FTLX8571D3BCVI31 Intel 10Gbps MM Fiber SFP+ Transceiver Module, 300m Range
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| FTLX8571D3BCVI31 | 1 Year Warranty | $53.00 | Excellent Refurbished | You save: $18.55 (26%) |
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Intel FTLX8571D3BCVI31 SFP+ Transceiver Module
The Intel FTLX8571D3BCVI31 SFP+ transceiver module is engineered to deliver dependable optical connectivity for enterprise, data center, and network infrastructure environments. Designed as a hot-swappable plug-in module, this compact networking component supports both Gigabit Ethernet and 10 Gigabit Ethernet applications, enabling seamless integration into modern switching, routing, and server platforms. Its robust design helps organizations maintain stable network performance while supporting bandwidth-intensive workloads.
Manufacturer Information
- Manufacturer: Intel
- Part Number: FTLX8571D3BCVI31
- Device Type: SFP+ Transceiver Module
Technical Specifications
- Form Factor: Plug-In Module
- Connectivity Technology: Wired
- 1000BASE-SX
- 10GBASE-SR
- Gigabit Ethernet
- 10 Gigabit Ethernet
Interface Details
- 1 x Network Interface – Ethernet 10GBASE-SR
- 1 x Compatible SFP+ Slot
- Rapid installation and replacement procedures.
- Reduced service interruptions during upgrades.
- Simplified network maintenance and troubleshooting.
- Flexible expansion of existing infrastructure.
- Support for evolving bandwidth requirements.
Benefits of 10 Gigabit Ethernet Connectivity
- Higher data transfer rates compared to traditional Gigabit links.
- Improved support for virtualization environments.
- Enhanced application responsiveness.
- Reduced network bottlenecks.
- Efficient handling of bandwidth-intensive workloads.
Supported Networking Protocols
- Gigabit Ethernet.
- 10 Gigabit Ethernet.
- 1000BASE-SX optical connectivity.
- 10GBASE-SR optical networking.
Key Advantages Optical Connectivity
- Consistent transmission quality.
- Minimal electromagnetic interference.
- Enhanced security compared to wireless networks.
- Reliable long-term operation.
- Stable throughput under heavy workloads.
Multimode Fiber Is Widely Used
- Cost-efficient optical infrastructure.
- Suitable for high-density network environments.
- Excellent support for short-range applications.
- Simplified deployment within buildings and campuses.
- Strong compatibility with modern optical networking equipment.
Common Data Center
- Top-of-rack switch connectivity.
- Server-to-switch optical links.
- Network aggregation layers.
- Storage area networking environments.
- Cloud computing infrastructure.
- Virtualized server deployments.
Space-Saving Benefits
- Higher port density.
- Efficient rack utilization.
- Reduced equipment footprint.
- Scalable network growth.
- Improved cable management possibilities.
Scalability Features
- Easy deployment across multiple network devices.
- Support for expanding infrastructure requirements.
- Adaptability to evolving workloads.
- Simplified upgrade paths.
- Compatibility with modern networking ecosystems.
Expansion Specifications
- One Ethernet 10GBASE-SR network interface.
- Compatible with standard SFP+ slots.
- Plug-in module architecture.
- Quick integration into supported platforms.
- Flexible deployment across network layers.
Intel FTLX8571D3BCVI31 850nm Transceiver Module
The Intel FTLX8571D3BCVI31 SFP+ 10 Gigabit 850nm Optical Ethernet Transceiver Module is designed to support demanding enterprise, cloud, data center, storage networking, and telecommunications environments where reliable high-bandwidth connectivity is essential. As organizations continue to expand their network infrastructures to accommodate virtualization, cloud computing, big data processing, and latency-sensitive applications, the demand for dependable 10 Gigabit Ethernet optical transceivers remains strong. This SFP+ transceiver module delivers exceptional optical performance, interoperability, and network reliability while maintaining compliance with industry standards.
Engineered for seamless integration with compatible networking equipment, the Intel FTLX8571D3BCVI31 utilizes multimode fiber technology and an 850nm optical wavelength to facilitate high-speed communication between switches, routers, servers, storage devices, and network appliances. The compact SFP+ form factor enables flexible deployment within dense networking environments where port scalability and efficient cable management are critical operational requirements.
850nm VCSEL Laser Technology
The Intel FTLX8571D3BCVI31 incorporates advanced Vertical Cavity Surface Emitting Laser technology operating at an 850nm wavelength. VCSEL-based optical transmission has become the preferred solution for short-range 10 Gigabit Ethernet deployments due to its efficiency, reliability, and cost-effective performance characteristics. The laser source enables stable optical signal generation while maintaining low power consumption and consistent transmission quality across supported distances.
