METRObility Optical Systems Radiance R231-15, Radiance R231-1J, Radiance R231-16, Radiance R231-17, Radiance R231-47 Installation And User Manual

Installation & User Guide

Models:R231-13 / R231-14 / R231-15 / R231-16 / R231-17 / R231-1J /

R231-1X / R231-1Y / R231-47 / R231-49 / R231-51 / R231-53 /

R231-55 / R231-57 / R231-59 / R231-61

RADIANCE

ACCESS LINE CARDS

RX

LK

FX

S
M

LK

RX

100 BASE

RX

LK

FX

RX

LK

T
X

100 BASE

RX

LK

FX

S
M

RX

LK

T
X

100 BASE

T
X

T
X

MAN FD PWR

MAN FD PWR

MAN FD PWR

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LBK

FX

MAN FD PWR

RX

LK

100 BASE

LBK

RX

T
X

LBK

LBK

LBK

LBK

LBK

LBK

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II

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II

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II

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DIS

DIS

DIS

DIS

DIS

DIS

DIS

DIS

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X

LK

LBK

FX

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RX

LK

100 BASE

LBK

RX

T
X

II

x

DIS

DIS

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LK

LBK

CWDM

MAN FD PWR

RX

LK

100 BASE

LBK

RX

T
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II

x

DIS

DIS

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R
X

T
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TX 1470 RX

This publication is protected by the copyright laws of the United States and other countries, with all rights reserved. No
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.

© 2001-2004 Metrobility Optical Systems, Inc. All rights reserved. Printed in USA.

Radiance Access Line Cards

100Mbps Copper to Fiber:

R231-13 ____ RJ-45 to FX multimode SC
R231-14 ____ RJ-45 to FX singlemode SC with diagnostics
R231-15 ____ RJ-45 to FX multimode ST
R231-16 ____ RJ-45 to FX singlemode ST with diagnostics
R231-17 ____ RJ-45 to FX singlemode SC (40 km) with diagnostics
R231-1J_____ RJ-45 to FX singlemode SC (100 km) with diagnostics
R231-1X ____ RJ-45 to FX singlemode SC bidirectional wavelength division

multiplexed (BWDM) 1550/1310 nm
R231-1Y ____ RJ-45 to FX singlemode SC BWDM 1310/1550 nm
R231-47 ____ RJ-45 to FX singlemode LC (coarse wavelength division multi-

plexed, 60 km, 1470 nm)
R231-49 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1490 nm)
R231-51 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1510 nm)
R231-53 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1530 nm)
R231-55 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1550 nm)
R231-57 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1570 nm)
R231-59 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1590 nm)
R231-61 ____ RJ-45 to FX singlemode LC (CWDM, 60 km, 1610 nm)

Table of Contents

Radiance Access Line Cards Installation & User Guide

Overview..............................................................................................................4

Installation Guide ............................................................................................... 6

STEP 1: Unpack the Line Cards ........................................................... 6

STEP 2: Set the Switches ...................................................................... 6

STEP 3: Install the Line Card ............................................................... 9

STEP 4: Connect to the Network ........................................................ 10

User Guide ........................................................................................................ 12

LED Indicators .................................................................................... 12

Factory Settings................................................................................... 12

Software Settings ................................................................................ 13

Remote Management Statistics ........................................................... 15

Singlemode Fiber Optic Power Levels ............................................... 16

Link Loss Carry Forward (LLCF) ......................................................17

Link Loss Return (LLR) .....................................................................18

Topology Solutions ............................................................................. 19

Technical Specifications...................................................................... 20

Product Safety, EMC and Compliance Statements ............................. 22

Warranty and Servicing.......................................................................23

Metrobility, Metrobility Optical Systems, and NetBeacon are registered trademarks of Metrobility Optical Systems, Inc. The
Metrobility Optical Systems logo is a trademarks of Metrobility Optical Systems, Inc.

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.

4 Overview

Overview

The Metrobility® Radiance 100Mbps Access Line Cards are the industry’s
first media converters with the ability to reach across a wide area network
(WAN) to communicate, test and reconfigure an unmanaged remote device,
without reducing the available bandwidth to the customer site. This capability is
accomplished through the employment of Metrobility’s revolutionary Radiance
technology. Using this protocol, the line cards are able to receive and transmit
special management packets in an embedded side channel that exists between
data packets.

Radiance access line cards continually exchange information in a master/slave
relationship through the fiber optic port. A card can serve as both a master and a
slave. While the master card must be under local software control via an SNMP
agent such as Metrobility’ s NetBeacon® or WebBeacon management software, the
slave card can be located up to 100 km away .

Through NetBeacon, the network administrator can open a dialog with the remote
device to reset its hardware switch settings, monitor its environmental parameters,
or view port details and statistics. NetBeacon provides extensive real-time and
historical graphs to display information such as the packet error rate and packet
details. The administrator can also conduct tests on the remote link, without any
bandwidth reduction, and isolate problems to prevent downtime. This end-to-end
visibility and testing of the network simplifies network management and increases
reliability .

