Omnitron Systems Technology iConverter GX/T2 Plug-in Module User Manual

NOTE: SW1 is not available for fixed fiber models. The fiber port is always set to 1000.
SW2: Port 2 “AN/Man”
This DIP-switch configures Port 2 for Auto Negotiation or Manual operation.

Switch

Legend

Function

DOWN (Default)

UP

SW1

Auto/100

Port 1 Speed and Duplex

Auto

100

SW2

AN/Man

Port 2 Negotiation

Auto

Manual

SW3

100/10

Port 2 Speed

100

10

SW4

FDX/HDX

Port 2 Duplex

FDX

HDX

SW5

Mode 1

Asymmetrical Link Propagate

Port 1 to Port 2

Link Segment

Link Propagate

Port 1 to Port 2

SW6

Mode 2

Asymmetrical Link Propagate

Port 2 to Port 1

Link Segment

Link Propagate

Port 2 to Port 1

SW7

Off/On

Pause

Off

On

SW8

On/Off

MAC Learning

On

Off

Figure 3: DIP-switch Bank 2 Definitions

SW3 and SW4: Port 2 Speed “100/10” and Duplex “FDX/HDX”
See Figure 4 for configuring negotiation, duplex mode and speed.

SW2

AN/Man

SW3

100/10

SW4

FDX/HDX

RJ-45 Mode of Operation

AN

10 or 100 FDX or HDX When set to auto-negotiation the following modes are advertised:

1000FDX, 1000HDX, 100FDX, 100HDX, 10FDX, 10HDX

Man

100

FDX

The RJ-45 port is set to manual and is forced to 100FDX

Man

100

HDX

The RJ-45 port is set to manual and is forced to 100HDX

Man

10

FDX

The RJ-45 port is set to manual and is forced to 10FDX

Man

10

HDX

The RJ-45 port is set to manual and is forced to 10HDX

Figure 4: Port Speed and Duplex Selection

SW5 and SW6: Link Modes “Mode 1” and “Mode 2”
These DIP-switches configure the link mode settings. It is recommended to have link modes

DOWN “Off” position (default) during the initial installation. After the circuit has been tested and

operational, configure the module for the desired mode.
Link Segment
In Link Segment mode, all ports operate independently. A loss of a receive link signal will only

affect the port detecting the loss of signal. All the other ports will continue to generate a link signal.
Link Propagate
In Link Propagate mode, the loss of a receive link signal will continue to propagate through to the

next port in the network causing the port to drop link.
Asymmetrical Link Propagate
In Asymmetrical Link Propagate mode, faults are propagated based on the port notation. Port 1 to

Port 2 notation indicates the direction the loss of link signal will propagate. A loss of receive link

on the fiber optic Port 1 causes the UTP Port 2 to drop its link due to the propagated state (Port

1 to Port 2). The loss of link on the in the Port 1 to Port 2 direction. See Figure 5 for valid Link

Mode configurations.

Page 2

Page 3

SW5

SW6

Function

Down

Down

Link Segment

Down

Up

Link Propagate Port 2 to Port 1

Up

Down

Link Propagate Port 1 to Port 2

Up

Up

Link Propagate

Figure 5: Link Modes

SW7: Pause “Off/On”
The Pause DIP-switch sets the flow control functionality for all ports on the module, including pause

mode advertisement, pause functionality, and half duplex back pressure. When the DIP-switch is

in the Pause “On” position, flow control functionality is enabled. When this DIP-switch is in the

Pause “Off” position (factory default), flow control functionality is disabled.
If Pause is On and the port is in half duplex, then half duplex flow control is enabled. When a port is

in half duplex flow control it generates a back pressure signal when internal buffer resources are low.
If Pause is On and the port is in full duplex, then full duplex flow control is enabled. When a port is

in full duplex flow control and internal buffering resources are low, a pause frame is generated to

slow down the traffic flow to the port.
SW8: MAC Learning “On/Off”
When this DIP-switch is in the “On” position (factory default), all ports on the module will learn the

source MAC address of each received packet and store the address so packets destined for the

stored addresses can be forwarded to the appropriate interface on the module. When the DIP-switch

is in the “Off” position, learning is turned off and all received packets are forwarded to all ports.
2) INSTALL MODULE IN CHASSIS AND CONNECT CABLES

Caution: Use proper ESD protection to reduce the risk of damage to your equipment.

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).

b.

When using a GX/T2 model with a SFP port, insert the SFP fiber transceivers into the SFP

receptacles on the module.

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

before insertion.

The GX/T2 module has the ability to detect the speed and automatically configure the port to

match the speed of Omnitron SFP transceivers. For non-Omnitron transceivers, configure

the port for the correct speed of the transceiver using SW1 of DIP-switch Bank 2.

c.

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) transceivers 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.

d.

Connect the RJ-45 port via a Category 5 or better cable to a 10BASE-T, 100BASE-TX or

1000BASE-T Ethernet device (depending on the configuration of the port).

3) VERIFY OPERATION
Verify the correct LED is illuminated based on the configuration of the port. Figure 6 and 7 on the

next page indicates the operation of the port based on the illuminated LEDs. If the 100 LED is

illuminated, the port is operating at 100Mbps. If the 1000 LED is illuminated, the port is operating

at 1000Mbps and if the 100 and 1000 LEDs are illuminated, the port is operating at 10Mbps.