RADIANCE
MULTI-RATE LINE CARD
MULTIRATE
PWR
SD
RX
1
LB
TX
BP
SD
RX
2
LB
TX
BP
Installation & User Guide
Model: R380-SS
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O413-40-47 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1470 nm, 40 km)
O413-40-49 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1490 nm, 40 km)
O413-40-51 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1510 nm, 40 km)
O413-40-53 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1530 nm, 40 km)
O413-40-55 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1550 nm, 40 km)
O413-40-57 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1570 nm, 40 km)
O413-40-59 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1590 nm, 40 km)
O413-40-61 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1610 nm, 40 km)
O413-80-47 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1470 nm, 80 km)
O413-80-49 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1490 nm, 80 km)
O413-80-51 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1510 nm, 80 km)
O413-80-53 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1530 nm, 80 km)
O413-80-55 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1550 nm, 80 km)
O413-80-57 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1570 nm, 80 km)
O413-80-59 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1590 nm, 80 km)
O413-80-61 ____ Multi-rate SFP LC (CWDM, 155 Mbps to 2.7 Gbps, 1610 nm, 80 km)
O483-80-47 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1470 nm, 80 km)
O483-80-49 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1490 nm, 80 km)
O483-80-51 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1510 nm, 80 km)
O483-80-53 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1530 nm, 80 km)
O483-80-55 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1550 nm, 80 km)
O483-80-57 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1570 nm, 80 km)
O483-80-59 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1590 nm, 80 km)
O483-80-61 ____ Multi-rate SFP LC (CWDM, 45 Mbps to 155 Mbps, 1610 nm, 80 km)
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part of this publication may be reproduced, stored in a retrieval system, translated, transcribed, or transmitted, in any
form, or by any means manual, electric, electronic, electromagnetic, mechanical, chemical, optical or otherwise, without
prior explicit written permission of Metrobility Optical Systems, Inc.
Metrobility, Metrobility Optical Systems and NetBeacon are registered trademarks; the Metrobility Optical Systems logo
and WebBeacon are trademarks of Metrobility Optical Systems, Inc. Other trademarks appearing in this manual are the
property of their owners.
The information contained in this document is assumed to be correct and current. The manufacturer is not responsible for
errors or omissions and reserves the right to change specifications at any time without notice.
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Table of Contents
Radiance Multi-Rate Line Card Installation & User Guide
Overview ............................................................................................................... 5
Installation Guide ................................................................................................. 8
Unpack the Line Card ............................................................................ 8
Set the DIP Switches .............................................................................. 8
Configuring the Data Rate .............................................................. 9
Loopback (LBCK) Switch ............................................................ 10
Link Loss Carry Forward (LLCF) Switch .................................... 10
Link Loss Return (LLR) Switch ................................................... 10
Install the SFP Optics ........................................................................... 11
Install the Line Card............................................................................. 12
Connect to the Network ....................................................................... 13
User Guide.......................................................................................................... 16
LED Operation ..................................................................................... 16
SFP Monitors ....................................................................................... 17
Loopback .............................................................................................. 18
Normal Operation ......................................................................... 18
Local Port Loopback ..................................................................... 18
Dual-Port Loopback ...................................................................... 19
Link Loss Return .................................................................................. 20
Link Loss Carry Forward ..................................................................... 21
Topology Solutions .............................................................................. 22
Coarse Wavelength Division Multiplexing (CWDM) .................. 22
Changing the SFP Optics ..................................................................... 24
Technical Specifications....................................................................... 25
Acronyms and Abbreviations ............................................................... 32
Product Safety, EMC and Compliance Statements .............................. 33
Warranty and Servicing ........................................................................ 34
4
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Overview
The Radiance multi-rate line card with dual small form-factor pluggable
(SFP) optics provides a simple and versatile solution for converting between
two physical data formats. Use it to connect multimode to singlemode fiber, or
singlemode fiber with different wavelengths. A wide range of interchangeable
optics ensures the multi-rate line card will accommodate current and future
system needs regardless of the network’s data rate, protocol, or wavelength.
The multi-rate card supports a frequency range from 44.7 Mbps up to 2.7 Gbps,
however, it is not a rate adapter that converts from one protocol to another. Only
one data rate is configured manually through a set of DIP switches on the card,
automatically through software auto-detection, or by changing the settings via
software commands.
The card features loopback capability for testing link integrity, Link Loss Carry
Forward and Link Loss Return for troubleshooting remote connections, and a
clock and data recovery (CDR) circuit which can be bypassed for protocol
transparency. The CDR circuitry extracts the clock and data information from
the incoming stream and clears the signal from noise or jitter, which can
significantly compromise the transmission of error-free data. The hot-swappable
multi-rate line card is designed for use with the Radiance chassis system.
Compatible with the Coarse Wavelength Division Multiplexing (CWDM)
System, the multi-rate line card supports Metrobility’s CWDM pluggable optics
with wavelengths from 1310 up to 1610 nm. When installed in a managed
Radiance R5000 Central Service Platform, the multi-rate line card provides the
interface between the service provider’s switch and a wavelength-specific
connection to the mux/demux module in an R4000 chassis. At the customer site,
the multi-rate line card converts the specific wavelength back to a standard fiber
media that matches the customer’s equipment.
When configured with an R502-M management card, software management
over the multi-rate line card allows a system administrator to monitor and
configure the unit from a PC. Console commands, Metrobility’s NetBeacon® or
WebBeacon™ management software, or any standard SNMP application can be
used for management. Through software, the multi-rate line card delivers real-
time monitoring of its internal temperature, SFP optical receive/transmit power
levels, and port link state, along with switch controls and other hardware data to
simplify troubleshooting and to ensure system stability.
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5
MULTIRATE
PWR
SD
RX
Receiver
1
Port 1
Port 2
LB
Transmitter
TX
BP
SD
RX
Receiver
Transmitter
2
LB
TX
BP
R380-SS
The Radiance multi-rate line card includes the following key features:
• Support for frequencies ranging from 44.7 Mbps up to 2.7 Gbps.
• Auto-detection or manual frequency settings.
• Temperature and optical power monitors.