By utilizing 850nm optical signaling, the transceiver supports high-speed communication over multimode optical fiber infrastructures commonly found within enterprise buildings, campus environments, and data centers. This wavelength is optimized for multimode fiber applications and provides dependable optical performance while minimizing transmission errors and signal degradation.
SFP+ Form Factor Advantages
The compact Small Form-Factor Pluggable Plus architecture allows network administrators to maximize switch and router port density without compromising performance. Compared with larger optical module formats, the SFP+ design significantly reduces physical space requirements while delivering full 10 Gigabit Ethernet throughput.
Modern network infrastructures often require hundreds or thousands of optical connections. The compact dimensions of the Intel FTLX8571D3BCVI31 help organizations deploy scalable network architectures that efficiently utilize rack space, improve airflow, and simplify equipment management within high-density environments.
10 Gigabit Ethernet Data Transmission
The module is engineered to support data rates up to 10.3125 Gbps, making it suitable for 10 Gigabit Ethernet networking applications. This transmission capability supports bandwidth-intensive workloads including virtualization clusters, storage area networks, cloud computing environments, database replication, video streaming, and large-scale enterprise communications.
High-speed optical communication ensures that network bottlenecks are minimized while maintaining predictable performance levels across mission-critical applications. The module contributes to efficient traffic handling and enables organizations to support growing data demands without sacrificing network responsiveness.
Multimode Fiber Compatibility
The Intel FTLX8571D3BCVI31 supports operation over OM2 multimode fiber cabling, enabling organizations with existing fiber deployments to leverage high-speed optical connectivity without extensive infrastructure replacement. OM2 fiber provides reliable short-distance communication suitable for numerous enterprise networking scenarios.
Many organizations maintain extensive multimode fiber installations throughout campuses and data centers. The compatibility of this transceiver with established fiber infrastructures helps reduce upgrade costs while extending the operational value of existing network investments.
Enhanced Performance with OM3 Fiber
OM3 laser-optimized multimode fiber provides improved transmission characteristics that support extended distances and enhanced signal integrity. When deployed with OM3 cabling, the Intel FTLX8571D3BCVI31 can achieve superior optical performance suitable for demanding network environments.
Data centers frequently utilize OM3 fiber to accommodate higher bandwidth requirements and facilitate efficient migration strategies toward advanced networking technologies. The transceiver's compatibility with OM3 infrastructure ensures flexibility for current and future network deployments.
OM4 Fiber Networks
Modern facilities increasingly deploy OM4 multimode fiber to maximize performance and support future scalability initiatives. The Intel FTLX8571D3BCVI31 operates efficiently over OM4 cabling, enabling organizations to benefit from enhanced bandwidth capabilities and optimized optical transmission characteristics.
OM4 infrastructure is particularly valuable within large-scale data center environments where high-density networking and rapid data movement are essential. The transceiver's support for advanced fiber types enhances deployment flexibility and long-term network planning.
Top-of-Rack Switching Environments
Top-of-rack network architectures require dependable optical connectivity between servers and aggregation switches. The Intel FTLX8571D3BCVI31 supports these environments by providing high-speed communication channels that facilitate efficient workload distribution and resource utilization.
As server densities continue increasing within modern data centers, reliable optical interconnections become increasingly important. This transceiver helps maintain consistent network performance while supporting virtualization, containerization, and cloud-based computing environments.
Leaf-Spine Network Deployments
Leaf-spine architectures have become a dominant design approach within contemporary data centers due to their scalability and predictable latency characteristics. The Intel FTLX8571D3BCVI31 supports optical links between leaf and spine switches, contributing to efficient east-west traffic movement and improved application responsiveness.
Organizations deploying cloud-native applications benefit from the high-speed connectivity enabled by 10 Gigabit Ethernet optical modules. The transceiver helps maintain balanced traffic distribution while supporting dynamic workload mobility across distributed infrastructure environments.
Server Connectivity Optimization
Direct server-to-switch optical connections play a crucial role in maintaining data center performance. The Intel FTLX8571D3BCVI31 enables reliable communication between physical servers, hyperconverged infrastructure platforms, and network switching equipment while supporting demanding enterprise workloads.
High-throughput connectivity allows organizations to optimize application performance, improve resource utilization, and reduce latency across critical business systems.
