10G XFP CWDM 1270nm-1610nm 80 kmis a high performance and cost-effective 10Gb/s CWDM (Coarse Wavelength-Division Multiplexing) XFP ZR optical transceiver, which provides a high capacity, high bandwidth communication solutions for multiplexed optical networks. This CWDM XFP ZR optical transceiver is designed for 10 Gigabit Ethernet links up to 80km over single mode fiber. It features a highly reliable CWDM EML transmitter and APD diode into duplex LC optical connector. There are 8 center wavelengths available from 1270nm to 1610nm with each step 20nm.
The CWDM XFP ZR transceiver module complies with XFP MSA specifications, 10 Gigabit Ethernet specifications (10GBASE-ZR/ZW per IEEE 802.3ae ), and 10G Fibre Channel. It’s suitable for use with 10G Ethernet switches, routers, network interface cards (NICs), fiber media converters and storage networking equipment. Additionally, the CWDM XFP optical transceiver has been integrated with a digital diagnostic monitoring interface (DDMI), which provides real-time monitoring of the transceiver temperature, laser bias current, optical power, received optical power and transceiver supply voltage.
Features:
Universal XFP Transceiver - CWDM
CWDM for multiple applications over one duplex fiber
For 10GBASE-LR Ethernet links
Supported Data Rates: 8.5 Gbit/s - 11.1 Gbit/s with dual CDR
Powerbudget of 10 dB for up to 10 km using an OS2 ITU-T G.652 fiber
SPECIFICATION
FORM FACTOR | XFP | CDR | TX and RX |
CONNECTOR / POLISH | LC-Duplex PC | POWERBUDGET (DB) | 10 dB |
INTERFACE | CWDM | TRANSMIT MIN/MAX | -5 dBm / 0 dBm |
TYPE | CWDM LR | RECEIVER MIN/MAX | -15 dBm / 0.5 dBm (overload) |
DISTANCE | 80 km | LASER | DFB |
TEMPERATURE RANGE | -5°C-70°C | RECEIVER TYPE | PIN |
BANDWIDTH | 8.5 Gbit/s - 11.1 Gbit/s | MODULATION | NRZ |
DIGITAL DIAGNOSTIC MANAGEMENT (DDM) | Yes, internally calibrated | TRANSMIT AND DISPERSION PENALTY | 2 dB |
POWER CONSUMPTION | 3.5 W | EXTINCTION RATIO | 3.5 dB |
INBUILT FEC | No | PROTOCOLS | 10G Ethernet, 10G FC, 8G Fibre Channel, OTU2, STM-64 |
Functional Diagram