• A wide range of SFP transceiver options compliant with Multi-Source Agree-
ment (MSA) specifications.
• Full signal retiming, reshaping, and re-amplification (3 Rs) on both ports.
• Clock and data recovery (CDR) bypass capability for total protocol transpar-
ency.
• Independent loopback control on each port.
• Link Loss Carry Forward and Link Loss Return for troubleshooting remote
network connections.
• In-band management of a remote unit via SNMP.
• Hot-swappable board and optics.
6
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• Operates in any Metrobility chassis enclosure such as the Radiance R5000,
R1000, R400, R200, or RD-20.
• Manageable using Metrobility’s NetBeacon and WebBeacon element
management software, or any standard SNMP-based management
application.
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7
Installation Guide
Follow the steps outlined in this section to install and start using the Radiance
multi-rate line card.
NOTE: Electrostatic discharge precautions should be taken when handling any
line card. Proper grounding is recommended (i.e., wear a wrist strap).
Unpack the Line Card
Your order has been provided with the safest possible packaging, but
shipping damage does occasionally occur. Inspect your order carefully
for damage that may have occurred during shipment. If you discover
any shipping damage, notify your carrier and follow their instructions
for damage and claims. Save the original shipping carton if return or
storage of the unit is necessary.
1
Set the DIP Switches
Two sets of 6-position DIP switches are provided on the R380 line
card. These switches, labeled SW1 and SW2, are used to enable/disable
functions or to set the initial data rate. The default settings for the two
banks of DIP switches are shown below.
2
Default DIP Switch Settings
SW2
1 2 3 4 5 6
SW1
L L
L B
R C R C C
1 K K F
L
L
L L
B L
2
1
2
When setting DIP switches*, the UP position is when the lever of the
switch is pushed away from the circuit board. The DOWN position is
when the lever of the switch is pushed toward the circuit board.
* DIP switches can also be managed via console commands or through Metrobility NetBeacon or
WebBeacon management software. Refer to the Command Line Interface Reference Guide,
NetBeacon Element Management Software Installation & User Guide or WebBeacon Management
Software Installation & User Guide for software management information.
8
Installation Guide
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Configuring the Data Rate
SW2 is used to set the initial data rate on the R380. The data rate is
determined by the 6-bit binary code derived from the position of the
DIP switches. The table below describes the settings supported by the
multi-rate line card. 1=UP, 0=DOWN. The default setting, which
automatically detects the data rate, is highlighted in yellow.
NOTE: The initial DIP switch setting may be overridden through software.
DIP Switch Position
Rate,
Mbps
Protocol
1
0
1
0
1
0
0
0
1
0
0
1
0
1
0
1
0
1
0
1
0
1
0
1
2
0
0
1
1
0
1
0
0
0
1
1
0
0
1
0
1
1
0
0
1
1
0
0
3
0
0
0
0
1
1
0
0
1
1
1
0
0
0
1
1
1
0
0
0
0
1
1
4
0
0
0
0
0
0
1
1
1
1
1
0
0
0
0
0
0
1
1
1
1
1
1
5
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
6
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CDR bypass
44.7360
Any protocol
DS-3
51.8400
OC-1
125.0000
Fast Ethernet/FDDI
FC-133
133.3125
155.5200
OC-3/STM-1
ESCON-200
FC-266
200.0000
266.6250
531.2500
FC-531
622.0800
OC-12/STM-4
OC-12/STM-4 (FEC)
Reserved
666.5143
1,000.0000
1,062.5000
1,250.0000
1,500.0000
2,000.0000
2,125.0000
2,250.0000
2,375.0000
2,488.3200
2,500.0000
2,625.0000
2,666.0570
FC-1062
Gigabit Ethernet
Reserved
Reserved
FC-2125
Reserved
Reserved
OC-48/STM-16
Reserved
Reserved
OC-48/STM-16 (FEC)
Unknown protocol, auto-detect
(DEFAULT)
1
1
1
1
1
1
Auto
Radiance Multi-Rate Line Card
9
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Loopback (LBCK) Switch
Loopback is enabled independently on each port. When loopback is
enabled, the port’s transmitter is connected to its receiver, thus return-
ing incoming data back to the sender. Use LBCK1 to set loopback on
Port 1, and LBCK2 for Port 2. By default, LBCK is disabled (DOWN
position) for normal data transmission from one port to the other.
Refer to Loopback in the User Guide section for further details.
Link Loss Carry Forward (LLCF) Switch
Link Loss Carry Forward is provided as an aid in troubleshooting
remote connections. If the card loses link on one of its receivers, LLCF
will inhibit the transmission of link pulses out the opposite port. LLCF
applies to both ports.
For example, if LLCF is enabled and the multi-rate line card fails to
detect link on Port 2, the card will not transmit link pulses from Port 1.
In doing this, LLCF provides a way to extend the link loss indication
beyond a single segment.
LLCF is enabled when the LLCF switch is in the UP position. The unit
is shipped with LLCF disabled. For more information, refer to Link
Loss Carry Forward in the User Guide section.
Link Loss Return (LLR) Switch
The multi-rate line card offers Link Loss Return functionality as an
additional aid in troubleshooting remote connections. When LLR is
enabled on a port, loss of link by the port’s receiver stops its own
transmitter from sending out link pulses. LLR is enabled independently
on each port.
LLR1 enables/disables Link Loss Return on Port 1. LLR2 enables/
disables the function on Port 2 of the multi-rate line card. To enable
Link Loss Return, set the switch to the UP position. Set the switch
DOWN to disable the LLR. The unit is shipped with LLR disabled.
For more information, refer to Link Loss Return.
10
Installation Guide
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Install the SFP Optics
The R380 line card requires two small form-factor pluggable (SFP)
optics. Optics are shipped separately. The table below lists the recom-
mended optics to use based on the network protocol and fiber type.
