Omnitron Systems Technology Omnitron iConverter 10/100M2 User Manual

iConverter® 10/100M2 Media Converter

and

Network Interface Device

STANDALONE AND PLUG-IN MODULE

USER MANUAL

Release 3.4

Table of Contents

1.0 Overview ....................................................................................................................3

1.1 General Description....................................................................................................3

1.1.1 Advanced Features ....................................................................................................3

2.0 Port Structure .............................................................................................................4

2.1 Overview.....................................................................................................................4

2.1.1 Management Port.......................................................................................................4

2.1.2 UTP and Fiber Ports ..................................................................................................4

2.1.3 Backplane Ethernet Ports ..........................................................................................4

3.0 Installation Procedure ................................................................................................5

3.1 Overview.....................................................................................................................5

3.2 Configuring DIP-switches ...........................................................................................6

3.2.1 Board-Mounted Bank 1 Settings ................................................................................6

3.2.2 Board-Mounted Bank 2 Settings ................................................................................9

3.3 Installing Plug-in Modules and Connecting Cables ..................................................10

3.4 Configure the Module via Command Line Interface ................................................. 11

3.4.1 Setting IP and Control Preferences..........................................................................13

3.4.2 Setting SNMP Preferences ......................................................................................16

3.4.3 Enabling/Disabling Soft-switch Reload.....................................................................19

3.4.4 Access the 10/100M2 Remotely ..............................................................................20

3.5 Verify Operation........................................................................................................22

4.0 Detailed Module Configuration.................................................................................23

4.1 Overview...................................................................................................................23

4.2 Module Management Mode......................................................................................26

4.3 Port Configuration ....................................................................................................27

4.3.1 Port Access.............................................................................................................28

4.3.2 Bandwidth Control....................................................................................................28

4.3.3 Layer 2 Control Protocol Filter .................................................................................29

4.3.4 SFP Information .......................................................................................................30

4.3.5 802.3ah Parameters .................................................................................................32

4.3.6 802.3ah Events .......................................................................................................34

4.3.7 Port VLAN ................................................................................................................35

4.3.8 Tagged VLAN...........................................................................................................37

4.3.9 VLAN Membership Table .........................................................................................39

4.3.10 cNode Loopback ......................................................................................................42

4.3.11 Port Statistics ...........................................................................................................43

5.0 10/100M2 Specifications ..........................................................................................44

6.0 Troubleshooting Guide.............................................................................................45

6.1 Overview...................................................................................................................45

6.1.1 Power Issues............................................................................................................45

6.1.2 Fiber Issues..............................................................................................................45

6.1.3 UTP Issues...............................................................................................................46

7.0 Warranty...................................................................................................................47

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1.0 OVERVIEW

This document describes the installation and configuration of the iConverter 10/100M2 standalone Network
Interface Device and plug-in modules. The difference between the module types are indicated using the
following legend throughout this User Manual:

- Standalone

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- Plug-In

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1.1 GENERAL DESCRIPTION

The Omnitron iConverter®10/100M2 is a carrier-class media converter and a Network Interface Device (NID)
that provides 10BASE-T or 100BASE-TX (10/100) to 100BASE-FX Fiber media conversion with integrated
management.

The 10/100M2 conforms to Ethernet in the First Mile (EFM) fiber standards to support Fiber-to-the-X
(FTTX) Metropolitan access and Enterprise LAN networks. 10/100M2 media converters are used to provide
managed copper demarcation points at the customer premises and network edge, offering service provisioning
functions, such as Quality of Service and Bandwidth Control (rate-limiting) capabilities.

The IP-based remote management of the 10/100M2 can be accessed by Omnitron’s NetOutlook® SNMP
Network Management Software, third-party SNMP clients and Telnet. The management IP address is
configured manually or as a DHCP client in the configuration menu. IP-less remote management is supported
via 802.3ah OAM or Secure OAM protocol. A menu-driven CLI is accessible via Telnet, serial console
port, or a modem connection to the serial console port.

IMPORTANT

This manual provides information on the installation and configuration of the module using the command
line interface (serial console). For ongoing network management, Omnitron Systems recommends

NetOutlook, an SNMP-based Network Management Software.
NetOutlook provides an efficient, user-friendly way to configure, monitor and manage devices installed

on a single network or on a series of networks by providing an intuitive graphical display with real-time
status and alarm (trap) information. The user can easily manage iConverter equipment on a large
Enterprise network or Metropolitan Area network (MAN) from a single location without the need of
additional resources.