The Radiance access line card offers several operational functions that are set by
the user through hardware switches, software commands or remote management
instructions. Among the features unique to the card are loopback mode, bandwidth
provisioning with adjustable burst size setting, Far End Fault (FEF), and write
protection. Loopback enables a port to return its incoming data back to the sender .
Bandwidth provisioning and maximum burst size setting allow the user to set the
receive (RX) and transmit (TX) bandwidth through the copper port. FEF enables a
locally managed line card to detect a break in the remote card’ s fiber port receiver.
Write protection enables or disables the remote card from controlling the locally
managed card. The combination of these functions, along with the line card’s
remote management ability, enable easy deployment of Ethernet WAN services to
customers.

For updating or expanding an existing network, Metrobility offers 100 Mbps access
line cards in various combinations, including fiber optic distance support up to 100
km. All cards are compatible with any Fast Ethernet device.

Radiance Access Line Cards 5

The Radiance access line card provides the following key features:

• Remote management using Metrobility’s unique Radiance technology which

enables communication with an unmanaged remote device.

• Complete Remote Monitoring (RMON) Group 1 Ethernet Statistics support.

• Remote link testing capability that does not affect the customer’s available

bandwidth.

• User-selectable maximum burst size and bandwidth allocation.

• Individual port enable/disable.

• Far End Fault functionality to detect a loss of the remote card’s fiber port

receiver.

• Duplex auto-negotiation on the copper port.

• Half and full duplex support on the copper port.

• Write protect to enable or disable a remote line card from controlling a locally

managed card.

• Link Loss Carry Forward (LLCF) and Link Loss Return (LLR) functionality

to aid in troubleshooting.

• Push-button MDI-II/MDI-X switch on the front panel to eliminate the need

for crossover cables on the copper port.

• Fused power on each line card to protect the rest of the cards in the chassis

from a short circuit. The power (PWR) LED on an affected card is not lit if its
fuse is blown.

• Hot swap circuitry.

• Auto-polarity on the copper port.

• Compliance with applicable sections of IEEE 802.3.

• Data frame size transparency.

6 Installation Guide

Installation Guide

Follow the simple steps outlined in this section to install and start using the
Radiance access line cards.

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 Cards

Your order has been provided with the safest possible packaging, but
shipping damage does occasionally occur. Inspect your line card(s)
carefully. 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 cards is necessary.

Set the Switches

MDI-II to MDI-X Switch (twisted-pair ports only)

To eliminate the need for crossover cables, the access line card has an
MDI-II to MDI-X switch on its twisted-pair port. The switch is located
on the center of the front panel. Use this switch to configure the port for
either a straight-through or crossover connection.

• The parallel symbol (II) indicates a straight-through or parallel

connection. The switch is up. (default)

• The cross symbol (X) indicates a crossover connection. The switch is

down (depressed).

Use the following table as a guide.

2

A device that is wired straight through needs one crossover connection:

If the cable is

straight through

crossover

the MDI-II to MDI-X switch setting should be

X

II

A device that is wired crossover needs a parallel connection:

If the cable is

straight through

crossover

the MDI-II to MDI-X switch setting should be

II

X

1

Radiance Access Line Cards 7

* DIP switches can also be managed via console commands or through Metrobility’s 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.

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DIP Switches

A bank of six DIP switches is located on the back of the card. Switches
1, 3, 5 and 6 allow you to select from several modes of operation.
These switches are clearly marked on the card’s circuit board. Refer to
the table below for the proper setting of the DIP switches.

*

When setting DIP switches, the UP position is when the lever of the
DIP switch is pushed away from the circuit board. The DOWN position
is when the lever is pushed toward to the board.

8 Installation Guide

Link Loss Carry Forward

Link Loss Carry Forward (LLCF) is provided as an aid in troubleshoot­ing a remote connection. When LLCF is enabled, loss of the receive
signal at the TX port prevents the FX port from transmitting an idle
signal onto the cable. Conversely, if the FX port does not detect a
receive signal, the TX port does not transmit an idle signal.

When LLCF is disabled (default), the card continually transmits idle
signals on both ports.

Warning: If LLCF is enabled on a remote access line card and there is
no link on the card’s copper port, you will NOT be able to manage that
remote card.

Refer to Link Loss Carry Forward for further details.

Auto-Negotiation

Auto-negotiation (AN) is only supported on the copper port. Enable AN
to establish a full duplex connection with another auto-negotiating
device or to force the port to half duplex.

When AN is enabled, the copper port advertises 100Mbps and full/half
duplex capability. The line card cannot auto-negotiate speed, which is
set to 100Mbps.

When AN is disabled (default), the copper port is set to full duplex.

IMPORTANT: The duplex mode of the device connected to the fiber
port must be the same as the copper port’s connection.

Link Loss Return

Link Loss Return (LLR) is only applicable to the fiber optic port. When
LLR is enabled, loss of the receive signal at the port disables its own
transmit link.

When LLR is disabled (default), the fiber port continually transmits an
idle signal.

Refer to Link Loss Return for additional information.