3
Recommended SFP Optics
Fiber Type
Protocol
Multimode Singlemode
BWDM
CWDM
DS-3
0280-M2
0280-M2
O283-20
O283-20
O483-80-xx
O483-80-xx
OC-1 / STM-0
O281-40
O281-80
0283-20
Fast Ethernet /
FDDI
O383-20-31
O383-20-55
0280-M2
0280-M2
O483-80-xx
O483-80-xx
O281-40
O281-80
0283-20
O383-20-31
O383-20-55
OC-3 / STM-1
O293-20
O2A3-10
O413-40-xx
O413-80-xx
ESCON
O292-M5
O292-M5
O293-20
O2A3-10
O413-40-xx
O413-80-xx
OC-12 / STM-4
O211-xx
O2A3-10
O311-10-31
O311-10-49
O413-40-xx
O413-80-xx
Fibre Channel 1X 0211-M5
O211-xx
O2A3-10
O221-10
O411-80-xx
O413-40-xx
O413-80-xx
O311-10-31
O311-10-49
Gigabit Ethernet
0211-M5
O413-40-xx
O413-80-xx
Fibre Channel 2X 0221-M5
OC-48 / STM-16
O221-10
O2A3-10
O413-40-xx
O413-80-xx
Before installing the SFP module, make sure the bail latch is closed, as
shown below. Do NOT open the bail.
CLOSED
BAIL LATCH
POSITION
DO NOT
OPEN
BAIL LATCH
SFP
SFP
To install the optics, align the SFP module so the receiver (▲) is
positioned above the transmitter (▲). For a BWDM module, align it so
the visible part of the circuit board located at the back of the module is
to the right. Slide the module into the empty slot. Push the SFP firmly
in place. Remove the protective covering on the connector.
Radiance Multi-Rate Line Card
11
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MULTIRATE
PWR
SD
RX
1
LB
TX
BP
SD
RX
2
LB
BP
TX
RX
TX
IMPORTANT: The multi-rate line card is designed and tested to
operate using only Metrobility-supplied SFP transceivers. Safety,
performance, and reliability are guaranteed only when Metrobility-
supplied transceivers are used. Installing unspecified parts may
damage the product and will void the unit’s warranty.
Install the Line Card
The Radiance R380 offers the ease of plug-and-play installation and is
hot-swappable. The card must be secured firmly to the chassis before
making network connections. Follow the simple steps outlined below to
install the multi-rate line card.
• Grasp the card by the front panel as shown.
Slot for Management Card
Card Guide
10/100
PWR
10/100
PWR
10/100
PWR
1000BASE
PWR
1000BASE
PWR
OC-12
PWR
10/100
PWR
10/100
PWR
MGT-10
FL
FL
FL
LK
AT
100
FD
RX
100
FD
RX
1
SX
SX
RX
LK
TX
LK
LK
R
X
LK
RX
LK
TX
RX
LK
TX
T
X
T
X
M
M
M
M
M
M
M
M
M
M
M
M
LK
TX
LK
TX
T
X
x
II
x
II
LX
x
II
x
II
PWR
LK
LX
LK
RX
LK
TX
RX
LK
TX
RX
LK
TX
R
X
LK
R
X
RX
LK
TX
RX
LK
TX
A
B
C
O
N
S
O
L
M
M
S
M
S
M
S
M
M
M
M
M
T
X
T
X
T
X
T
X
R
E
100
FD
100
FD
FX
FX
FX
ER
IMPORTANT!
Tighten thumb screw
Thumb Screw
Card Guide
to secure each card firmly
to chassis before making
network connections.
Blank Panel
12
Installation Guide
• Insert the card into a slot on the chassis making sure that the top and
bottom edges of the circuit board are aligned with the top and bottom
card guides in the chassis. Do not force the card into the chassis
unnecessarily. It should slide in easily and evenly.
• Slide the card in until the top and bottom edges of the front panel are
flush and even with the top and bottom edges of the chassis.
• Turn the thumbscrew clockwise until it is snug to secure the card to
the chassis. The card is now properly installed and ready for
connection to the network.
Connect to the Network
To connect the line card to the network, insert the fiber cables into the
appropriate connectors as illustrated below. Make sure the card is
secured to the chassis before making network connections. Once power
is applied to the unit, correct connectivity can be verified via the signal
detect (SD) LED, which should be lit.
5
100 BASE 100 BASE
100 BASE
redundant twister
1000 BASE
100 BASE
redundant twister
MULTIRATE 1000 BASE
100 BASE
redundant twister
“
“
“
PWR
PWR
PWR
SW
RESET
R
MAIN
PWR
MAIN
PWR
MAIN
PWR
LK
AT
X
LK
AT
LK
AT
LK
AT
LK
AT
LK
LK
M
M
M
LK
AT
SW
SW
A
SW
AT
1
2
T
I
RESET
RESET
AT
RESET
X
N
SECONDARY
PRIMARY
SECONDARY
PRIMARY
SECONDARY
PRIMARY
P
R
I
LK
AT
R
X
LK
AT
LK
AT
LK
AT
LK
AT
LK
AT
LK
AT
R
X
R
X
R
X
R
R
X
R
SD
AT
LK
AT
X
X
S
LK
AT
M
S
E
C
T
T
T
T
T
T
T
X
X
X
X
X
X
X
AT
SEC
Radiance Multi-Rate Line Card
13
LK
Model #
Fiber Type
Max Distance
O211-40 ........................... singlemode ...................................40 km
O211-70 ........................... singlemode ...................................70 km
O211-1A........................... singlemode .................................100 km
O221-M5 .......................... multimode ....................................500 m
O221-10 ........................... singlemode ...................................10 km
O280-M2 .......................... multimode ......................................2 km
O281-40 ........................... singlemode ...................................40 km
O281-80 ........................... singlemode ...................................80 km
O283-20 ........................... singlemode ...................................20 km
O292-M5 .......................... multimode ....................................500 m
O293-20 ........................... singlemode ...................................20 km
O2A3-10 .......................... singlemode ...................................10 km
O311-10-xx ...................... singlemode ...................................10 km
O383-20-xx ...................... singlemode ...................................20 km
O411-80-xx ...................... singlemode ...................................80 km
O413-40-xx ...................... singlemode ...................................40 km
O413-80-xx ...................... singlemode ...................................80 km
O483-80-xx ...................... singlemode ...................................80 km
For more information about optics, refer to Technical Specifications.
IMPORTANT: The distances noted are for reference purposes only.
