lines fails. The front panel
provides LED indicators for monitoring temperature as well as power input
and output status.
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Using Optional Power Systems 2-9
Power Modules
At least one SuperStack II Advanced Redundant Power System
Power Module Type 2 is required for each SuperStack II hub that you
want to protect. The Hub 1000 SX requires the 100-watt, 3.3-volt version
of the module (part number 3C16074).
One Advanced RPS with Power Modules configured with straight cables for
standard usage can contain a maximum of four 100-watt Power Modules
(and four 60-watt Power Modules), or eight 60-watt Power Modules. If
each Power Module is configured for full redundancy with a SuperStack II
Advanced Redundant Power System Y Cable Type 2 (part number
Power Modules, supporting as many as four Hub 1000 SX units.
Using the cable supplied with the Power Module, you connect the
Power Module to the DC power connector located on the rear panel
of the Hub 1000 SX. (For the DC power connector location, see
Figure 2-1.)
In the event of a failure in a Power Module, an alert is automatically
sent to the Advanced RPS management console software.
Cabling Options
You can supply AC power and DC power to the Hub 1000 SX
simultaneously, so that if an AC power failure occurs, the hub
switches to DC power supplied by the Advanced RPS unit. You can
also supply only DC power to the hub with the Advanced RPS unit.
Table 2-4 summarizes the Advanced RPS configuration options.
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2-10
CHAPTER 2: INSTALLING THE HUB
Table 2-4 Advanced RPS Configuration Options
Option
Connection
Disconnect the hub’s AC power cable from The hub obtains DC power from a single
the AC outlet. Use the straight DC cable Power Module instead of being powered
supplied with the Power Module to connect directly from a standard AC source. If the
Standard usage
the Power Module directly to the hub
through the DC power connector located
on the hub’s rear panel. (See “Rear Panel”
in this chapter.)
Power Module fails, you can swap the faulty
module for a new one. This swapping
method requires a reset of the hub, as in
a power cycle.
A cold Power Module supplies power after
Managed redundancy Connect the hub’s AC power cable to a
standard AC outlet. Use the straight DC
cable supplied with the Power Module to
connect the Power Module directly to the
hub through the DC power connector
located on the hub’s rear panel. (See “Rear
Panel” in this chapter.)
If the Hub 1000 SX internal power supply
fails, the hub’s auto-enable feature
automatically enables the Advanced RPS
and resets the hub, as in a power cycle.
Full redundancy
Disconnect the hub’s AC power cable from This configuration offers full resilience for
the AC outlet. Use a Y DC cable (part
number 3C16079) to connect the hub
mission-critical installations. The hub is
powered from both Power Modules instead
directly to two Power Modules through the of being powered directly from a standard
DC power connector located on the hub’s AC source. If one of the Power Modules fails,
rear panel. (See “Rear Panel” in this chapter.) the other module takes the full load. The
faulty module can be hot-swapped,
returning the system to full redundancy
without the need for a power reset.
When switching from Advanced RPS (DC) to AC power or from AC power
to Advanced RPS power, the Hub 1000 SX unit resets itself. For example,
if both the RPS and AC cables are plugged in, and then either is removed,
the unit resets itself when it changes to the other power source.
Uninterruptible The SuperStack II Uninterruptible Power System (UPS) (part number
Power System 3C16010, U.S. version) protects against building power outages,
brownouts, power surges, and spikes. If primary power fails or falters
for any reason, the UPS automatically provides power for as long as
7 minutes for up to four SuperStack II system units with 100-volt
50/60 Hz, 120-volt 60 Hz, or 230-volt 50/60 Hz power.
A hub connects to a UPS unit through the hub’s AC power cord.
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Using Optional Power Systems 2-11
You can connect a UPS unit to an Advanced RPS unit as long as you do
not exceed the maximum wattage (325 watts) for the UPS unit. To verify
that the UPS unit’s maximum wattage is not exceeded, calculate the total
power consumption of all units connected to the Advanced RPS. If the
result is less than 325 watts, your configuration is safe; if the result is
greater than 325 watts, then there are too many units connected to
the Advanced RPS.
To calculate the total power consumption of all units connected to the
Advanced RPS:
1 Calculate the total wattage of all the units connected to the Advanced RPS.
For example, one Hub 1000 SX has a maximum power consumption of
65 watts; two Hub 1000 SX units have a maximum power consumption
of 130 watts, and so forth.
2 Divide the total wattage of all units by 0.7, which is the efficiency rating
(70%) of the Advanced RPS.
If the result is less than 325 watts, your configuration is safe; if the result
is higher, then there are too many units connected to the Advanced RPS.
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MAKING CONNECTIONS
3
This chapter contains guidelines for making typical Hub 1000 SX network
connections and for troubleshooting problems with the hub.
When making hub connections, follow the rules for maximum cable
lengths, which are summarized in Table 3-1. If you connect 10/100 Mbps
devices to the network, rules for Ethernet and Fast Ethernet connections
also apply.
Table 3-1 Gigabit Ethernet Maximum Cable Lengths
Cable Type
50/125 µ
62.5/125 µ
Multimode
Fiber
Shielded
Single-Mode Balanced Pair
Laser
Connector Multimode
Signal Type
1000BASE-SX Short
(850 nm)
1000BASE-LX* Long
(1300 nm)
1000BASE-CX N/A
Wavelength Type
Fiber
Fiber
(Coaxial Jumper)
SC
550 meters
260 meters
440 meters
N/A
N/A
N/A
SC
550 meters
3 kilometers
N/A
HSSDC
N/A
N/A
25 meters
* The 1000BASE-LX GBIC module requires an external patch cord for connection to MMF cable.
CAUTION: Connecting the downlink of one Hub 1000 SX to the uplink
of a second Hub 1000 SX degrades the performance of the second hub.
CAUTION: Connecting a Gigabit Ethernet switch downlink to a
Hub 1000 SX downlink degrades the performance on the link to
the switch.
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3-2
CHAPTER 3: MAKING CONNECTIONS
Aggregating
Servers
You can use the Hub 1000 SX downlinks to aggregate servers into server
farms. First, install 3Com 3C985-SX Gigabit EtherLink® Server NICs in
each server. Then, connect up to eight servers through the downlinks.
The hub’s optional gigabit interface connector (GBIC) uplink can connect
to a 3Com SuperStack II Switch 9300 Gigabit Ethernet switch, thereby
connecting to the network backbone. See Figure 3-1.
SuperStack II
Switch 9300
SUPER
®
STACK
Single-mode fiber-optic cable
Maximum distance: 3 km
SuperStack II
Hub 1000 SX
SuperStack II
9300 SX
SUPER
STACK
®
SuperStack II
1000 SX
62.5/125 µ fiber-optic cable
Maximum distance: 260 m
Servers with 3C985-SX
Gigabit EtherLink Server NICs
Figure 3-1 Server Farm Connection
Connecting a
Power Workgroup
A power workgroup consists of a small number of servers, or a small
number of sophisticated users on high-end workstations. Such a
move and process massive amounts of data in real time (for example,
medical imaging, video editing, film postproduction, CAD/CAM, or
digital prepress).
You can provide gigabit bandwidth to a power workgroup as shown in
Figure 3-2.