The firmware of the Network Management Module (NMM) and NetOutlook must be the same or
greater than the firmware on the 10/100M2 for the module to be managed.

1.1.1 Advanced Features

The 10/100M2 features Port VLAN, T ag VLAN, Provider VLAN and QoS prioritization which are defined
in the IEEE 802.1Q, 802.1ad and 802.1p specifications. Ethernet Virtual Connections can be configured
with Provider VLAN to support E-Line and E-LAN connections on Metro Ethernet Networks.

Access to the management control can be restricted with the Port VLAN and Tag VLAN features, helping
to prevent Denial-Of-Service (DoS) and unauthorized management access.

Other advanced features include:

• Bandwidth Control (Rate Limiting) • Layer 2 Control Protocol (L2CP) Filter

• Real-time MIB statistics reporting (38 variables) • Port Access Control

• 802.3ah OAM and Extensions • cNode Level 1 Agent

• SNMPv1, SNMPv2c and SNMPv3
Refer to the appropriate sections for configuration information.

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2.0 PORT STRUCTURE

2.1 OVERVIEW

The front panel of the 10/100M2 provides access to the management (serial console), UTP and fiber ports.
The fiber port will vary depending on the connector type; ST, SC, MT-RJ, LC or SFP supporting
100BASE-FX transceivers. The plug-in module features two additional Ethernet ports for connectivity
via the chassis backplane.

Fiber Port

Management Port

UTP Etherent Port

2.1.1 Management Port

Fiber Port

Management Port

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UTP Etherent Port

The 10/100M2 features a Serial RS-232 Console Port (aka Craft Interface) which can be connected to a
computer for initial setup and configuration. The Serial Console Port is accessed through the mini DIN-6
female DCE interface. Connect the interface to a computer’s DB-9 serial port using the mini DIN-6 male
to DB-9 female cable adapter (Part # 8082-0), which is included with the 10/100M2.

An optional DB-9 male to female straight-through serial cable is available for extension (Part # 8081-3).

2.1.2 UTP and Fiber Ports

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The UTP Ethernet port supports 10BASE-T and 100BASE-TX protocols, auto-negotiation and manual
forced modes for half and full duplex. The UTP port can be enabled or disabled via network management.
A disabled port will still connect and allow 802.3ah OAM communication, but blocks normal data traf fic.

The fiber interface supports the 100BASE-FX protocol. The fiber interface operates in manual mode and
supports half or full duplex operation. The fiber port can be enabled or disabled via network management.
A disabled port will still connect and allow 802.3ah OAM or IP-less (secure) OAM communication, but
blocks normal data traffic.

2.1.3 Backplane Ethernet Ports

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The plug-in module supports two additional 10/100Mbps Ethernet Backplane Ports. The Backplane Ports
A and B allow Ethernet data connectivity between adjacent modules in an iConverter chassis. The two
backplane ports can be disabled or enabled via a DIP-switch or network management.

The iConverter 19-Module, 5-Module, 2-Module and 1-Module Redundant Chassis backplanes provide
ethernet data connectivity between adjacent slots or ports. The A and B backplane ports connect the slots
as illustrated.

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“A” Data bus “B” Data bus

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“A” Data bus “B” Data bus

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AB ABAB AB

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5-Module Chassis 2-Module Chassis

1-Module Redundant Chassis

3.0 INST ALLA TION PROCEDURE

11 12

19-Module Chassis

4

4

B

A

13

5

5

UTP Ports

14

“A” Data bus

15 16

17

AB
AB

18 19

Managed Power Chassis

iConverter

byOmnitron Systems Technology, Inc.

™

3.1 OVERVIEW

The following steps outline the installation and configuration procedures for the 10/100M2. Refer to the
specified sections for detailed instructions.

• Configure DIP-switches (Section 3.2)

• Installing the Module and Connecting Cables (Section 3.3)

• Configure Module via Command Line Interface (Section 3.4)

• Verify Operation (Section 3.5)
When the setup and configuration procedures are completed, the 10/100M2 has been configured with the

basic setup requirement for standard operation. To configure the module with additional features, see
Section 4.0, “Detailed Module Configuration”.