The most important factor to achieve the desired distance is the optical
power budget. Metrobility specifications indicate the typical transmit
power budget. The actual distance is a function of the fiber type and
quality, the number and quality of splices, the type and quality of
connectors, the transmission loss, and other physical characteristics.
When making fiber optic connections, make sure that the optical
transmitter (TX) on the Radiance multi-rate line card connects to the
optical receiver on the connected device, and that the optical transmitter
on the device connects to the optical receiver (RX) on the Radiance card.
Use the SD LEDs on the front panel of the card to verify correct
segment connectivity. As you insert the cable into each port, the SD
LED will be lit if the following conditions are met:
•
•
•
Power is being applied to the chassis.
All connections are secure and the cables are undamaged.
There is an active device connected to the other end of the
cable, and it is sending idle signals.
14
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•
The port’s receiver detects the presence of optical power and
the port’s CDR circuitry has locked onto the incoming signal.
For information on replacing the SFP transceiver, refer to Changing the
SFP Optics.
BWDM Interface
The bidirectional wavelength division multiplexed (BWDM) trans-
ceiver provides one singlemode SC connector. The O311-10-xx
supports a maximum segment length of 10 km; the O383-20-xx
supports a maximum segment length of 20 km. BWDM transceivers
must always be used in complementary pairs. That is, the O311-10-31
must be connected to the O311-10-49, and the O383-20-31 must be
connected to the O383-20-55.
The O311-10-31 transmits data at a wavelength of 1310 nm and
receives at 1490 nm. Correspondingly, the O311-10-49 transmits at
1490 nm and receives at 1310 nm. The O383-20-31 transmits at 1310
nm and receives at 1550 nm; the O383-20-55 transmits at 1550 nm and
receives at 1310 nm.
R380 with
R380 with
O311-10-31
O311-10-49
MULTIRATE
MULTIRATE
PWR
PWR
LK
LK
RX
RX
1
1
AT
AT
TX
TX
BP
BP
SD
SD
TX 1310 nm
RX 1490 nm
TX 1490 nm
RX 1310 nm
RX
RX
2
2
AT
TX
up to 10 km
MULTIRATE
MULTIRATE
PWR
PWR
LK
LK
RX
RX
1
1
AT
AT
TX
TX
BP
BP
SD
SD
TX 1310 nm
RX 1550 nm
TX 1550 nm
RX 1310 nm
RX
RX
2
2
AT
TX
R380 with
R380 with
O383-20-31
O383-20-55
up to 20 km
Radiance Multi-Rate Line Card
15
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User Guide
This section contains information regarding the operating features of the
Radiance multi-rate line card.
LED Operation
Several LEDs are visible on the front panel. These include the power (PWR),
signal detect (SD), loopback (LB), and bypass (BP) LEDs. There are separate
signal detect, loopback, and bypass LEDs for each port. Refer to the table below
for a description of each LED.
The function of each LED is as follows:
LED
Label
Color /
Status
LED Name
Indication
Green
Power is being supplied to the unit.
Unit is not receiving power.
PWR
Power
OFF
Port detects an optical signal and is
locked onto it.
Green
Signal
Detect /
Lock Detect
Port detects an optical signal, but
cannot lock onto it.
SD
Yellow
OFF
Port does not detect any optical
signal, or there is no SFP installed.
Port is in loopback mode. Port's
transmitter is connected to its own
receiver.
Green
OFF
LB
BP
Loopback
Normal operation. Port's transmitter
is connected to other port's receiver.
Port's CDR circuitry is being
bypassed.
Green
OFF
CDR Bypass
Port's CDR is active.
MULTIRATE
PWR
Power LED
SD
Signal Detect LED
Loopback LED
Bypass LED
RX
1
LB
BP
Port 1
Port 2
TX
SD
Signal Detect LED
Loopback LED
Bypass LED
RX
2
LB
BP
TX
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SFP Monitors
Advanced management capabilities on the Radiance multi-rate line card enables
the monitoring of the following parameters for each SFP port transceiver with
digital diagnostics.
• Optical transmit power in dBm
• Optical receive power in dBm
• SFP transceiver’s internal temperature (range is -40° to +125° C)
These monitors can assist in ensuring optimal performance and system stability.
The SFP optics also provide useful information about the port interface.
• Connector type (e.g., LC or SC)
• Wavelength in nanometers
• Link length in meters supported by the SFP transceiver
* Refer to the Command Line Interface Reference Guide, NetBeacon Element Management Software Installation &
User Guide or WebBeacon Management Software Installation & User Guide for software management information.
Radiance Multi-Rate Line Card
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Loopback
The Radiance multi-rate line card features loopback testing capability to help
verify proper operation and to isolate problems within a particular segment of
the network. During loopback, the LBK LED is yellow. Loopback is enabled/
disabled in two ways: (1) setting the LBCK DIP switch(es), or (2) through
software by enabling loopback on Port 1 and/or 2. Once loopback is enabled, the
card remains in this mode until you reset the DIP switch or change the software
setting.
Normal Operation
During normal operation (loopback disabled), data from a local device enters the
local multi-rate line card through Port 1, passes through the fiber line between
the two cards, exits through Port 1 on the remote multi-rate line card, then enters
the remote device. The path is reversed for incoming data to the local device.
Remote
Device
Remote Multi-Rate
Line Card
Local Multi-Rate
Line Card
Local
Device
Port
2
Port
1
Port
1
Port
2
Local Port Loopback
Loopback can be applied individually to either port on a multi-rate line card.
The following diagrams illustrate the flow of data when loopback is enabled
independently on Port 1 and on Port 2.
Remote
Device
Remote Multi-Rate
Line Card
Local Multi-Rate
Line Card
Local
Device
Port
1
Port
2
Port
2
Port
1
Remote
Device
Remote Multi-Rate
Line Card
Local Multi-Rate
Line Card
Local
Device
Port
2
Port
2
Port
1
Port
1
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Dual-Port Loopback
In this mode, data on both ports of the multi-rate line card are looped back to
their sending devices. Dual-port loopback is configurable through hardware or
software by enabling loopback on Port 1 and Port 2 simultaneously.