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Aggregating Switches 3-3
SuperStack II
Switch 9300
SUPER
STACK
®
Single-mode fiber-optic cable
Maximum distance: 3 km
SuperStack II
Hub 1000 SX
SuperStack II
9300 SX
SUPER
STACK
®
SuperStack II
1000 SX
62.5/125 µ fiber-optic cable
Maximum distance: 260 m
Servers with 3C985-SX
Gigabit EtherLink Server NICs
High-end
workstations
Figure 3-2 Power Workgroup Connection
Aggregating
Switches
You can use the Hub 1000 SX downlinks to aggregate 10/100 Mbps
switches such as the 3Com SuperStack II Switch 1000, Switch 3000,
or Switch 3900. The Switch 1000 and Switch 3000 units must be
equipped with Gigabit Ethernet uplink devices (SuperStack II Switch
Gigabit Ethernet SX Module, part number 3C16925). The Switch 3900
has one built-in Gigabit Ethernet port, which can be used to connect with
the Hub 1000 SX.
First, install 3C16925 uplink devices in the SuperStack II Switch 1000
or SuperStack II Switch 3000 switches. Then connect up to eight
switches to the Hub 1000 SX through the eight downlinks. The hub’s
optional GBIC uplink can connect to a 3Com SuperStack II Switch 9300
Gigabit Ethernet switch, thereby connecting to the network backbone.
See Figure 3-3.
The Hub 1000 SX does not support bandwidth aggregation (trunking).
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3-4
CHAPTER 3: MAKING CONNECTIONS
SuperStack II
Switch 9300
SUPER
®
STACK
Single-mode fiber-optic cable
Maximum distance: 3 km
SuperStack II
Hub 1000 SX
SuperStack II
9300 SX
SUPER
STACK
®
SuperStack II
1000 SX
62.5/125 µ fiber-optic cable
Maximum distance: 260 m
SuperStack II
Switch 1000
with 3C16925
uplink device
SuperStack II
Switch 3000
with 3C16925
uplink device
SUPER
STACK
SUPER
STACK
®
SUPER
STACK
®
®
SuperStack II
3900
SuperStack II
1000 SX
SuperStack II
1000 SX
SuperStack II
Switch 3900
10/100 Mbps
UTP links
Maximum distance: 100 m
Multiple 10/100 Mbps
clients
Multiple 10 Mbps
clients
Figure 3-3 Aggregated Switches Connection
Mixing Connections You can vary connections according to your requirements. For example,
you can connect a number of servers and 10/100 Mbps switches through
the downlinks, and connect to the network backbone through the
uplink, as shown in Figure 3-4.
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Connecting Through the Uplink 3-5
SuperStack II
Switch 9300
SUPER
STACK
®
Single-mode fiber-optic cable
Maximum distance: 3 km
SuperStack II
Hub 1000 SX
SuperStack II
9300 SX
SUPER
®
STACK
SuperStack II
1000 SX
Servers with
3C985-SX Gigabit
EtherLink Server NICs
62.5/125 µ fiber-optic cable
Maximum distance: 260 m
SuperStack II
Switch 1000
with 3C16925
uplink device
SuperStack II
Switch 3000
with 3C16925
uplink device
SUPER
STACK
SUPER
STACK
®
SUPER
STACK
®
®
SuperStack II
3900
SuperStack II
1000 SX
SuperStack II
1000 SX
SuperStack II
Switch 3900
10/100 Mbps
UTP links
Maximum distance: 100 m
Multiple 10/100 Mbps
Multiple 10 Mbps
clients
clients
Figure 3-4 Mixed Connection
Connecting
Through the Uplink
The best use of the hub uplink is as a backbone connection to a 3Com
SuperStack II Switch 9300 Gigabit Ethernet switch, as shown earlier in
Figure 3-1 through Figure 3-2. Although two Hub 1000 SX units can be
connected to each other through their uplinks, as shown in Figure 3-5,
such a connection excludes connection to the network backbone.
Single-mode fiber-optic cable
Maximum distance: 3 km
SUPER
STACK
SUPER
STACK
®
®
SuperStack II
1000 SX
SuperStack II
1000 SX
SuperStack II
Hub 1000 SX
SuperStack II
Hub 1000 SX
Figure 3-5 Connection to Another Hub 1000 SX
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3-6
CHAPTER 3: MAKING CONNECTIONS
The Hub 1000 SX itself can be used as the network backbone by
connecting the uplink to a server equipped with a 3C985-SX Gigabit
EtherLink Server NIC or to a 10/100 Mbps switch equipped with a
3C16925 uplink device (see Figure 3-6). For these backbone connections,
reconfigure the uplink for asymmetric flow control, as described in
“Configuring Port Settings” in Appendix A.
Single-mode fiber-optic cable
Maximum distance: 3 km
SUPER
STACK
®
100BASE-TX
SUPER
STACK
®
SuperStack II
1000 SX
SuperStack II
3000 FX
10/100 Mbps switch
with 3C16925 uplink device
SuperStack II
Hub 1000 SX
Figure 3-6 Uplink Connection to a 10/100 Mbps Switch
Troubleshooting
Table 3-2 summarizes some common problems and their solutions.
Table 3-2 Troubleshooting Tips
Symptom
Explanation
There is no link connection.
Solution
LINK LED does not light on
a port.
You may be attempting to connect to equipment
that does not comply with Gigabit Ethernet
standards or does not support auto-negotiation.
Or, the link may be physically damaged (for example,
the cable may be damaged).
Disable auto-negotiation on the port (see Appendix A).
Configure the other end of the link for forced
configuration (see the configuration guidelines for
the device on the other end of the link). A restored
connection rules out physical damage.
ACTIVITY LED does not light
on a port.
The port is not receiving data. Make sure that the link is connected at both ends.
OVERTEMP LED is lit.
The unit has overheated.
The fan may have failed.
Return the unit to the supplier.
Amber UNIT STATUS LED stays POST software may
Use the command line interface (CLI) to confirm the
POST error. (See Appendix A.) If POST reports errors,
return the unit to the supplier.
lit longer than 30 seconds.
be corrupted.
PAUSE LED remains lit.
A flickering PAUSE LED
Check for problems with the device attached to the
indicates normal flow control. Hub 1000 SX uplink.
A PAUSE LED that remains lit
indicates that there is too
much traffic.
POST FAIL messages appear
in the CLI.
There is a fatal
hardware error.
Return the unit to the supplier.
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USING THE CONSOLE PORT
A
The Hub 1000 SX is ready to use and requires no configuration. However,
on rare occasions you may need to confirm a POST failure, change a
port’s configuration, or update the firmware image to install a bug fix or a
standards update. The console port provides access to a simple scrolling
command line interface (CLI). By connecting the console port to a PC, you
can perform these tasks:
■
■
■
Configure port settings
Display hub status
Update the firmware image
The console port (a DB-9 standard male connector) is located on the
Hub 1000 SX rear panel. See Figure A-1.
REFER TO
AC
IN
3Com Corporation
Santa Clara, CA
Made in USA
INSTRUCTION MANUAL
FOR CORRECT
®
!
SELECTION OF
POWER CORD
DC POWER
CONSOLE
GBIC
CAUTION: For continued protection
against risk of fire use only with same
type and rating of of anti-surge fuse.