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3.2 CONFIGURING DIP-SWITCHES

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The 10/100M2 plug-in module has two board-mounted DIP-switches. The standalone unit has one bank of
DIP-switches. The locations of the DIP-switches are illustrated below.

Switch 1

Bank 2

Switch 8

Switch 1

Bank 1

Switch 8

Left

Up

SW1 SW8

Bank 1

Down

Right

DIP-switch Locations

3.2.1 Board-Mounted Bank 1 Settings

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DIP-switch Bank 1 is available on both the plug-in and standalone modules. The table indicates the position
of the switch; Left/Down or Right/Up. As indicated in the DIP-switch location diagram, Left and Right
refers to the plug-in module and Down and Up refers to the standalone module.

(Left/Right)

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Switch

SW1

SW2

SW3

SW4

SW5

SW6 - SW8 See Link Mode DIP-Switch Table in Section 3.2.1.6

Left/Down

(Factory Default)

Off:

Pause Disable

FDX:

Fiber Full-Dup lex

AN:

UTP Auto-Negotiate

100:

UTP 100Mbps

FDX:

UTP F ull-D uplex

On:

Pause Enable

HDX:

Fiber Half-Duplex

Man:

UTP Manual

10:

UTP 10Mbps

HDX:

UTP Half-D up le x

(Up/Down)

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Right/Up

3.2.1.1 SW1 - Pause Disable/Enable “Off/On”

When a port is operating in auto-negotiation, its Pause operation mode is determined by the Pause capability
advertised during auto-negotiation between itself and the link partner. The port advertises its Pause capability
during auto-negotiation based on the Pause Disable/Enable DIP-switch setting. Setting the Pause DIP-switch to

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the “Off” position (factory default) forces the port to negotiate to No Pause mode with its link partner.
Setting the Pause DIP-switch to the “On” position allows the port to negotiate to Symmetrical Pause or No
Pause mode with its link partner.

When a port is operating in Manual mode, its Pause operation mode is based on the Pause Disable/Enable
DIP-switch setting. Setting the Pause DIP-switch to the “Off” position (factory default) forces the port to
operate in No Pause mode. Setting the Pause DIP-switch to the “On” position allows the port to operate in
Symmetrical Pause mode.

3.2.1.2 SW2 - Fiber Full/Half-Duplex “FDX/HDX”

When the DIP-switch is in the Full Duplex “FDX” position (factory default), the fiber port will facilitate a
connection that supports Full-Duplex operation. Setting this DIP-switch to Half-Duplex “HDX” facilitates
a connection that supports only Half-Duplex.

3.2.1.3 SW3 - UTP Auto/Manual Negotiate “AN/Man”

When the DIP-switch is in the UTP auto-negotiate “AN” position (factory default), the UTP port automatically
determines the speed and duplex mode of the connecting UTP device. If the connecting UTP device cannot
provide the proper signal to indicate its own mode of operation, this DIP-switch should be set to the UTP
Manual mode “Man” position. Manual mode requires manually configuring the UTP port to match the
speed and the duplex mode of the connecting UTP device using the “10/100” and UTP “FDX/HDX”
DIP-switches. Refer to the table below for a detailed explanation.

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Switch
SW3

AN 100 FDX The UTP port is set to auto-negotiation

AN 100 HDX The UTP port is set to auto-negotiation

AN 10 FDX The UTP port is set to auto-negotiation

AN 10 HDX The UTP port is set to auto-negotiation

MAN 1 00 FDX The U T P port i s se t t o ma nual

MAN 1 00 HDX The UTP p ort is set to manual

MAN 10 FDX The UTP port is set to manual

MAN 10 HDX The UTP port is set to manual

Switch
SW4

Switch
SW5

Function

with the following modes advertised:

100F, 100H, 10F, 10H

with the following modes advertised:

100H, 10F, 10H

with the following modes advertised:

10F, 10H

with the following modes advertised:

10H

negotiation and is forced to:
100F

negotiation and is forced to:
100H

negotiation and is forced to:
10F

negotiation and is forced to:
10H

3.2.1.4 SW4 - UTP 10/100Mbps “10/100”

When the UTP “AN/Man” DIP-switch (described above) is in the manual “Man” position, the “10/100"
DIP-switch determines the speed of operation for the UTP port. Setting the “10/100” DIP-switch to UTP

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100Mbps “100” position (factory default) forces the UTP port to operate at 100Mbps. Setting this DIP-switch
to UTP 10Mbps “10” position forces the UTP port to operate at 10Mbps. Adjust the “10/100” DIP-switch to
match the speed of the connecting UTP device.