Remote
Device
Remote Multi-Rate
Line Card
Local Multi-Rate
Line Card
Local
Device
Port
1
Port
2
Port
2
Port
1
Radiance Multi-Rate Line Card
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Link Loss Return
Both ports on the Radiance multi-rate interface line card are designed with Link
Loss Return functionality for troubleshooting remote connections. When LLR is
enabled*, the port’s transmitter shuts down if its receiver fails to detect a valid
link signal. LLR should only be enabled on one end of a cable and is typically
enabled on either the unmanaged or remote device. LLR works in conjunction
with LLCF.
The diagram below shows a typical network configuration with good link status
using two Radiance multi-rate line cards for remote connectivity. Note that LLR
and LLCF are enabled as indicated in the diagram.
Multi-Rate
Line Card A
Management Switch/Hub
Switch/Hub Remote
w/SNMP Station
Multi-Rate
Line Card B
Station
w/SNMP
LLCF is ON
LLR1 is ON
LLR2 is OFF
LLCF is ON
LLR2 is ON
LLR1 is OFF
Remote
Cable
Port 1 Port 2
Port 2 Port 1
LED lit = established link
LED unlit = no link
If a connection breaks, the line cards will carry that link loss forward to a
switch/hub which generates a trap to the management station. The network
administrator can then determine the source of the problem.
Management
Station
Switch/Hub
w/SNMP
Switch/Hub Remote
w/SNMP Station
Multi-Rate
Line Card B
LLCF is ON
LLR2 is ON
LLR1 is OFF
Multi-Rate
Line Card A
LLCF is ON
LLR1 is ON
LLR2 is OFF
Broken
Conductor
Port 1
Link Loss Carried Forward
Port 1
Link Loss Carried Forward
Link Loss Returned
LED lit = established link
LED unlit = no link
IMPORTANT:
20
User Guide
Link Loss Carry Forward
The Radiance multi-rate line card incorporates LLCF to assist in troubleshooting
a remote connection. When LLCF is enabled*, the ports do not transmit a signal
until they receive a signal from the opposite port. When a lost link signal is
returned to an unmanaged line card, that lost link must then be carried forward
to a managed device (switch/hub) for trap generation.
The diagram below shows a typical network configuration with good link status
using two Radiance multi-rate line cards for remote connectivity. Note that
LLCF is enabled as indicated in the diagram.
Management Switch/Hub
Station w/SNMP
Switch/Hub Management
w/SNMP Station
Multi-Rate
Line Card
Multi-Rate
Line Card
LLCF is ON
LLCF is ON
Remote
Cable
LED lit = established link
LED unlit = no link
If a connection breaks, the line cards will carry that link loss forward to a
switch/hub which generates a trap to the management station. The network
administrator can then determine the source of the problem.
Management Switch/Hub
Station w/SNMP
Multi-Rate
Line Card
Switch/Hub Management
w/SNMP Station
Multi-Rate
Line Card
LLCF is ON
LLCF is ON
Broken
Remote
Cable
Link Loss Carried Forward
Link Loss Carried Forward
LED lit = established link LED unlit = no link
Management Switch/Hub
Station w/SNMP
Multi-Rate
Line Card
Multi-Rate
Line Card
Switch/Hub Management
w/SNMP Station
LLCF is ON
LLCF is ON
Remote
Cable
Broken
Cable
Link Loss Carried Forward
LED unlit = no link
LED lit = established link
NOTE: Loopback takes precedence over LLCF. If LLCF and loopback are both
enabled, LLCF functionality will be ignored for the port that is in loopback.
LLCF will remain in effect for the port that is not in loopback.
*Units are shipped with the LLCF disabled (DOWN).
Radiance Multi-Rate Line Card
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Topology Solutions
Servers
Switch
PC running Network
Management Software
Radiance R5000 Central
Service Platform with
Multi-Rate Line Cards
Workgroup Hub
remote connection
Switch
Enterprise Switch
Enterprise
Copper Links
Fiber Optic Links
Coarse Wavelength Division Multiplexing (CWDM)
Using the CWDM optics, the multi-rate line cards can be integrated into a
Radiance CWDM system, in which a single fiber pair carries data bidirectionally
on multiple wavelengths. In the following examples, each colored line repre-
sents a different wavelength. The network connections are shown in gray with
the magnification circles displaying the wavelengths carried on the lines.
Connections to the end user are shown in dark gray.
POINT TO POINT TOPOLOGY
Radiance R4000
with 8-Channel CWDM
Mux/Demux Modules
Radiance R4000
with 8-Channel CWDM
Mux/Demux Modules
Radiance R5000
with R380 Line Cards
Radiance R5000
with R380
Line Cards
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RING TOPOLOGY
Radiance R4000
with 4-Channel
CWDM Mux/Demux
Modules
Radiance R5000
with R380 Line Cards
Central
Office
Radiance R1000
with R380
Line Cards
Radiance R4000
with OADM Modules
Radiance R4000
with OADM Modules
Drop & Pass
Drop & Insert
Drop & Pass
Radiance R1000
with R380
Line Card
Radiance R1000
with R380
Line Card
Radiance R4000
with OADM Modules
Radiance R4000
with OADM Modules
Drop & Pass
Drop & Insert
Radiance R1000
with R380 Line Card
Radiance R1000
with R380 Line Cards
Radiance Multi-Rate Line Card
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Changing the SFP Optics
The multi-rate line card supports two replaceable small form-factor pluggable
(SFP) transceivers. This section explains how to remove and install the optics on
the card. Metrobility SFP transceivers are hot-swappable.
IMPORTANT: Use only Metrobility-supplied SFP transceivers with this
product. Installing any other optics may damage the unit and will void the
product’s warranty.
1. Disconnect the fiber optic network cables, if they are installed, from both
the receiver (RX) and transmitter (TX) of the SFP transceiver.
WARNING: Avoid looking into the laser or cable.
2. To remove the SFP optics from the multi-rate line card, simply pull open the
release mechanism (i.e., plastic tab, release wire, etc.) and slide the module
out of the slot, as shown below, left.