RESET
INPUT
V
SUPPLY DATA
5
+12 -12
FUSE
2.0
V~
H
z
A
1.0
A
100-240 50/60
A
max 8.5 2.5 1.0
Console
Figure A-1 Console Port
The console port default settings are:
■
■
■
■
9600 baud
8 data bits
1 stop bit
No parity
Auto-baud and modem connections are not supported.
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A-2
APPENDIX A: USING THE CONSOLE PORT
Requirements
To use the console port and CLI, you need:
■
■
■
A PC with a serial port
A null modem cable
A terminal-emulation program
If you need to perform a firmware update, the terminal-emulation
program must support one of these file transfer protocols: Xmodem,
Xmodem-1K, or Xmodem-CRC.
Connecting the
Console Port
It is not necessary to disconnect the hub from the power source to
connect the console port. However, if you do disconnect the power,
With Power To connect the console port while the hub is connected
Connected to power:
1 Connect a null modem cable between the PC serial port and the console
port on the hub’s rear panel. (See Figure A-1.)
2 Turn on the PC.
3 Start the terminal-emulation program.
4 Configure the program with the same settings as the Hub 1000 SX
console interface port:
■
■
■
■
9600 baud
8 data bits
1 stop bit
No parity
5 Press Enter.
The PC screen displays the CLI header and the password prompt:
****************************************************
*
*
*
*
*
*
*
*
*
*
SuperStack II (tm)
Hub 1000 SX
Copyright (c)1997 3Com Corporation
****************************************************
Enter password ->
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Connecting the Console Port A-3
With Power To connect the console port when the hub is disconnected
Disconnected from power:
1 Connect a null modem cable between the PC serial port and the
console port on the Hub 1000 SX rear panel.
2 Turn on the PC.
3 Start the terminal-emulation program.
4 Configure the program with the same settings as the Hub 1000 SX
console interface port:
■
■
■
■
9600 baud
8 data bits
1 stop bit
No parity
5 Reconnect the hub to the power supply.
The PC screen displays POST messages, followed by the CLI header and
the password prompt.
POST Messages When you connect the hub to power or when you press the Reset button
on the hub’s rear panel, the PC screen displays messages while POST is
proceeding. When POST is finished, the CLI header appears, followed by
the password prompt. For example:
POST Level 0: PASS
Checking FDS ... valid.
Performing Level 1 Tests ...
Test: Port 0 - Pass.
Test: Port 1 - Pass.
Test: Port 2 - Pass.
Test: Port 3 - Pass.
Test: Port 4 - Pass.
Test: Port 5 - Pass.
Test: Port 6 - Pass.
Test: Port 7 - Pass.
Test: Port 8 - Pass.
Test: Port aliasing - Pass.
Test: MAC Address - Valid: 08004E2BA4D9
Test: Fan sense - Pass.
POST Level 1: PASS
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A-4
APPENDIX A: USING THE CONSOLE PORT
Hardware Version 0
Bootcode Version 1.00, 02/05/98
Firmware Version 1.00, 02/05/98
****************************************************
*
*
*
*
*
*
*
*
*
*
SuperStack II (tm)
Hub 1000 SX
Copyright (c)1997 3Com Corporation
****************************************************
Enter password ->
Any POST FAIL message indicates a fatal hardware error. If you see a FAIL
message, return the hub to the supplier.
Logging On
The default password that is set at the factory is admin. If this is the first
time that anyone has logged on to the hub, enter the default password at
the prompt:
admin
Asterisks (*) instead of plain text appear at the prompt while you are
typing the password.
The Hub 1000 SX Configuration menu appears.
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice ->
To select an option from the Configuration menu, enter the option
number at the prompt.
After 4 minutes of inactivity, the CLI logs off automatically.
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Changing the Password A-5
Changing the
Password
You can change the password if you need to. The new password must be
eight characters or fewer and cannot contain spaces or tabs.
To change the password, enter:
4
You are prompted to enter the old password and then the new password,
as shown in this example:
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 4
Old password: *****
New password: *******
Re-enter new password: *******
The following sections show examples of how to use the Hub 1000 SX
Configuration menu.
Configuring
Port Settings
Table A-1 summarizes the situations that require you to configure port
settings through the Port Configuration menu.
Table A-1 Situations That Require Configuring Port Settings
Situation
Action
You do not want a port to be connected.
A port cannot connect with a linked device.
Disable the port.
Disable auto-negotiation. (Force
the link.)
A linked device does not support
auto-negotiation.
Disable auto-negotiation. (Force
the link.)
You are connecting to a server or a
10/100 Mbps switch through the uplink.
Configure the uplink for
asymmetric flow control.
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A-6
APPENDIX A: USING THE CONSOLE PORT
To display the Port Configuration menu:
1 At the Configuration menu prompt, enter:
1
2 At the next prompt, enter the numbers of the ports that you want
to configure.
You can specify a single port number, multiple port numbers separated by
commas or spaces (for example: 5, 6 7), or a range of port numbers
separated with a hyphen (for example: 5-7).
The following example specifies ports 3, 5, 6, and 7:
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 1
Enter port number(s), from 1 to 9: 3 5-7
The Port Configuration menu appears, and the specified ports are
displayed. For example:
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(9) Apply changes and exit
Selected ports: 3, 5, 6, 7
Enter choice ->
Table A-2 summarizes the Port Configuration menu options.
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Configuring Port Settings A-7
Table A-2 Port Configuration Menu
Option
Description
(1) Enable port
Enable the port for linking. The factory
default is all ports enabled.
(2) Disable port
Disable the port for linking.
(3) Enable auto-negotiation
Enable auto-negotiation. The factory
default is auto-negotiation enabled on
all ports.
(4) Disable auto-negotiation (force link) Disable auto-negotiation.
(5) Show port settings
List the current settings for all ports.
(6) Use factory default settings
Return selected ports to factory
default settings.
(7) Save new port settings
Save the settings. Select this option if you
want settings to persist after a hub reset.
(8) Exit without change to settings
(9) Apply changes and exit
Exit to the Hub 1000 SX Configuration
menu without applying or saving settings.
Apply the settings and exit to the
Hub 1000 SX Configuration menu.
If you want settings to persist after a hub
reset, you must select option 7 before
selecting option 9.
Disabling Ports The following example shows how to disable ports 3, 5, 6, and 7 and
apply the changes.
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 1
Enter port number(s), from 1 to 9: 3 5-7
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
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A-8
APPENDIX A: USING THE CONSOLE PORT
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 3, 5, 6, 7
Enter choice -> 2
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 3, 5, 6, 7
Enter choice -> 9
Changes applied
Any time you select option 9 without selecting option 7, the settings will
return to the previous values in the event of a hub reset. This allows you
to experiment with port settings without specifying that they persist after
a hub reset. If you want settings to persist, select option 7 before
selecting option 9.
Disabling Disabling the auto-negotiation capability enables forced link on a port.
Auto-Negotiation When forced link is enabled, linked devices must have matching flow
control capabilities. For example, a port that is set for forced link and
outgoing flow control can connect successfully only with a port that is
set for forced link and incoming flow control.