When the UTP “AN/Man” DIP-switch is in the auto-negotiate “AN” position and the UTP 10/100
DIP-switch is in the “100” position, the UTP port auto-negotiates to 100Mbps or 10Mbps. When in the
“10” position, the UTP port only operates at 10Mbps. Refer to the table above for a detailed explanation.

3.2.1.5 SW5 - UTP Full/Half Duplex “FDX/HDX”

When the UTP “AN/Man” DIP-switch is in the manual “Man” position, the UTP Full/Half-Duplex
“FDX/HDX” DIP-switch determines the duplex operation mode of the UTP port. Setting the UTP
Full/Half-Duplex DIP-switch to UTP Full-Duplex “FDX” position (factory default) forces the UTP port to
operate in Full-Duplex. Setting this DIP-switch to UTP Half-Duplex “HDX” forces the UTP port to operate
in Half-Duplex. Adjust the UTP Half/Full-Duplex DIP-switch to match the duplex mode of the connecting
UTP device.

When the UTP “AN/Man” DIP-switch is in the auto-negotiate “AN” position, and the UTP Full/Half-Duplex
DIP-switch is in the Full-Duplex “FDX” position, the UTP port auto-negotiates to Full or Half-Duplex. When
in the Half-Duplex “HDX” position, the UTP port functions only in Half-Duplex for the speed selected.
Refer to the table on the previous page for a detailed explanation.

3.2.1.6 SW6, SW7, SW8 - Link Modes

These three DIP-switches configure the link mode settings. The following table details possible Link Mode
DIP-switch configurations.

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SW6 SW7 SW8 Result

Left Left Left Link Segment mode (LS)

Right Left Left Link Propagate mode (LP)

Left Right Left

Right Right Left

Left Left Right Symmetrical Fault Detect mode (SFD)

Right Left Right Asymmetrical LP P1 to P2 (ALP P1-P2)

Left Right Right Asymmetrical LP P2 to P1 (ALP P2-P1)

Right Right Right Asymmetrical RFD+LP P1 to P2

Remote Fault Detection mo de pl us Li nk
Segment mode (RFD+LS)

Remote Fault Detection mo de pl us Li nk
Propagation mode (RFD+LP)

SW6 SW7 SW8 Result

Down Down Down Link Segment mode (LS)

Up Down Down Link Propagate mode (LP)

Down Up Down

Up Up Down

Down Down Up Symmetri c al Fault Detect mode (S FD)

Up Down Up Asymmetrical LP P1 to P2 (ALP P1-P2)

Down Up Up Asymmetrical LP P2 to P1 (ALP P2-P1)

Up Up Up Asymmetrical RFD+LP P1 to P2

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Remote Fault Detection mode plus Link
Segment mode (RFD+LS)

Remote Fault Detection mode plus Link
Propagation mode (RFD+LP)

NOTE: Connecting two converters which are set to any of the RFD modes are illegal and will cause
a “deadly embrace” lockup.

NOTE: It is recommended to keep the LS setting (default) until initial configuration is complete.

For detailed information on the operation of the different Link Modes, download the application note
“iConverter Link Modes” available on Omnitron’s web page:

http://www.omnitron-systems.com/downloads.php

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3.2.2 Board-Mounted Bank 2 Settings

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DIP-switch Bank 2 is only available on the plug-in module.

Switch Left (Factory Default) Right

SW1 A-DS:

Backplane Port A Disabled

SW2 B-DS:

Backplane Port B Disabled

SW3 R eserved Reserved
SW4 M/SL:

Master/S la ve A uto-Select

SW5 - SW8 R eserved Reserved

3.2.2.1 SW1 - Backplane Port A Enabled “A-DS/A-EN”

A-E N:

Port A Enabled

B-EN:

Port B Enabled

SL:

Slave-Mode Only

When the DIP-switch is in the Left “A-DS” position (factory default), Backplane Port A of the 10/100M2
is isolated from the chassis Backplane. When the DIP-switch is in the Right “A-EN” position, Backplane
Port A of the 10/100M2 is enabled. This port allows Ethernet Backplane connectivity to an adjacent
module via the chassis Backplane Port A. See the backplane illustrations in Section 2.1.3.

