Omnitron Systems Technology iConverter CWDM/X 2 and 4 Channel Single-Fiber MUX/DEMUX User Manual

Port Definitions

Figure 2: Port Locations for 2-Channel CWDM/X Module

Figure 3: Port Locations for 4-Channel CWDM/X Module

Channel Port
The Channel Ports transmit and receive signals on specific CWDM wavelengths. Each

Channel Port supports a different transmit and receive wavelength based on the CWDM/X

model. The Channel Ports are multiplexed onto and demultiplexed from the Common

Port.
When connecting external dual fiber transceivers to the Channel Port, select an optical

transceiver that matches the receive wavelength of the specific Channel Port. Since the

Channel Port uses two different wavelengths over dual fiber, one wavelength for transmit (Tx)

and a different wavelength for receive (Rx), the receiver of the external dual fiber transceiver

must have the capability to detect the transmit wavelength of the Channel Port. Typically,

the receiver of a dual fiber transceiver has an operating center wavelength of 1260nm to

1610nm. Verify the external transceiver’s optical parameters before using.

Common Port
The Common Port transmits and receives the aggregated wavelengths connected to the

Channel and Expansion Ports over a single-fiber common link. CWDM/X modules are always

used in pairs. When connecting two CWDM/X modules, the COM-L port is connected to the

COM-R port on the matching pair.
Installation
1. Carefully slide the module into an open slot in an

iConverter

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. The CWDM/X module requires no external

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power, however, the module must be installed in an

iConverter

powered chassis with

a Network Management Module (NMM2 Model 8000N-0) or a media converter with

integrated management (such as the

iConverter

10/100M2)*

2. Connect a single-mode, dual fiber duplex LC cable between the Channel Port of the

CWDM/X module and the attached device. It is important to ensure that the wavelength

on each fiber strand of the CWDM/X matches the wavelengths of the attached device.

Connect all Channel Ports in this manner. 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.

3. Connect a single-mode, single-fiber simplex LC cable between the Common Ports on

the CWDM/X modules (this connection may be made through fiber patch panels since

the modules may not be co-located). Ensure that the COM-L port at one end connects

to the COM-R port at the other end.

NOTE: The

iConverter

CWDM/X modules can not be installed in slots 4, 8, 12 and 16 of

a 19-Module Chassis or in the top slot of a 2-Module Chassis or in a 1-Module Redundant

Power Chassis.
*For complete management functionality, use M2 series (NMM2, GX/TM2, 2GXM2. 10/100M2,

2FXM2) or higher.

Design Considerations

iConverter

CWDM/X modules are passive devices that require no external power. Attenuation

(signal loss) of less than 2.7dB will be realized through each port on the module (see

the CWDM/X Data Sheet for exact attenuation specifications for each model). Detailed

calculations should be performed for each fiber optic link in the network to ensure the proper

optical devices are specified with sufficient transmitter power.
When calculating optical loss, ensure that the total attenuation, plus a safety factor (typically

3dB), does not exceed the optical power budget. The optical power budget is the difference

between the transmitter optical output power and the receiver’s optical sensitivity. The

transmitter optical output power and receiver optical sensitivity values can be obtained from

the manufacturers of the respective equipment.
For more information, access Omnitron’s documentation download web page to view all

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

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