Campus Network Infrastructure
Large enterprise campuses often require high-speed fiber connections between network distribution layers, core switches, and departmental infrastructure. The Intel FTLX8571D3BCVI31 provides an effective solution for supporting these connectivity requirements while maintaining network stability and performance.
Organizations operating across multiple buildings can leverage optical fiber infrastructure to facilitate secure, high-bandwidth communication between critical network resources. The transceiver helps ensure efficient data movement while supporting business continuity objectives.
Corporate LAN Modernization
Many enterprises are transitioning from legacy Gigabit Ethernet networks toward 10 Gigabit Ethernet architectures to accommodate increasing application demands. The Intel FTLX8571D3BCVI31 supports modernization initiatives by providing dependable optical connectivity that aligns with contemporary networking requirements.
Bandwidth-intensive business applications, unified communications platforms, collaboration tools, and cloud-based services all benefit from enhanced network capacity. The transceiver contributes to a more responsive user experience while supporting organizational growth objectives.
Aggregation Layer Connectivity
Aggregation switches serve as critical traffic consolidation points within enterprise networks. The Intel FTLX8571D3BCVI31 facilitates reliable optical communication between access and core network layers, ensuring efficient traffic flow and supporting network resilience.
High-speed aggregation links help organizations maintain consistent application performance while enabling effective bandwidth management across distributed network infrastructures.
Network Attached Storage Connectivity
Modern NAS environments depend on high-speed network connectivity to deliver efficient file access and data sharing services. The Intel FTLX8571D3BCVI31 enables reliable communication between storage platforms and network infrastructure, supporting demanding enterprise storage workloads.
As data volumes continue expanding, organizations require networking solutions capable of handling large-scale backup operations, file transfers, and collaborative workflows. The transceiver helps maintain storage performance while reducing potential network bottlenecks.
Storage Area Network Integration
Enterprise storage area networks require dependable optical communication channels to ensure data availability and application performance. The Intel FTLX8571D3BCVI31 supports storage networking environments by providing stable high-speed connectivity between storage arrays, switches, and servers.
Efficient SAN connectivity is essential for database applications, virtualization platforms, disaster recovery systems, and business continuity strategies. The module contributes to reliable storage access while supporting organizational data management objectives.
Reliability and Operational Stability
The Intel FTLX8571D3BCVI31 is engineered to deliver consistent performance under demanding operational conditions. Quality manufacturing processes, precision optical components, and rigorous validation procedures contribute to long-term reliability across enterprise networking environments.
Organizations depend on network infrastructure availability to support mission-critical business operations. Reliable transceiver performance helps minimize downtime risks while maintaining communication continuity across interconnected systems.
Signal Integrity Optimization
Maintaining signal integrity is essential for high-speed optical communication. The Intel FTLX8571D3BCVI31 incorporates advanced optical and electronic design elements that help reduce transmission errors, improve data accuracy, and support stable network performance.
Consistent signal quality contributes to improved application responsiveness and enhanced user experiences while reducing the likelihood of network disruptions caused by communication errors.
IEEE Ethernet Standards Support
The Intel FTLX8571D3BCVI31 aligns with established IEEE Ethernet specifications that govern 10 Gigabit Ethernet optical communication. Compliance with recognized standards promotes interoperability and facilitates deployment within heterogeneous networking environments.
Standards-based networking solutions enable organizations to integrate equipment from multiple vendors while maintaining consistent performance and operational reliability.
MSA Compliance Benefits
Multi-Source Agreement compliance ensures compatibility with a broad range of networking platforms supporting standard SFP+ interfaces. This interoperability simplifies procurement decisions, deployment planning, and infrastructure expansion initiatives.
Organizations benefit from increased deployment flexibility and reduced concerns regarding hardware compatibility when implementing standards-compliant optical networking components.
Hot-Pluggable Functionality
The SFP+ hot-swappable design enables installation and replacement without requiring network equipment shutdown. This capability supports efficient maintenance procedures and minimizes service disruptions during infrastructure upgrades or component replacement activities.
Network administrators can perform maintenance operations more effectively while preserving business continuity and reducing operational downtime.
Network Scalability and Future Expansion
Business applications continue generating increasing volumes of network traffic. The Intel FTLX8571D3BCVI31 provides organizations with a dependable 10 Gigabit Ethernet connectivity solution capable of supporting evolving bandwidth requirements across enterprise, cloud, and data center environments.
Scalable optical networking infrastructure enables organizations to accommodate growth while maintaining performance consistency and operational efficiency.