3.2.2.2 SW2 - Backplane Port B Enabled “B-DS/B-EN”

When the DIP-switch is in the Left “B-DS” position (factory default), Backplane Port B is isolated from the
chassis Backplane. When the DIP-switch is in the Right “B-EN” position, Backplane Port B is enabled.
This port allows Ethernet Backplane connectivity to an adjacent module via the chassis Backplane Port B.
See the backplane illustrations in Section 2.1.3.

3.2.2.3 SW4 - Master/Slave Auto-Select and Slave-Only “M/SL / SL

When multiple management modules such as the iConverter NMM and the 10/100M2 (or multiple self­managed modules such as the 10/100M2) are installed in the same chassis, only one management module
can act as the chassis master. The master management module has the ability to make changes to the
settings of the other modules in the chassis, while the slave management modules cannot make the changes.
If an NMM is installed in the chassis, the NMM will always be the master, otherwise the lowest slot
number with a management module installed will become chassis master.

When this DIP-switch is in the Left “M/SL” position (factory default), the assignment of mastership is
automatically negotiated by the installed management modules. T o designate a specific management module
as the master when no NMM is installed in the chassis, set the DIP-switch on the master module to the Left
“M/SL” position, and set the other installed management modules’ DIP-switches to the Right “SL” position
to enable Slave-Only mode.

Only the chassis master can change configuration settings of other modules.

3.2.2.4 SW3, SW5, SW6, SW7, SW8 - Reserved

These DIP-switches are for factory use only .

NOTE: DIP-switches marked Reserved must be kept in the Left (factory default) position.

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3.3 INSTALLING PLUG-IN MODULES AND CONNECTING CABLES

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a. Carefully slide the module into an open slot in the chassis. Align the module with the installation

guides and ensure that the module is firmly seated against the backplane. Secure the module by fastening
the front panel thumbscrew (push in and turn clockwise to tighten) to the chassis front. Verify the
“Pwr” LED is ON (indicating the chassis is powered).

SA

a. The 10/100M2 standalone Network Interface Device (NID) is available in tabletop and wall-mounting

models. For wall-mounting, attach the NID to a wall, backboard or other flat surfaces. For tabletop
installations, place the unit on a flat level surface. Attach the rubber feet to the bottom of the NID to
prevent the unit from sliding. Make sure the unit is placed in a safe, dry and secure location.

T o power the unit using the AC/DC adapter, connect the AC/DC adapter to the AC outlet. Then connect
the barrel plug at the end of the wire on the AC/DC adapter to the 2.5mm DC barrel connector (center ­positive) on the unit. Confirm that the unit has powered up properly by checking the power status LED
located on the front of the unit.

To power the unit using a DC power source, prepare a power cable using a two-conductor insulated
wire (not supplied) with a 14 AWG gauge minimum. Cut the power cable to the length required. Strip
approximately 3/8 of an inch of insulation from the power cable wires. Connect the power cables
to the 10/100M2 standalone unit by fastening the stripped ends to the DC power connector.

Connect the power wires to the DC power source. The Power LED should indicate the presence of
power.

WARNING: Note the wire colors used in making the positive and negative connections. Use the
same color assignment for the connection at the DC power source.

NOTE: If mounting with a safety ground attachment, use the safety ground screw at the r ear of
the unit.

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b. When using a 10/100M2 SFP model, insert the SFP Fiber transceiver into the Port 1 SFP receptacle on

the 10/100M2.

NOTE: The release latch of the SFP Fiber transceiver must be in the closed (up) position before
insertion.

c. Connect the UTP port via a Category 5 or better cable to a 10BASE-T or 100BASE-TX Ethernet

device.

d. Connect the appropriate multimode or single-mode fiber cable to the fiber port of the installed module.

It is important to ensure that the transmit (Tx) is attached to the receive side of the device at the other
end and the receive (Rx) is attached to the transmit side. Single-fiber (SF) media converter models
operate in pairs. The Tx wavelength must match the Rx wavelength at the other end and the Rx
wavelength must match the Tx wavelength at the other end.