When you disable auto-negotiation on a Hub 1000 SX port, you also
need to set forced link on the connected device. On some devices, this
setting is called forced configuration or link negotiation. For details on
the correct configuration, see the configuration guidelines for the linked
device.
The following example shows how to disable auto-negotiation on port 1,
save the new port setting, and apply it.
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Configuring Port Settings A-9
***************************************************
** Hub 1000 Configuration Menu **
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 1
Enter port number(s), from 1 to 9: 1
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 1
Enter choice -> 4
Enable Outgoing Flowcontrol (Y/N)? y
Port 1 is a downlink. Because downlinks support outgoing flow control only,
you can enable or disable outgoing flow control, but you cannot configure
incoming flow control. You might choose to disable outgoing flow control
if the port is linking to a device that does not support flow control.
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 1
Enter choice -> 7
Settings saved
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A-10
APPENDIX A: USING THE CONSOLE PORT
Because option 7 has been selected, the settings will persist after a
hub reset.
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 1
Enter choice -> 9
Changes applied
Configuring The uplink (port 9) defaults to symmetric (both outgoing and incoming)
the Uplink for flow control. You must configure the uplink for asymmetric flow control
Asymmetric to connect it to a server or 10/100 Mbps switch. The server or switch
Flow Control must have the appropriate NIC or uplink device, support flow control,
and be configured to receive pause frames.
The following example shows how to configure the uplink for asymmetric
flow control by disabling auto-negotiation, enabling outgoing flow
control, and disabling incoming flow control. With this configuration,
the uplink is set to forced link and can send pause frames but ignores
pause frames that it receives. (For more details on flow control, see “Flow
Control” in Chapter 1.)
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 1
Enter port number(s), from 1 to 9: 9
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Configuring Port Settings A-11
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 9
Enter choice -> 4
Enable Outgoing Flowcontrol (Y/N)? y
Enable Incoming Flowcontrol (Y/N)? n
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 9
Enter choice -> 7
Settings saved
Because option 7 has been selected, the settings will persist after a hub reset.
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 9
Enter choice -> 9
Changes applied
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A-12
APPENDIX A: USING THE CONSOLE PORT
Displaying
Hub Status
Hub status includes a matrix of information about the hub ports. In this
matrix, Y indicates yes and n indicates no. (See Table A-3.)
Table A-3 Hub Status Information
Category
State Description
Port is enabled
Y
n
Y
n
The port is enabled for linking.
The port is disabled for linking.
Link state is up
A link exists between the port and a device.
No link exists between the port and
a device.
Auto-negotiate link
configuration
Y
The port is set for auto-negotiation.
n
Y
The port is set for forced link.
Advertise outgoing
flow control
The port signals outgoing flow
control capability.
n
Y
n
–
The port does not signal outgoing flow
control capability.
Advertise incoming
flow control
The port signals incoming flow
control capability.
The port does not signal incoming flow
control capability.
The port does not support incoming
flow control.
Enable outgoing flow control Y or n If auto-negotiation is enabled, the result of
the negotiation between the port and the
linked device is shown. If auto-negotiation
is disabled, the flow control you specify
is shown.
Enable incoming flow control Y or n If auto-negotiation is enabled, the result of
the negotiation between the port and the
linked device is shown. If auto-negotiation
is disabled, the flow control you specify
is shown.
–
The port does not support incoming
flow control.
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Displaying Hub Status A-13
Hub status also includes POST and fan status, bandwidth utilization,
hardware and firmware version, and MAC address.
The sample hub status display that follows is the result of the changes
made in the previous section. To view the hub status, enter:
2
When you have finished viewing the hub status, press Enter to continue
the CLI session.
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 2
Hub Status
Port Number:
1 2 3 4 5 6 7 8 9
===========
Port is Enabled:
Link state is up:
= = = = = = = = =
Y Y n Y n n n Y Y
Y Y n Y n n n Y Y
Auto-Negotiate link configuration: n Y Y Y Y Y Y Y n
Advertise outgoing flow control: Y Y Y Y Y Y Y Y Y
Advertise incoming flow control: - - - - - - - - n
Enable outgoing flow control:
Enable incoming flow control:
Port has passed POST:
Y Y Y Y Y Y Y Y Y
- - - - - - - - n
Y Y Y Y Y Y Y Y Y
POST status: PASS
Fan status: Good
Bandwidth utilization: 0%
Hardware Version: 0
Firmware version: 1.00, 02/05/98
MAC Address: 08004E2BA4D9
Press Enter to continue ...
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A-14
APPENDIX A: USING THE CONSOLE PORT
Restoring the
Factory Default
Settings
To restore port settings to factory defaults:
1 At the Configuration menu prompt, enter:
1
2 Enter the numbers of the ports to be restored to factory defaults.
3 At the Port Configuration menu prompt, enter:
6
4 Apply the changes.
For example:
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 1
Enter port number(s), from 1 to 9: 1-9
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 1, 2, 3, 4, 5, 6, 7, 8, 9
Enter choice -> 6
Ports set to factory defaults
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Updating the Firmware Image A-15
****
Port Configuration Menu
****
(1) Enable port
(2) Disable port
(3) Enable Auto-Negotiation
(4) Disable Auto-Negotiation (Force link)
(5) Show port settings
(6) Use factory default settings
(7) Save new port settings
(8) Exit without change to settings
(9) Apply changes and exit
Selected ports: 1, 2, 3, 4, 5, 6, 7, 8, 9
Enter choice -> 9
Changes applied
If you want settings to persist after a hub reset, enter option 7 before
entering option 9.
Updating the
Firmware Image
On rare occasions you may need to update the hub’s firmware image to
install a bug fix or a standards update. Firmware updates are made
available on the 3Com World Wide Web site:
Checking the To verify that the firmware version on the 3Com World Wide Web site
Firmware Version is more recent than the version installed on the hub, display the hub
status. At the Hub 1000 SX Configuration menu prompt, enter:
2
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 2
The firmware version is listed near the bottom of the Hub Status screen.
For example:
Firmware version: 1.00, 02/05/98
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A-16
APPENDIX A: USING THE CONSOLE PORT
Transferring the Make sure that the terminal-emulation program supports one of
Firmware Image File the following file transfer protocols: Xmodem, Xmodem-1K, or
Xmodem-CRC.
To transfer the firmware image file:
1 Obtain the file that contains the firmware image from the 3Com
World Wide Web site:
2 Copy the file to the PC.
3 Connect the console port to the PC. (See “Connecting the Console Port”
earlier in this appendix.)
4 Log on. (See “Logging On” earlier in this appendix.)
5 At the Hub 1000 SX Configuration menu prompt, enter:
3
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 3
The hub enters file transfer mode and prompts you to begin the
file transfer.
Please initiate XMODEM transfer now. Press <ESC> to abort.
C
The C character indicates that the hub is waiting for the
terminal-emulation program to send a file.
If you want to stop the file transfer at this point, press Esc.
6 From the terminal-emulation program, select the appropriate
command to send a file using the Xmodem, Xmodem-1K, or
Xmodem-CRC protocol.
This command varies, depending on the terminal-emulation program.
Some programs call this operation uploading a file.