MULTIRATE MULTIRATE
100 BASE
1000 BASE
MULTIRATE
MULTIRATE
MULTIRATE
“
redundant twister
PWR
PWR
PWR
PWR
PWR
PWR
MAIN
PWR
RESET
SD
LB
SD
LB
SD
SD
SD
LK
AT
RX
RX
1
RX
RX
RX
M
LK
AT
SW
A
I
1
1
1
1
RESET
LB
LB
LB
TX
N
TX
TX
TX
TX
SECONDARY
PRIMARY
BP
SD
BP
SD
P
R
I
BP
BP
BP
LK
AT
LK
AT
LK
AT
R
X
R
X
SD
SD
SD
RX
RX
2
RX
RX
RX
S
E
C
T
T
2
TX
X
X
LK
AT
2
2
2
LB
BP
LB
BP
LB
LB
TX
LB
TX
TX
TX
BP
BP
BP
SEC
SW
CIRCUIT
BOARD
RELEASE
MEHCANISM
BWDM SFP
3. Align the new SFP module so the receiver (▲) is positioned above the
transmitter (▲). For a BWDM SFP, align it so the visible part of the circuit
board located at the back of the module is to the right.
4. Keeping the release mechanism in the closed position (bail latch should be
locked in place), slide the new SFP into the slot and push it firmly in place.
5. Remove the protective dust cover on the LC or SC connector.
6. Reconnect the network cables. Verify proper segment connectivity via the
green LK LED, which will be lit.
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Technical Specifications
Data Rate ____________________ 44.7 Mbps to 2.7 Gbps, depending on optics
Power Requirements _______________________________ 5 V DC @ 1 A, 5 W
Environmental
Operating Temperature _____________________________________ 0 to 50° C
Storage Temperature _____________________________________ -30 to 70° C
Operating Humidity _________________________ 5% to 95% non-condensing
Weight_______________________________________________ 5 oz (0.14 kg)
Multimode Fiber Optic Plug-in (O211-M5)
Connector _____________________________________________________LC
Wavelength ________________________________________________ 850 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ____-19 dBm (min); -22 dBm (typical); 0 dBm (saturation)
Output Power ______________________-9 dBm to -3.5 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 16 dB
Supported Link Length ___________________________________ up to 500 m
Cable Type __________________________ 50/125 or 62.5/125 µm multimode
Multimode Fiber Optic Plug-in (O221-M5)
Connector _____________________________________________________LC
Wavelength ________________________________________________ 850 nm
Data Rate ___________________________________ 1.06 Gbps to 2.125 Gbps
RX Input Sensitivity ____-18 dBm (min); -22 dBm (typical); 0 dBm (saturation)
Output Power _______________________ -9 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 16 dB
Supported Link Length ___________________________________ up to 500 m
Cable Type __________________________ 50/125 or 62.5/125 µm multimode
Multimode Fiber Optic Plug-in (O280-M2)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate _____________________________________ 45 Mbps to 155 Mbps
RX Input Sensitivity __ -32 dBm (min); -34 dBm (typical); -14 dBm (saturation)
Output Power ____________________ -19 dBm to -14 dBm; -17 dBm (typical)
Typical Link Budget __________________________________________ 17 dB
Supported Link Length ____________________________________ up to 2 km
Cable Type __________________________ 50/125 or 62.5/125 µm multimode
Radiance Multi-Rate Line Card
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Multimode Fiber Optic Plug-in (O292-M5)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate _____________________________________ 50 Mbps to 700 Mbps
RX Input Sensitivity __ -26 dBm (min); -28 dBm (typical); -14 dBm (saturation)
Output Power ____________________ -20 dBm to -14 dBm; -18 dBm (typical)
Typical Link Budget __________________________________________ 10 dB
Supported Link Length _________ up to 500 m @ 622 Mbps, 2 km @ 156 Mbps
Cable Type __________________________ 50/125 or 62.5/125 µm multimode
Singlemode Fiber Optic Plug-in (O311-10-49) for BWDM
Connector _____________________________________________________ SC
TX Wavelength ____________________________________________ 1490 nm
RX Wavelength____________________________________________ 1310 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -22 dBm (min); -24 dBm (typical); -3 dBm (saturation)
Output Power _______________________ -9 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 18 dB
Supported Link Length ___________________________________ up to 10 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O311-10-31) for BWDM
Connector _____________________________________________________ SC
TX Wavelength ____________________________________________ 1310 nm
RX Wavelength____________________________________________ 1490 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -22 dBm (min); -24 dBm (typical); -3 dBm (saturation)
Output Power _______________________ -9 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 18 dB
Supported Link Length ___________________________________ up to 10 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O383-20-31) for BWDM
Connector _____________________________________________________ SC
TX Wavelength ____________________________________________ 1310 nm
RX Wavelength____________________________________________ 1550 nm
Data Rate _____________________________________ 10 Mbps to 155 Mbps
RX Input Sensitivity ___ -28 dBm (min); -30 dBm (typical); -8 dBm (saturation)
Output Power _____________________ -14 dBm to -8 dBm; -11 dBm (typical)
Typical Link Budget __________________________________________ 19 dB
Supported Link Length ___________________________________ up to 20 km
Cable Type _____________________________________ 9/125 µm singlemode
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Singlemode Fiber Optic Plug-in (O383-20-55) for BWDM
Connector _____________________________________________________ SC
TX Wavelength ____________________________________________ 1550 nm
RX Wavelength____________________________________________ 1310 nm
Data Rate _____________________________________ 10 Mbps to 155 Mbps
RX Input Sensitivity ___ -28 dBm (min); -30 dBm (typical); -8 dBm (saturation)
Output Power _____________________ -14 dBm to -8 dBm; -11 dBm (typical)
Typical Link Budget __________________________________________ 19 dB
Supported Link Length ___________________________________ up to 20 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O211-10)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -20 dBm (min); -23 dBm (typical); -3 dBm (saturation)
Output Power ______________________-9.5 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 17 dB
Supported Link Length ___________________________________ up to 10 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O211-25)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ____________________ -21 dBm (min), -23 dBm (typical)
Output Power _________________________ 0 dBm to 5 dBm; 2 dBm (typical)
Typical Link Budget __________________________________________ 25 dB
Supported Link Length ___________________________________ up to 25 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O211-40)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1550 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -24 dBm (min); -26 dBm (typical); -3 dBm (saturation)
