Brocade (Formerly) 10G-SFPP-ZRD-1534-25 Compatible SFP+ Transceiver — 10GBase-DWDM, 1534.25 nm, 80 km, LC, DOM, TAA Compliant

Elevate your network with the Brocade (Formerly) 10G-SFPP-ZRD-1534-25 compatible SFP+ transceiver, a cost-efficient, OEM-grade module engineered for reliable long-haul 10GBase-DWDM connectivity. Designed for data centers, service providers, and enterprise networks, this 10G SFP+ transceiver delivers robust performance over single-mode fiber (SMF) at a wavelength of 1534.25 nm on a 100 GHz DWDM grid. It is built to meet or exceed OEM specifications while offering Digital Optical Monitoring (DOM) for proactive health checks, a compact LC duplex connector for easy integration, and a wide operating temperature range that makes it ideal for diverse deployment environments. This module is TAA compliant, enabling streamlined procurement in government and compliant commercial networks, and it supports plug-and-play operation with compatible 10GBase-DWDM ports, preserving existing investments while enabling scalable upgrades.

• High-performance 10G DWDM optics: This transceiver supports 10GBase-DWDM throughput over SMF, delivering reliable, high-capacity uplinks for data center interconnects, campus networks, and backbone links. Its 10G capability ensures compatibility with standard 10G Ethernet switching fabrics, while its DWDM capabilities enable efficient use of fiber bandwidth across multiple channels. The module’s design prioritizes low insertion loss, high optical signal-to-noise ratio, and stable power output, helping to maintain consistent link margins even in mixed-vendor environments where spectral efficiency matters. With the 1534.25 nm wavelength on a 100 GHz grid, this transceiver is tailored for longer-distance, high-density DWDM deployments, reducing the need for additional amplifiers or4 ROADMs in many applications.
• Exact wavelength, grid, and connector details: Operating at 1534.25 nanometers, the transceiver sits precisely on the C-band DWDM grid to maximize reach and interoperability with common DWDM mux/demux equipment. The 100 GHz spacing aligns with standard DWDM architectures, enabling predictable channel allocation and easier capacity planning. It uses a standard LC duplex fiber connector for straightforward installation and compatibility with legacy and modern fiber infrastructure. The DOM capability provides real-time visibility into transmit power, received power, temperature, and other critical parameters, allowing operators to monitor link health remotely and address degradations before they affect service.
• Durability and wide operating range: Built for real-world data-center and network deployments, this module operates from 0 to 70°C, supporting reliability in racks, telecom rooms, and edge locations where environmental conditions can vary. The rugged package and quality optical components resist performance drift, ensuring stable performance across the device’s lifecycle. TAA compliance further enhances procurement flexibility for government buyers and organizations with strict sourcing requirements. The transceiver’s OEM-aligned design minimizes compatibility risk, giving you confidence when mixing stock from different vendors across a multi-vendor network.
• Plug-and-play deployment with smart monitoring: This is a plug-and-play SFP+ module that slides into a compatible 10GBase-DWDM port with a standard SFP+ hot-swap design. It supports hot-swapping, allowing network maintenance without powering down the chassis in many configurations. Once installed, link status is typically indicated through standard management interfaces, and DOM provides ongoing remote monitoring of laser temperature, voltage, transmit/receive power, and quality metrics. The module’s compact form factor helps preserve port density in dense racks, while its DWDM capabilities deliver scalable capacity without major hardware changes.
• Quality assurance and procurement support: Designed to meet or exceed OEM specifications, this transceiver undergoes rigorous testing and quality control processes to ensure consistent performance and interoperability. The reputable lineage associated with the Brocade/SFP+ family provides confidence in spare parts availability, long-term service life, and accessible technical support from authorized distributors. The combination of DWDM capability, reliable optics, and procurement-friendly compliance makes this module a safe choice for network refresh cycles, capacity upgrades, and multi-vendor environments where compatibility and supply chain resilience are critical.

Technical Details of Brocade (Formerly) 10G-SFPP-ZRD-1534-25

• Product type: SFP+ transceiver (10GBase-DWDM)
• Wavelength: 1534.25 nm
• DWDM grid: 100 GHz
• Distance support: Up to 80 km
• Fiber type: Single-mode fiber (SMF)
• Connector: LC duplex
• DOM: Yes (Digital Optical Monitoring)
• Operating temperature: 0 to 70°C
• Compliance: TAA Compliant
• Form factor: SFP+ (1x9.5 mm) with standard hot-swap
• Compatibility: Designed to match OEM 10G-SFP+ DWDM specifications for 1534.25 nm deployments

How to install Brocade (Formerly) 10G-SFPP-ZRD-1534-25

• Power down the host equipment if the chassis does not support hot-swap for SFP+ modules, or confirm that your platform supports hot-swapping before installation. Remove the empty SFP+ slot cover if required and verify that the slot is clean of debris.
• Hold the transceiver by the edges and align the notch with the slot. Insert the module firmly into the SFP+ port until you hear a short click indicating it is seated correctly. Do not force the module, as improper seating can cause damage or intermittent link issues.
• Connect the LC duplex fiber patch cord to the transceiver, ensuring proper polarity and clean fiber ends. Typically, transmit (Tx) on one end should connect to receive (Rx) on the other end. Use appropriate patch cords and avoid bending the fiber beyond the recommended bend radius to prevent signal loss.
• Power on the equipment or confirm the chassis supports hot-swapping. Check the interface status in your network management system to confirm a physical link is established. If Digital Optical Monitoring (DOM) is enabled, review the optical metrics to ensure the module is performing within expected ranges.
• Monitor the link for a period (24–72 hours) to verify stability under real traffic. If any degradation is observed, consult DOM readings or firmware compatibility notes from your equipment vendor, and consider reseating the module or testing with a known-good spare. Maintain documentation for procurement and maintenance records to ensure compliance with organizational standards.

Frequently asked questions

• Q: What is the maximum transmission distance for this transceiver?
  A: Up to 80 kilometers over single-mode fiber (SMF) when paired with appropriate DWDM infrastructure and equipment supporting 1534.25 nm on a 100 GHz grid.
• Q: What wavelength does this transceiver use?
  A: It operates at 1534.25 nanometers, a standard DWDM channel within the C-band that supports long-haul links with reliable spectral performance.
• Q: Is this transceiver TAA compliant?
  A: Yes. It is TAA compliant, designed to meet procurement requirements for government and other compliant organizations.
• Q: Does it support Digital Optical Monitoring (DOM)?
  A: Yes. DOM is supported, providing real-time visibility into optical power, temperature, and other crucial parameters for proactive network management.
• Q: Is this transceiver compatible with multi-vendor equipment?
  A: The module is designed to meet OEM specifications for 10GBase-DWDM at 1534.25 nm, which supports interoperability with compatible 10G SFP+ ports. While it is built to be compatible with equipment expecting Brocade-style 10G SFP+ modules, cross-vendor compatibility depends on the specific vendor’s support for DWDM channels and firmware. Always verify compatibility with your network hardware vendor before deployment.