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Logging Off A-17
7 When prompted, enter the filename of the firmware image file.
The terminal-emulation program begins to transfer the firmware image
file. If you want to stop the file transfer, use the appropriate command in
the terminal-emulation program.
After the transfer is finished, the CLI displays the following message:
File transfer successful.
Firmware update successful.
during a firmware update), the CLI displays the following message:
Runtime image not valid.
The CLI prompts you to restart the file transfer, without requiring you to
log in again. To restart the file transfer, repeat steps 6 and 7.
Logging Off
To log off the CLI, at the Hub 1000 SX Configuration menu
prompt, enter:
5
***************************************************
**
Hub 1000 Configuration Menu
**
***************************************************
[1] Configure port settings
[2] Display hub status
[3] Update firmware image
[4] Change password
[5] Logout
Enter choice -> 5
The screen returns to the CLI header and the password prompt.
Troubleshooting
If a firmware update error occurs, the UNIT STATUS LED flashes
amber/green. Press the Reset button on the Hub 1000 SX rear panel and
repeat the procedure for updating the firmware. If the UNIT STATUS LED
continues to flash amber/green, return the unit to the supplier.
Table A-4 summarizes error messages that may appear during a file
transfer and actions you can take to correct the errors.
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A-18
APPENDIX A: USING THE CONSOLE PORT
Table A-5 lists fatal error messages. These messages indicate that the
memory unit has failed. If you see a fatal error message, return the unit
to the supplier.
Table A-4 File Transfer Error Messages
Message
Meaning
Action
Xmodem error: Timed out
sending NAK.
The hub could not send a negative
acknowledgment.
For any of these errors, check the
following items and then restart
the transfer:
Xmodem error: Timed out
sending ACK.
The hub could not send an
acknowledgment.
■
Make sure that the hub is in file
transfer mode (you selected
option 3 in the Hub 1000 SX
Configuration menu).
Xmodem error: Timed out waiting
for packet.
The time limit for receiving a packet
was exceeded.
Timed out waiting for transfer
to start.
The time limit for starting the file
transfer was exceeded.
■
■
Make sure that you are using
the correct protocol in the
terminal-emulation program.
Xmodem error: Got too many
errors to continue.
The hub error limit was exceeded.
Verify that you copied the correct
file from the 3Com Web site. If
necessary, download the file from
the Web site again.
Xmodem error.
A general protocol error occurred.
Abort key hit. Transfer aborted.
The user pressed Esc to stop
the transfer.
■
■
Check that cables are connected
properly.
Transfer aborted by file sender.
The Xmodem operation in the
terminal-emulation program stopped
the transfer.
Eliminate any interference that
may be coming from lighting or
from equipment operating near
the hub.
File too large. Transfer aborted.
Downloaded file not valid.
The file being transferred is too large
for the hub’s memory.
The firmware image file is corrupted,
or its format is incorrect.
Table A-5 Fatal Error Messages
Message
Context
Action
Flash memory erase error.
Flash memory programming error.
Data storage error.
During firmware update.
During firmware update.
For any of these errors, return the
unit to the supplier.
While saving port settings or
changing the password.
System stopped!
During firmware update.
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SPECIFICATIONS
B
This appendix lists the specifications for the SuperStack II Hub 1000 SX.
Physical Dimensions
Height:
Width:
Depth:
4.37 cm (1.72 in.)
43.94 cm (17.3 in.)
30.48 cm (12 in.)
Weight: 5.5 kg (12 lb)
Environmental Operating Ranges
Operating temperature: 0˚ to 50 ˚C (32˚ to 122 ˚F)
Storage temperature:
Operating humidity:
Storage humidity:
–30˚ to 60 ˚C (–22˚ to 140 ˚F)
10% to 90% relative humidity, noncondensing
10% to 95% relative humidity, noncondensing
Electrostatic discharge: Does not exceed 25 kV
Operating altitude:
–300 to 3000 meters (–296 to 9840 ft)
Power Requirements
AC input voltage:
90–264 V; 115–230 V nominal
Input frequency range: 47–63 Hz, single phase AC
Inrush current:
40 A peak maximum at cold start for half cycle
at any rated input voltage; no damage to the
supply from repeated on/off/on cycles under hot
or cold conditions
AC input isolation:
Between primary and secondary circuits: 3000 V
Between primary circuit and chassis: 1500 V
Power consumption: 65 W maximum
Heat output:
Fuse:
90 BTU/hr
Fast-blow, 250 VAC, 3.15 A, high
breaking capacity
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TECHNICAL SUPPORT
C
3Com provides easy access to technical support information through a
variety of services. This appendix describes these services.
Information contained in this appendix is correct at time of publication.
For the very latest, we recommend that you access 3Com Corporation’s
World Wide Web site.
Online Technical
Services
3Com offers worldwide product support 24 hours a day, 7 days a week,
through the following online systems:
■
■
■
■
World Wide Web site
3Com Bulletin Board Service (3ComBBS)
SM
3ComFacts automated fax service
3ComForum on CompuServe online service
World Wide Web Site Access the latest networking information on 3Com Corporation’s
World Wide Web site by entering our URL into your Internet browser:
This service features the latest information about 3Com solutions and
technologies, customer service and support, news about the company,
Net Age® Magazine, technical documentation, and more.
3Com Bulletin 3ComBBS contains patches, software, and drivers for all 3Com products,
Board Service as well as technical articles. This service is available through analog
modem or digital modem (ISDN) 24 hours a day, 7 days a week.
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C-2
APPENDIX C: TECHNICAL SUPPORT
Access by Analog Modem
To reach the service by modem, set your modem to 8 data bits, no parity,
and 1 stop bit. Call the telephone number nearest you:
Country
Australia
Brazil
Data Rate
Telephone Number
61 2 9955 2073
55 11 5181 9666
33 1 6986 6954
4989 62732 188
852 2537 5601
39 2 27300680
81 3 3345 7266
52 5 520 7835
up to 14400 bps
up to 14400 bps
up to 14400 bps
up to 28800 bps
up to 14400 bps
up to 14400 bps
up to 14400 bps
up to 28800 bps
up to 14400 bps
up to 14400 bps
up to 28800 bps
up to 28800 bps
France
Germany
Hong Kong
Italy
Japan
Mexico
P.R. of China
Taiwan, R.O.C.
U.K.
86 10 684 92351
886 2 377 5840
44 1442 438278
1 408 980 8204
U.S.A.
Access by Digital Modem
ISDN users can dial in to 3ComBBS using a digital modem for fast
access up to 56 Kbps. To access 3ComBBS using ISDN, use the
following number:
1 408 654 2703
3ComFacts 3Com Corporation’s interactive fax service, 3ComFacts, provides data
Automated sheets, technical articles, diagrams, and troubleshooting instructions on
Fax Service 3Com products 24 hours a day, 7 days a week.
Call 3ComFacts using your Touch-Tone telephone using one of these
international access numbers:
Country
U.K.
Telephone Number
44 1442 438279
1 408 727 7021
U.S.A.
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Support from Your Network Supplier C-3
Local access numbers are available within the following countries:
Telephone
Number
Telephone
Number
Country
Australia
Belgium
Denmark
Finland
France
Country
Netherlands
Norway
1800 123 853
0800 71279
800 17319
0800 0228049
800 11062
Portugal
0505 442 607
956 0815
98 001 4444
0800 908158
0130 81 80 63
1678 99085
Russia (Moscow only)
Spain
900 964 445
020 792954
0800 626403
Germany
Italy
Sweden
U.K.