Output Power ______________________ -5 dBm to 0 dBm; -2.5 dBm (typical)
Typical Link Budget _________________________________________ 23.5 dB
Supported Link Length ___________________________________ up to 40 km
Cable Type _____________________________________ 9/125 µm singlemode
Radiance Multi-Rate Line Card
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Singlemode Fiber Optic Plug-in (O211-70)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1550 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -24 dBm (min); -26 dBm (typical); -3 dBm (saturation)
Output Power _________________________ 0 dBm to 5 dBm; 2 dBm (typical)
Typical Link Budget __________________________________________ 28 dB
Supported Link Length ___________________________________ up to 70 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O211-1A)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1550 nm
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ___ -32 dBm (min); -34 dBm (typical); -3 dBm (saturation)
Output Power _________________________ 0 dBm to 5 dBm; 2 dBm (typical)
Typical Link Budget __________________________________________ 36 dB
Supported Link Length __________________________________ up to 100 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O221-10)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ___________________________________ 1.06 Gbps to 2.125 Gbps
RX Input Sensitivity ____-21 dBm (min); -23 dBm (typical); 0 dBm (saturation)
Output Power ______________________-9.5 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 17 dB
Supported Link Length ___________________________________ up to 10 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O281-40)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ____________________________________ 125 Mbps to 155 Mbps
RX Input Sensitivity __ -34 dBm (min); -36 dBm (typical); -10 dBm (saturation)
Output Power ______________________ -5 dBm to 0 dBm; -2.5 dBm (typical)
Typical Link Budget _________________________________________ 33.5 dB
Supported Link Length ___________________________________ up to 40 km
Cable Type _____________________________________ 9/125 µm singlemode
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Singlemode Fiber Optic Plug-in (O281-80)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1550 nm
Data Rate ____________________________________ 125 Mbps to 155 Mbps
RX Input Sensitivity __ -34 dBm (min); -36 dBm (typical); -10 dBm (saturation)
Output Power ______________________ -5 dBm to 0 dBm; -2.5 dBm (typical)
Typical Link Budget _________________________________________ 33.5 dB
Supported Link Length ___________________________________ up to 80 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O283-20)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate _____________________________________ 45 Mbps to 155 Mbps
RX Input Sensitivity ___ -28 dBm (min); -32 dBm (typical); -8 dBm (saturation)
Output Power ____________________ -15 dBm to -8 dBm; -11.5 dBm (typical)
Typical Link Budget _________________________________________ 20.5 dB
Supported Link Length ___________________________________ up to 20 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O293-20)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ____________________________________ 125 Mbps to 622 Mbps
RX Input Sensitivity _ -28 dBm (min); -30.5 dBm (typical); -8 dBm (saturation)
Output Power ____________________ -15 dBm to -8 dBm; -11.5 dBm (typical)
Typical Link Budget __________________________________________ 19 dB
Supported Link Length ___________________________________ up to 20 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O2A3-10)
Connector _____________________________________________________LC
Wavelength _______________________________________________ 1310 nm
Data Rate ____________________________________ 155 Mbps to 2.67 Gbps
RX Input Sensitivity ____-20 dBm (min); -22 dBm (typical); 0 dBm (saturation)
Output Power ______________________ -10 dBm to -3 dBm; -6 dBm (typical)
Typical Link Budget __________________________________________ 16 dB
Supported Link Length ___________________________________ up to 10 km
Cable Type _____________________________________ 9/125 µm singlemode
Radiance Multi-Rate Line Card
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Singlemode Fiber Optic Plug-in (O411-80-31 to -45) for CWDM
Connector _____________________________________________________LC
Wavelength __________________________________ (see tables on next page)
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ____-24 dBm (min); -26 dBm (typical); 0 dBm (saturation)
Output Power _________________________ 0 dBm to 5 dBm; 2 dBm (typical)
Typical Link Budget __________________________________________ 28 dB
Supported Link Length ___________________________________ up to 80 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O411-80-47 to -61) for CWDM
Connector _____________________________________________________LC
Wavelength __________________________________ (see tables on next page)
Data Rate ____________________________________ 1.06 Gbps to 1.25 Gbps
RX Input Sensitivity ____-23 dBm (min); -25 dBm (typical); 0 dBm (saturation)
Output Power _________________________ 0 dBm to 5 dBm; 2 dBm (typical)
Typical Link Budget __________________________________________ 27 dB
Supported Link Length ___________________________________ up to 80 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O413-40-xx) for CWDM
Connector _____________________________________________________LC
Wavelength __________________________________ (see tables on next page)
Data Rate _____________________________________ 155 Mbps to 2.7 Gbps
RX Input Sensitivity ____-20 dBm (min); -22 dBm (typical); 0 dBm (saturation)
Output Power _____________________ 0 dBm to +4 dBm; +1.5 dBm (typical)
Typical Link Budget _________________________________________ 23.5 dB
Supported Link Length ___________________________________ up to 40 km
Cable Type _____________________________________ 9/125 µm singlemode
Singlemode Fiber Optic Plug-in (O413-80-xx) for CWDM
Connector _____________________________________________________LC
Wavelength __________________________________ (see tables on next page)
Data Rate _____________________________________ 155 Mbps to 2.7 Gbps
RX Input Sensitivity ___ -30 dBm (min); -32 dBm (typical); -8 dBm (saturation)
Output Power _____________________ 0 dBm to +4 dBm; +1.5 dBm (typical)
Typical Link Budget _________________________________________ 33.5 dB
Supported Link Length ___________________________________ up to 80 km
Cable Type _____________________________________ 9/125 µm singlemode
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Singlemode Fiber Optic Plug-in (O483-80-xx) for CWDM
Connector _____________________________________________________LC