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3.4 CONFIGURE THE MODULE VIA COMMAND LINE INTERF ACE

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T o configure, attach the 10/100M2 to a DB-9 serial (RS-232) equipped computer with terminal emulation
software such as HyperT erminal. The 10/100M2 Serial Console Port (DCE) is a mini DIN-6 female connector
which can be changed to a DB-9 connector with the included adapter (Part #8082-0). Attach the ends of a
serial cable to the serial port of the PC and the Serial Console Port of the 10/100M2. This is a standard
asynchronous serial interface. The pin-outs are illustrated below.

Serial Connector Pin Outs

Start HyperTerminal and select the correct COM Port in the HyperTerminal “Connect To:” window.
Set the PC’s serial port to the following:
Bits Per Second: 57,600
Stop Bits: 1
Data Bits: 8
Parity: NONE
Hardware Flow Control: NONE

Power the chassis containing the 10/100M2 module and press <ENTER> to bring up a command line
prompt on the attached PC.

The module is configured with the following defaults:

IP

IP Address: 192.168.1.220
IP Subnet Mask: 255.255.255.0

Passwords

Serial: No password assigned
FTP: No password assigned
Telnet: public

SNMPv1/v2c Communities

READ: public
WRITE: public

SNMPv3 Parameters

User 1 name (read only): guest
User 2 name (read/write): admin
User 1 Privacy pwd: publicguest User 1 Authen pwd: publicguest
User 2 Privacy pwd: privateadmin User 2 Authen pwd: privateadmin

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The Management Options screen will be displayed.

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Management Options iConverter, Serial Agent

Network Management
1: Chassis and Module Management
2: Set Module Identifier

Management Module Preferences
3: IP and Control Preferences
4: SNMP Preferences
5: Abandon Preference Changes
6: Save Preference Changes
7: Restore to Factory Defaults
8: Restart Management Module
9: Other Networking Features

Management Module Maintenance
10: Firmware Update
11: Set Date/Time

IP Address = 192.168.1.220
Chassis Number = 1

Enter Choice, (H)elp, E(x)it >

A new 10/100M2 module does not have a password, and will skip the Password Entry screen and go
straight to the Management Options screen. If a password has been set, the Password Entry screen will be
displayed. Type the password and press <ENTER>, the 10/100M2 will respond with the Management
Options screen.

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Omnitron Systems Technology, Inc. iConverter, Serial Agent
Copyright 2001-2007 OST, Inc. Password Entry

-----------------------------------------------------------------------------­Omnitron Systems Technology Technical Support: (949) 250-6510
140 Technology #500 Sales/Products: (800) 675-8410
Irvine, CA 92618 On the web at: www.omnitron-systems.com

------------------------------------------------------------------------------

IP Address 192.168.1.220
MAC 00:00:00:00:00:00

[xxxxxxxx]
Please enter the password >

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3.4.1 Setting IP and Control Preferences

An IP address is required for the SNMP manager to address the 10/100M2. The factory default setting is

192.168.1.220. The IP address can be configured manually or automatically as a DHCP client.

3.4.1.1 Setting IP Parameters Manually

To manually configure the IP address and control parameters, select 3 from the Management Options
screen. The IP and Control Preferences screen will appear.

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IP and Control Preferences Screen iConverter, Serial Agent
1: Set IP 192.168.1.220

2: Set Subnet Mask 255.255.255.0
3: Set Gateway 192.168.1.1

4: Chassis Number 1
5: Chassis Name (also sysName) 10/100M2

6: Enable/Disable TELNET Enabled
7: Enable/Disable FTP Disabled
8: Enable/Disable Soft Switch Reload Disabled

9: TELNET Password *****
10: FTP Password
11: Serial Password

Enter Choice, Management Options Screen(0), (H)elp, E(x)it >

T o configure the IP address of the 10/100M2, select 1 at the IP and Control Preferences screen, and press
<ENTER>. Backspace over the existing value, type the new value (in x.x.x.x format), and press <ENTER>.

To configure the subnet mask of the 10/100M2, select 2 at the IP and Control Preferences screen, and
press <ENTER>. Backspace over the existing value, type the new value (in x.x.x.x format), and press
<ENTER>.