3ComForum on 3ComForum contains patches, software, drivers, and technical articles
CompuServe about all 3Com products, as well as a messaging section for peer
Online Service support. To use 3ComForum, you need a CompuServe account.
To use 3ComForum:
1 Log on to your CompuServe account.
2 Type go threecom
3 Press [Return] to see the 3ComForum main menu.
Support from Your
Network Supplier
If additional assistance is required, contact your network supplier. Many
suppliers are authorized 3Com service partners who are qualified to
provide a variety of services, including network planning, installation,
hardware maintenance, application training, and support services.
When you contact your network supplier for assistance, have the
following information ready:
■
■
■
A list of system hardware and software, including revision levels
Diagnostic error messages
Details about recent configuration changes, if applicable
If you are unable to contact your network supplier, see the following
section on how to contact 3Com.
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C-4
APPENDIX C: TECHNICAL SUPPORT
Support from 3Com If you are unable to receive support from your network supplier, technical
support contracts are available from 3Com.
Contact your local 3Com sales office to find your authorized service
provider using one of these numbers:
Regional Sales Office Telephone Number
3Com Corporation
Regional Sales Office Telephone Number
3Com GmbH (cont’d)
Germany
P.O. Box 58145
5400 Bayfront Plaza
Santa Clara, California
95052-8145
800 NET 3Com
49 30 34 98790 (Berlin)
(Central European HQ) 49 89 627320 (Munich)
Hungary
Poland
36 1 250 83 41
48 22 6451351
U.S.A.
3Com Iberia
Portugal
Spain
3Com Asia Limited
Australia
351 1 3404505
34 1 5096900
61 2 9937 5000 (Sydney)
61 3 9866 8022 (Melbourne)
852 2501 1111
91 11 644 3974
62 21 572 2088
81 6 536 3303 (Osaka)
81 3 3345 7251 (Tokyo)
82 2 3455 6300
60 3 732 7910
64 9 366 9138
3Com Latin America
U.S. Headquarters
Northern Latin America 305 261 3266 (Miami, Florida)
Argentina
Brazil
Hong Kong
India
Indonesia
Japan
408 326 2093
541 312 3266
55 11 5181 0869
562 633 9242
57 1 629 4847
52 5 520 7841/7847
51 1 221 5399
58 2 953 8122
Chile
Korea
Malaysia
New Zealand
Philippines
P.R. of China
Colombia
Mexico
Peru
632 892 4476
Venezuela
8610 68492568 (Beijing)
86 21 63501581 (Shanghai)
65 538 9368
886 2 377 5850
662 231 8151 5
3Com Mediterraneo
Italy
Singapore
Taiwan, R.O.C.
Thailand
39 2 253011 (Milan)
39 6 5279941 (Rome)
3Com Middle East
971 4 349049
3Com Austria
43 1 580 17 0
3Com Nordic AB
Denmark
Finland
3Com Benelux B.V.
Belgium
45 39 27 85 00
358 0 435 420 67
47 22 58 47 00
46 8 632 56 00
32 2 725 0202
Netherlands
31 0346 586211
Norway
Sweden
3Com Canada
Calgary
Edmonton
Montreal
Ottawa
Toronto
Vancouver
403 265 3266
403 423 3266
514 683 3266
613 566 7055
416 498 3266
604 434 3266
3Com Russia
007 095 258 09 40
3Com Southern Africa 27 11 807 4397
3Com Switzerland
41 31 996 14 14
3Com Technologies
Ireland
353 1 820 7077
3Com France
33 1 69 86 68 00
3Com U.K. Ltd.
44 131 240 2900 (Edinburgh)
44 161 873 7717 (Manchester)
44 1628 897000 (Marlow)
3Com GmbH
Czech Republic/Slovak
Republic
420 2 21845 800
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Returning Products for Repair C-5
Returning Products
for Repair
Before you send a product directly to 3Com for repair, you must first
obtain a Return Materials Authorization (RMA) number. Products sent to
3Com without RMA numbers will be returned to the sender unopened,
at the sender’s expense.
To obtain an RMA number, call or fax:
Country
Telephone Number
1 800 876 3266, option 2
1 408 326 2927
Fax Number
U.S.A. and Canada
Latin America
408 764 7120
408 764 7120
44 1442 435822
Europe, South Africa, and
Middle East
44 1442 435860
Elsewhere
1 408 326 2926
1 408 764 7120
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GLOSSARY
10BASE-T The IEEE 802.3 physical layer specification for a 10 Mbps Ethernet
network over two pairs of Category 3, 4, or 5 UTP wire.
100BASE-T The group of IEEE 802.3 physical layer specifications for a 100 Mbps
Ethernet network over various wiring specifications.
1000BASE-X The group of IEEE 802.3 physical layer specifications for a 1000 Mbps
Ethernet network over various wiring specifications.
1000BASE-CX The IEEE 802.3 physical layer specification for a 1000 Mbps Ethernet
network over short-haul shielded balanced copper cable (known as
twinaxial STP).
1000BASE-LX The IEEE 802.3 physical layer specification for a 1000 Mbps Ethernet
network over long laser wavelength (1300 nm) multimode fiber (MMF)
or single-mode fiber (SMF) cable.
1000BASE-SX The IEEE 802.3 physical layer specification for a 1000 Mbps Ethernet
network over short laser wavelength (850 nm) MMF or SMF cable.
Advanced RPS 3Com SuperStack II Advanced Redundant Power System.
asymmetric A relationship between linked network devices in which only one of the
flow control devices can receive pause frames. See also flow control, pause frame,
symmetric flow control.
auto-negotiation A method by which linked devices advertise their signaling capabilities
(such as protocol, speed, media type, and flow control capabilities) and
automatically select their best common mode of communication.
backbone The main transmission medium used to interconnect the workgroup
areas of a network. Fiber-optic cable is often used for the backbone
connection.
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2
GLOSSARY
bidirectional See symmetric flow control.
flow control
CSMA/CD Carrier Sense Multiple Access/Collision Detection. Channel access
method used by Ethernet and IEEE 802.3 in which devices transmit only
after finding the data channel clear for some period. When two devices
transmit simultaneously, a collision occurs and the colliding devices
delay their retransmissions for a random length of time.
Ethernet A local area network standard defining a physical medium and its
method of placing data, or packet signaling, on a cable. Access to the
cable is based on CSMA/CD (Carrier Sense Multiple Access/Collision
Detection).
Fast Ethernet A 100 Mbps technology based on the Ethernet CSMA/CD network
access method.
fiber-optic cable Cable consisting of a glass center, cladding, a buffer layer, strength
members, and a cable sheath. The glass center supports the
transmission of light signals.
flow control A method for ensuring that a transmitting entity does not overwhelm a
receiving entity with data. See also asymmetric flow control, incoming
flow control, outgoing flow control, pause frame, symmetric flow
control.
forced link A method by which devices link with fixed and matching signaling
capabilities. See also auto-negotiation.
full-duplex The ability of a device or line to transmit data simultaneously in both
directions. See also half-duplex.