Wavelength ________________________________________ (see tables below)
Data Rate _____________________________________ 45 Mbps to 155 Mbps
RX Input Sensitivity ___ -34 dBm (min); -36 dBm (typical); -3 dBm (saturation)
Output Power ________________________ -5 dBm to 0 dBm; -3 dBm (typical)
Typical Link Budget __________________________________________ 33 dB
Supported Link Length ___________________________________ up to 80 km
Cable Type _____________________________________ 9/125 µm singlemode
CWDM Optics Wavelengths
Model
Wavelength
Model Numbers
Wavelength
Number
O411-80-47, O413-40-47,
O413-80-47, O483-80-47
O411-80-31
1310 nm
1330 nm
1350 nm
1370 nm
1390 nm
1410 nm
1430 nm
1450 nm
1470 nm
1490 nm
1510 nm
1530 nm
1550 nm
1570 nm
1590 nm
1610 nm
O411-80-49, O413-40-49,
O413-80-49, O483-80-49
O411-80-33
O411-80-35
O411-80-37
O411-80-39
O411-80-41
O411-80-43
O411-80-45
O411-80-51, O413-40-51,
O413-80-51, O483-80-51
O411-80-53, O413-40-53,
O413-80-53, O483-80-53
O411-80-55, O413-40-55,
O413-80-55, O483-80-55
O411-80-57, O413-40-57,
O413-80-57, O483-80-57
O411-80-59, O413-40-59,
O413-80-59, O483-80-59
O411-80-61, O413-40-61,
O413-80-61, O483-80-61
Radiance Multi-Rate Line Card
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Acronyms and Abbreviations
BP
BWDM Bidirectional Wavelength Division Multiplexing
CDR Clock and Data Recovery
Bypass
CDRB Clock and Data Recovery Bypass
CWDM Coarse Wavelength Division Multiplexing
dB
Decibel
dBm
DS
Decibels relative to 1 mW of power (0 dBm equals 1 mW)
Digital Signal
ESCON Enterprise Systems Connection
FC
Fibre Channel
FEC
Forward Error Correction
FDDI Fiber-Distributed Data Interface
Gbps Gigabits per second
GigE Gigabit Ethernet
km
LB
Kilometer
Loopback
LBCK Loopback
LED
Light emitting diode
LLCF Link Loss Carry Forward
LLR
Link Loss Return
Mbps Megabits per second
MSA Multi-Source Agreement
nm
OC
Nanometer
Optical Carrier
PWR Power
RX
SD
Receive
Signal Detect
SFP
Small Form-Factor Pluggable
TDM Time-Division Multiplexing
TX
Transmit
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Product Safety, EMC and Compliance Statements
This equipment complies with the following requirements:
• UL
• CB
• CSA
• EN60950 (safety)
• FCC Part 15, Class A
• EN55022 Class A (emissions)
• ICES-003 Class A (emissions)
• EN55024: 1998 (immunity)
• IEC 825-1 Classification
• Class 1 Laser Product
• NEBS Level III
This product shall be handled, stored and disposed of in accordance with all
governing and applicable safety and environmental regulatory agency requirements.
The following FCC and Industry Canada compliance information is applicable
to North American customers only.
USA FCC Radio Frequency Interference Statement
This equipment has been tested and found to comply with the limits for a Class
A digital device, pursuant to Part 15 of the FCC Rules. These limits are de-
signed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates,
uses and can radiate radio frequency energy, and if not installed and used in
accordance with the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to
cause harmful interference in which case the user will be required to correct the
interference at his own expense.
Caution: Changes or modifications to this equipment not expressly approved by
the party responsible for compliance could void the user’s authority to operate
the equipment.
Canadian Radio Frequency Interference Statement
This Class A digital apparatus meets all requirements of the Canadian Interfer-
ence-Causing Equipment Regulations.
Cet appareil numérique de la classe A respecte toutes les exigences du
Réglement sur le matériel brouilleur du Canada.
Radiance Multi-Rate Line Card
33
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Warranty and Servicing
Three-Year Warranty for the Radiance Multi-Rate Line Card
Metrobility Optical Systems, Inc. warrants that every Radiance multi-rate line
card will be free from defects in material and workmanship for a period of
THREE YEARS from the date of Metrobility shipment. This warranty covers
the original user only and is not transferable. Should the unit fail at any time
during this warranty period, Metrobility will, at its sole discretion, replace,
repair, or refund the purchase price of the product. This warranty is limited to
defects in workmanship and materials and does not cover damage from accident,
acts of God, neglect, contamination, misuse or abnormal conditions of operation
or handling, including overvoltage failures caused by use outside of the
product’s specified rating, or normal wear and tear of mechanical components.
To establish original ownership and provide date of purchase, complete and
return the registration card or register the product online at
www.metrobility.com. If product was not purchased directly from Metrobility,
please provide source, invoice number and date of purchase.
To return a defective product for warranty coverage, contact Metrobility
Customer Service for a return materials authorization (RMA) number. Send the
defective product postage and insurance prepaid to the address provided to you
by the Metrobility Technical Support Representative. Failure to properly protect
the product during shipping may void this warranty. The Metrobility RMA
number must be clearly on the outside of the carton to ensure its acceptance.
Metrobility will pay return transportation for product repaired or replaced in-
warranty. Before making any repair not covered by the warranty, Metrobility
will estimate cost and obtain authorization, then invoice for repair and return
transportation. Metrobility reserves the right to charge for all testing and
shipping costs incurred, if test results determine that the unit is without defect.
This warranty constitutes the buyer’s sole remedy. No other warranties, such as
fitness for a particular purpose, are expressed or implied. Under no circum-
stances will Metrobility be liable for any damages incurred by the use of this
product including, but not limited to, lost profits, lost savings, and incidental or
consequential damages arising from the use of, or inability to use, this product.
Authorized resellers are not authorized to extend any other warranty on
Metrobility’s behalf.
34
User Guide
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ADDITIONAL IMPORTANT WARRANTY INFORMATION:
The Radiance multi-rate line card is designed to operate using only the
Metrobility-supplied small form-factor pluggable (SFP) transceivers specified in
this manual. The use and installation of parts not included in this document will
void the product’s warranty and may cause damage to the unit.
Radiance Multi-Rate Line Card
35
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Product Manuals
The most recent version of this manual is available online at
Product Registration
To register your product, go to
25 Manchester Street, Merrimack, NH 03054 USA
tel: 1.603.880.1833 • fax: 1.603.594.2887
5660-000050 G
6/06
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