To configure the gateway of the 10/100M2, select 3 at the IP and Control Preferences screen, and press
<ENTER>. Backspace over the existing value, type the new value (in x.x.x.x format), and press <ENTER>.

To save the new values, select 0 and press <ENTER> to return to the Management Options screen, then
select 6 and press <ENTER> to Save Preference Changes.

3.4.1.2 Setting IP Parameters as DHCP Client

To configure the IP automatically as a DHCP client, select 9 from the Management Options screen. The
Other Networking Features screen will appear.

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Management Options iConverter, Serial Agent

Network Management
1: Chassis and Module Management
2: Set Module Identifier

Management Module Preferences
3: IP and Control Preferences
4: SNMP Preferences
5: Abandon Preference Changes
6: Save Preference Changes
7: Restore to Factory Defaults
8: Restart Management Module
9: Other Networking Features

Management Module Maintenance
10: Firmware Update
11: Set Date/Time

IP Address = 192.168.1.220
Chassis Number = 1

Enter Choice, (H)elp, E(x)it > 9

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Other Networking Features Screen iConverter, Serial Agent

1: Enable/Disable DHCP Client Disabled
2: Enable/Disable Keep Alive Trap Disabled

3: Keep Alive Trap interval (10-600 secs) 10
4: Enable/Disable SW1 Switch Block Enabled

5: Serial Baud Rate 57600 bps

Enter Choice, Management Options Screen(0), (H)elp, E(x)it >

To enable DHCP client, select 1 at the Other Networking Features screen and follow the screen prompts
to enable DHCP.

To save the new values, select 0 and press <ENTER> to return to the Management Options screen, then
select 6 and press <ENTER> to Save Preference Changes.

3.4.1.3 Setting the Chassis Number and Name

A Chassis Name, or sysName, can be assigned for identification of the 10/100M2 in the SNMP client. The
name can be any 1-32 character alphanumeric string.

The Chassis Number can remain as 1 (factory default) when the 10/100M2 is installed without a iConverter
NMM in the same chassis. When the 10/100M2 is installed in the same chassis as an NMM, then the 10/100M2
must be set to the Chassis Number of the NMM.

T o set the Chassis Number , select 4 at the IP and Control Preferences screen, press <ENTER> and follow
the instructions to enter the chassis number.

To set the Chassis Name, select 5 at the IP and Control Preferences screen, press <ENTER> and follow
the instructions to enter the chassis name.

NOTE: When the NMM is installed into the chassis and is set to Remote OAM, the chassis number
of the 10/100M2 is automatically assigned by the NMM.

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PI SA

IP and Control Preferences Screen iConverter, Serial Agent

1: Set IP 192.168.1.220
2: Set Subnet Mask 255.255.255.0
3: Set Gateway 192.168.1.1

4: Chassis Number 1
5: Chassis Name (also sysName) 10/100M2

6: Enable/Disable TELNET Enabled
7: Enable/Disable FTP Disabled
8: Enable/Disable Soft Switch Reload Disabled

9: TELNET Password *****
10: FTP Password
11: Serial Password

Enter Choice, Management Options Screen(0), (H)elp, E(x)it >

To save the new values, select 0 and press <ENTER> to return to the Management Options screen, then
select 6 and press <ENTER> to Save Preference Changes.

3.4.1.4 Setting 10/100M2 Passwords

The 10/100M2 is shipped from the factory without password protection on the Serial Console Port. It is
highly recommended that the network administrator set a password in order to prevent unauthorized access
to the unit. The password can be any 1-32 character alphanumeric string.

The 10/100M2 is shipped from the factory with T elnet enabled and FTP disabled. From the IP and Control
Preferences screen, select 6 to enable or disable Telnet, and select 7 to enable or disable FTP.

To set the password for Telnet access, select 9 at the IP and Control Preferences screen, press <ENTER>
and then follow the screen prompts to enter and verify the password. The default password for Telnet
access is “public”.

To set the password for FTP access, select 10 at the IP and Control Preferences screen, press <ENTER>
and then follow the screen prompts to enter and verify the password.

T o set the password for serial access, select 11 at the IP and Control Preferences screen, press <ENTER>
and then follow the screen prompts to enter and verify the password.

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