Product Description
100% OEM Compatible 10GBase-ZR XFP Transceiver (SMF, 1550nm, 100km, LC, DDM, Commercial Temp)
Specifications
Form Factor: XFP ZR 100Km | Data Rate: 11.09Gb/s Ethernet | 9.953 Gb/s SONET |
Wavelength: 1550nm | Protocols: 10GBASE Ethernet ER/EW | OC-192SR-1 | FEC | XFP MSA Compliant |
Connector: LC Duplex | Transmitter Type: Cooled EML Laser and PIN photodiode: 1550nm |
Cable Type: SMF | TX Power: Min: 2 Max: 5dBm |
Max Distance: 100 Kilometers (62.1 miles) | RX Sensitivity: -25dBm |
Temperature Range: Commercial Temp: 0C to 70C* | Digital Diagnostics (DDM/DOM): Supported |
Power Consumption: 3.5W | Power Budget: 24db |
Approved's XFP ZR OEM Compatibility
The Approved Networks 10GBASE-ZR XFP SMF 1550nm 100km DDM Transceiver is guaranteed 100% Compatible and Functional in its intended router or switch, and it is 100% MSA compliant. Our XFP ZR transceiver comes with an Industry Leading Lifetime Warranty, surpassing the OEM warranty for the same product. Every XFP ZR transceiver is environmentally tested in its specific port/platform, which includes compliance verification for distance, wavelength, traffic density and light.
- Adtran: 1442980G1C-100KM
- Alcatel-Lucent: 3HE05833CA-100KM
- Alcatel-Lucent: 3HE05761CA
- Alcatel-Lucent: 3HE01545AA-100
- Brocade-Foundry: 10G-XFP-ZR-100KM
- Calix: 100-01507-100KM
- Cisco: XFP-10GZR-OC192LR-100
- Fujitsu: FIM31052-100
- Juniper: XFP-10G-Z-OC192-LR2-100KM
- MSA Generic: XFP-ZR-100KM
- MSA OnePort Programmable: OP-XFP-ZRL-OC192-100
If you don't see your platform listed, please contact our engineering and technical support team.
Tested. Trusted. Approved.

Guaranteed Compatible
100% guaranteed compatible in over 90 OEM platforms

99.98%
Reliability Rate
100% tested to exact MSA & OEM specifications

Industry Leading Lifetime Warranty
Industry leading Limited Lifetime Warranty on all transceiver products

98% On-Time Delivery Rate
Extensive inventory guarantees immediate delivery on over 20,000 SKU's

Savings of up to 90% off OEM Prices
Save up to 90% while improving deliverability & interoperability