Datasheet
Alcatel-Lucent Page 41
OmniSwitch 9000
XFP-10G-ER40 Technical Specifications
Features Supports 9.95Gb/s to 10.7Gb/s bit rates
• Hot-pluggable XFP footprint
• Maximum link length of 40km
• Temperature-stabilized EML transmitter
• Duplex LC connector
• Power dissipation <3.5W
• Built-in digital diagnostic functions
• Temperature range: -5°C to 70°C
Standards Supported IEEE 802.3ae & 10GBASE-ER
Connector Type The transceiver support LC connectors and are hot swappable
Supports the ability to mix and match XFPs on the same unit
Supports operation for layer-2, and layer-3 forwarding
Cable Supported Single mode; Full Duplex only
Source Type supports 10µm & 1550nm
Cable Distances* ≈ up to 40km
Power Consumption ≈ 3.5watts
Operating Temperature -5 to 70°C
Transmitter Average Output (launch) optical power Min: -1.0dBm& Max: +2.0dBm
Receiver Sensitivity @9.95Gbps to 11.1Gbps Min: 0dBm & Max: -16dBm
Power Budget** 15dBm (16 – 1.0 = 15dBm)
XFP-10G-ZR80 Technical Specifications
Features Supports 9.95Gb/s to 10.7Gb/s bit rates
• Hot-pluggable XFP footprint
• Maximum link length of 80km
• Temperature-stabilized EML transmitter
• Duplex LC connector
• Power dissipation <3.5W
• Built-in digital diagnostic functions
• Temperature range: -5°C to 70°C
Standards Supported IEEE 802.3ae & 10GBASE-ZR
Connector Type The transceiver support LC connectors and are hot swappable
Supports the ability to mix and match XFPs on the same unit
Supports operation for layer-2, and layer-3 forwarding
Cable Supported Single Mode; Full Duplex only
Source Type Supports 10µm & 1550nm
Cable Distances* ≈ up to 80km
Power Consumption ≈ 3.5 watts
Operating Temperature -5 to 70°C
Transmitter Average Output (launch) optical power Min: 0dBm & Max: +4.0dBm
Receiver Sensitivity @9.95Gbps Min: 0dBm & Max: -24dBm
Power Budget** 24dBm (24 – 0 = 24dBm)
Notes:
*Maximum distance support” is claimed by the original vendor and not by Alcatel.Lucent IP Networking.
**The worst-case Optical Power Budget in “dB” for a fiber optic link is determined by:
The difference between the minimum transmitters output optical power and the lowest receiver sensitivity.