Gigabit Ethernet A 1000 Mbps network technology that retains support for
10/100 Mbps Ethernet CSMA/CD networks.
half-duplex Data transmission that can occur in two directions over a single line,
but in only one direction at a time. See also full-duplex.
hub A device used to provide connectivity between network devices. Hubs
perform the basic repeater functions of restoring signal amplitude and
timing, detecting collisions, and broadcasting signals to network
devices. See also repeater.
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GLOSSARY
3
IEEE Institute of Electrical and Electronics Engineers. Committees that
develop and propose computer standards, such as the 802 protocols,
which define the physical and data link protocols of communication
networks. Members represent an international cross section of users,
vendors, and engineering professionals.
incoming The ability of a device to receive pause frames. See symmetric
flow control flow control.
LAN Local area network. An assembly of computing resources such as PCs,
printers, minicomputers, and mainframe computers linked by a
common transmission medium, such as UTP.
LED Light-emitting diode. A diode that converts voltage to light and that is
commonly used in digital displays.
MAC Media Access Control. The data link sublayer that is responsible for
transferring data to and from the physical layer.
Mbps Megabits per second.
outgoing The ability of a device to send pause frames. See Asymmetric
flow control flow control.
partition A repeater function that isolates a particular port from the network
because of an excessive number of collisions. Once the problem
causing the collisions is corrected, the port is reactivated.
pause frame A set of bits that tells a transmitting device to stop the transmission of
data frames for a specified period or to resume the transmission of
data frames.
power workgroup A small number of servers or a small number of sophisticated users
on high-end workstations. A power workgroup requires very high
performance to run applications that move and process massive
amounts of data in real time (for example, medical imaging, video
editing, film postproduction, CAD/CAM, or digital prepress).
repeater A device that extends the length, topology, or interconnectivity of
the physical medium beyond that imposed by a single segment, up
to the maximum allowable end-to-end trunk transmission line length.
Repeaters perform the basic actions of restoring signal amplitude,
waveform, and timing applied to normal data and collision signals.
See also hub.
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4
GLOSSARY
SC A fiber-optic cable connector. When it is pushed into place, the
connector is seated automatically.
STP Shielded twisted-pair. Shielded four-conductor electrical cable that
offers high-speed transmission for long distances.
SuperStack 3Com system of stackable hubs, servers, switches, routers, SDLC
converters, and power supplies. SuperStack systems can support a
range of LAN environments, including Ethernet, token ring, FDDI,
SNA, and ATM.
symmetric A relationship between linked network devices in which both devices
flow control can send and receive pause frames. Also called bidirectional flow
control. See also asymmetric flow control, flow control, pause frame.
twisted-pair Wiring similar to that found in the telephone system, consisting of two
insulated wires loosely twisted around each other to help cancel out
induced noise in balanced circuits.
UTP Unshielded twisted-pair. A cable consisting of two or more pairs of
twisted copper wires that are not shielded.
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INDEX
C
Symbols
% BW usage meter 2-6
cables 2-5, 2-7, 2-9, 3-1
RPS 2-11
carrier integrity monitor 1-4
CompuServe C-3
auto-negotiation 1-3
Numbers
1000BASE-CX 1-2
1000BASE-LX 1-2
1000BASE-SX 1-2
3C16925 Gigabit Ethernet SX uplink module 3-3
3C985-SX Gigabit EtherLink Server NIC 3-2
3Com Bulletin Board Service (3ComBBS) C-1
3Com sales offices C-4
configuring port settings A-5
connections
console port A-2
downlink 2-5
3Com URL C-1
guidelines 3-1
3ComFacts C-2
power workgroup 3-2
uplink 3-5
3ComForum C-3
console interface (CLI) A-1
connecting A-2
A
AC
requirements A-2
power 2-9
conventions
power cord 2-1, 2-3
ACTIVITY LED 2-6
cabling options 2-9
configuration options 2-10
aggregating devices
servers 3-2
text, About This Guide
CSMA/CD 1-1
2
D
DC power 2-9
disabling a port A-7
switches 3-3
asymmetric flow control 3-6
definition 1-3
auto-negotiation
displaying hub status A-13
downlinks 1-2, 2-2
defined 1-3
disabling A-8
aggregating servers 3-2
aggregating switches 3-3
cabling 2-5
connections 2-5
flow control 1-3
B
backbone 1-2, 3-2, 3-5
bandwidth aggregation 3-3
bidirectional flow control 1-3
bulletin board service C-1
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2
INDEX
at power on 2-5
descriptions 2-6
E
GBIC module 2-8
hub desktop placement 2-5
hub rack mounting 2-3
F
flow control 1-2, A-10
forced link 1-3, A-8
frames
aging 1-4
L
pause 1-2
LED
front panel 2-2
full redundancy for Advanced RPS 2-10
full resilience 2-10
fuse B-1
descriptions 2-6
indicators 1-4
maximum cable length 2-7
downlink connections 2-5
Gigabit Ethernet 3-1
media access control 1-4
G
cabling 2-7
connections 3-2
connector types 2-7
installation 2-8
GBIC port 2-3
Gigabit Ethernet
N
technology, definition 1-1
uplink module 3-3
H
hub
connections 3-1
front panel 2-2
indicators and LEDs 2-6
installation 2-3
rack mounting 2-3
rear panel 2-3
P
pause frames 1-2
hub operation LEDs 2-6
disabling A-7
GBIC 2-3
I
reconfiguration A-5
asymmetric flow control A-10
restoring factory defaults A-14
Port Configuration menu A-6
PORT STATUS LEDs 2-6
IEEE specifications
802.3x 1-2
802.3z 1-4
incoming flow control 1-2
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INDEX
POST
description 1-4
diagnostics 2-6
messages A-3
power
requirements B-1
RPS 2-11
Power Modules 2-9, 2-10
power on 2-5
SuperStack II
Hub 1000 SX. See hub
Switch 1000 3-3
Switch 3000 3-3
Switch 3900 3-3
Switch 9300 3-2, 3-3, 3-5
symmetric flow control 1-3
power workgroup 3-2
power-on self-test (POST)
description 1-4
T
diagnostics 2-6
messages A-3
bulletin board service C-1
CompuServe service C-3
fax service C-2
R
network suppliers C-3
product repair C-5
trunking 3-3
rack mounting
instructions for 2-3
kit 2-1
rear panel 2-3
redundancy, for Advanced RPS
full 2-10
maximum wattage 2-11
uplink 1-2, 2-3
managed 2-10
requirements
console port A-2
power B-1
resilience, full 2-10
RPS FAIL LED 2-6
RPS ON LED 2-6
backbone connection 3-2, 3-3
connections 2-7, 3-5
flow control 1-3, 3-6
reconfiguring for asymmetric flow control A-10
uses 1-2
URL C-1
S
safety precautions 2-1
server farms 3-2
servers, aggregating 3-2
signal retiming 1-4
site preparation 2-3
specifications B-1
Xmodem protocol A-2, A-16
environmental operating ranges B-1
physical dimensions B-1
power requirements B-1
standard usage for Advanced RPS 2-10
status, hub A-13
Y
Y cable 2-10
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3Com Corporation LIMITED WARRANTY
+5 Limited Warranty
The duration of the warranty for the SuperStack II Hub 1000 SX is five (5) years, with the exception of the product’s fans and power supplies, which
are warranted for the first year only. Advance hardware replacement will be provided for one (1) year from your date of purchase, in accordance with
3Com’s standard terms and conditions. An extension of the advance replacement coverage is available through the purchase of a service agreement. To
qualify for the five year warranty and one year of advance hardware replacement, you must submit your warranty registration card to 3Com. If you do
not submit your warranty registration card, the products will be covered by 3Com’s standard one year warranty.
HARDWARE
3Com warrants its hardware products to be free from defects in workmanship and materials, under
normal use and service, for the following lengths of time from the date of purchase from 3Com or its
Authorized Reseller:
Network interface cards
Lifetime
Other hardware products (unless otherwise specified in the warranty statement above)
Spare parts and spares kits
1 year
90 days
If a product does not operate as warranted above during the applicable warranty period, 3Com shall, at its
option and expense, repair the defective product or part, deliver to Customer an equivalent product or part
to replace the defective item, or refund to Customer the purchase price paid for the defective product.
All products that are replaced will become the property of 3Com. Replacement products may be new or
reconditioned. Any replaced or repaired product or part has a ninety (90) day warranty or the remainder
of the initial warranty period, whichever is longer.
3Com shall not be responsible for any software, firmware, information, or memory data of Customer
contained in, stored on, or integrated with any products returned to 3Com for repair, whether under
warranty or not.
SOFTWARE
3Com warrants that the software programs licensed from it will perform in substantial conformance to the
program specifications therefor for a period of ninety (90) days from the date of purchase from 3Com or
its Authorized Reseller. 3Com warrants the media containing software against failure during the warranty
period. No updates are provided. The sole obligation of 3Com with respect to this express warranty shall
be (at the discretion of 3Com) to refund the purchase price paid by Customer for any defective software
products, or to replace any defective media with software which substantially conforms to applicable 3Com
published specifications. Customer assumes responsibility for the selection of the appropriate applications
program and associated reference materials. 3Com makes no warranty or representation that its software
products will work in combination with any hardware or applications software products provided by
third parties, that the operation of the software products will be uninterrupted or error free, or that all
defects in the software products will be corrected. For any third-party products listed in the 3Com software
product documentation or specifications as being compatible, 3Com will make reasonable efforts to provide
compatibility, except where the noncompatibility is caused by a “bug” or defect in the third party’s product.
STANDARD WARRANTY
SERVICE
Standard warranty service for hardware products may be obtained by delivering the defective product,
accompanied by a copy of the dated proof of purchase, to the 3Com Corporate Service Center or to an
Authorized 3Com Service Center during the applicable warranty period. Standard warranty service for
software products may be obtained by telephoning the 3Com Corporate Service Center or an Authorized
3Com Service Center, within the warranty period. Products returned to the 3Com Corporate Service Center
must be preauthorized by 3Com with a Return Material Authorization (RMA) number marked on the outside
of the package, and sent prepaid, insured, and packaged appropriately for safe shipment. The repaired or
replaced item will be shipped to Customer, at the expense of 3Com, not later than thirty (30) days after
receipt of the defective product by 3Com.
WARRANTIES EXCLUSIVE
IF A 3COM PRODUCT DOES NOT OPERATE AS WARRANTED ABOVE, CUSTOMER’S SOLE REMEDY FOR
BREACH OF THAT WARRANTY SHALL BE REPAIR, REPLACEMENT, OR REFUND OF THE PURCHASE PRICE
PAID, AT THE OPTION OF 3COM. TO THE FULL EXTENT ALLOWED BY LAW, THE FOREGOING WARRANTIES
AND REMEDIES ARE EXCLUSIVE AND ARE IN LIEU OF ALL OTHER WARRANTIES, TERMS, OR CONDITIONS,
EXPRESS OR IMPLIED, EITHER IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE, INCLUDING
WARRANTIES, TERMS, OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND
SATISFACTORY QUALITY. 3COM NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON TO ASSUME
FOR IT ANY OTHER LIABILITY IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE, OR USE OF
ITS PRODUCTS.
3COM SHALL NOT BE LIABLE UNDER THIS WARRANTY IF ITS TESTING AND EXAMINATION DISCLOSE THAT
THE ALLEGED DEFECT IN THE PRODUCT DOES NOT EXIST OR WAS CAUSED BY CUSTOMER’S OR ANY THIRD
PERSON’S MISUSE, NEGLECT, IMPROPER INSTALLATION OR TESTING, UNAUTHORIZED ATTEMPTS TO REPAIR
OR MODIFY, OR ANY OTHER CAUSE BEYOND THE RANGE OF THE INTENDED USE, OR BY ACCIDENT, FIRE,
LIGHTNING, OR OTHER HAZARD.
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LIMITATION OF LIABILITY
TO THE FULL EXTENT ALLOWED BY LAW, 3COM ALSO EXCLUDES FOR ITSELF AND ITS SUPPLIERS ANY
LIABILITY, WHETHER BASED IN CONTRACT OR TORT (INCLUDING NEGLIGENCE), FOR INCIDENTAL,
CONSEQUENTIAL, INDIRECT, SPECIAL, OR PUNITIVE DAMAGES OF ANY KIND, OR FOR LOSS OF REVENUE
OR PROFITS, LOSS OF BUSINESS, LOSS OF INFORMATION OR DATA, OR OTHER FINANCIAL LOSS ARISING
OUT OF OR IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE, USE, PERFORMANCE, FAILURE,
OR INTERRUPTION OF ITS PRODUCTS, EVEN IF 3COM OR ITS AUTHORIZED RESELLER HAS BEEN ADVISED OF
THE POSSIBILITY OF SUCH DAMAGES, AND LIMITS ITS LIABILITY TO REPAIR, REPLACEMENT, OR REFUND OF
THE PURCHASE PRICE PAID, AT THE OPTION OF 3COM. THIS DISCLAIMER OF LIABILITY FOR DAMAGES WILL
NOT BE AFFECTED IF ANY REMEDY PROVIDED HEREIN SHALL FAIL OF ITS ESSENTIAL PURPOSE.
GOVERNING LAW
This Limited Warranty shall be governed by the laws of the State of California, U.S.A. Some countries, states,
or provinces do not allow the exclusion or limitation of implied warranties or the limitation of incidental or
consequential damages for certain products supplied to consumers or the limitation of liability for personal
injury, so the above limitations and exclusions may be limited in their application to you. This warranty gives
you specific legal rights which may vary depending on local law.
3Com Corporation, 5400 Bayfront Plaza, Santa Clara, CA 95052-8145 (408) 764-5000
FCC CLASS A VERIFICATION STATEMENT
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, and the Canadian Department of Communications Equipment
Standards entitled, “Digital Apparatus,” ICES-003. These limits are designed to provide reasonable protection
against harmful interference in a commercial installation. This equipment generates, uses and can radiate
radio frequency energy and, if not installed and used in accordance with the instructions, 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 the user’s
own expense.
Changes or modifications not expressly approved by 3Com could void the user’s authority to operate
this equipment.
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