980-9I595-00AM00 Mellanox 850NM 25GBE SFP28 Transceiver

Overview of Mellanox 980-9I595-00AM00 Optical Transceiver

The Mellanox 980-9I595-00AM00 25GbE SFP28 MPO 850nm transceiver is engineered for high-speed data transmission. With advanced optical design, it ensures reliable connectivity for enterprise networking, cloud infrastructure, and modern data centers.

General Information

• Manufacturer: Mellanox
• Part Number: 980-9I595-00AM00
• Product Type: Optical Transceiver

Technical Specifications

• Supports up to 25 Gb/s data rate
• Programmable RX output amplitude
• Programmable RX output emphasis
• Programmable TX input equalizer
• Selectable retiming functionality

Compliance Standards

• SFF-8402 compliant
• SFF-8472 compliant I2C management interface
• IEEE 802.3 25GBASE-SR compliant
• IEEE 802.3 10GBASE-SR compliant

Power & Efficiency

• Operates on 3.3V power supply
• SFP28 power level 1
• Energy-efficient design for modern networking

Optical Characteristics

• Up to 100 meters on OM4 fiber at 25Gb/s
• Up to 70 meters on OM3 fiber at 25Gb/s
• Up to 100 meters on OM3 fiber at 10Gb/s

Safety & Reliability

• Class 1 laser safety certified
• Hot-pluggable design for easy installation
• RoHS compliant for environmental standards

Environmental Conditions

Operating Temperature

• Designed for stable performance across standard networking environments

Mellanox 980-9I595-00AM00 25GBE MPO 850nm Transceiver

The Mellanox 980-9I595-00AM00 25GBE SFP28 MPO 850nm transceiver represents a specialized segment within high-speed optical networking components designed to meet the evolving requirements of modern data center infrastructures. This category focuses on high-performance, short-range optical modules that support 25 Gigabit Ethernet connectivity over multimode fiber, delivering reliable and energy-efficient data transmission for enterprise and hyperscale environments. The SFP28 form factor has become a preferred standard due to its compact design, backward compatibility, and ability to provide higher bandwidth compared to earlier SFP+ solutions.

High-Speed Optical Connectivity for Modern Networks

As network demands continue to grow exponentially, organizations require robust and scalable solutions to maintain optimal performance. The 25GBE SFP28 MPO transceiver category is engineered to support high-throughput applications such as cloud computing, virtualization, big data analytics, and storage networking. These modules operate at 850nm wavelength and utilize MPO connectors, enabling parallel optical transmission and efficient cabling for dense network deployments.

Role in Data Center Architecture

Within data center environments, these transceivers play a critical role in facilitating low-latency communication between switches, servers, and storage systems. Their ability to deliver consistent performance across short distances makes them ideal for top-of-rack, end-of-row, and spine-leaf architectures. The MPO interface simplifies cable management and supports high-density connectivity, reducing clutter and improving airflow within racks.

Optimized for Scalability

Scalability is a key consideration in network planning, and the 25GBE SFP28 MPO 850nm transceiver category addresses this requirement effectively. These modules allow seamless upgrades from 10GbE to 25GbE without requiring extensive infrastructure changes. Their compatibility with existing multimode fiber installations further enhances deployment flexibility while minimizing upgrade costs.

Technical Characteristics of 25GBE SFP28 MPO 850nm Transceivers

This category is defined by a set of technical specifications that ensure reliable operation and high performance in demanding environments. The use of vertical cavity surface emitting laser technology contributes to efficient optical signal generation, while advanced digital diagnostics enable real-time monitoring of parameters such as temperature, voltage, and optical power levels.

Transmission Technology and Wavelength Efficiency

The 850nm wavelength is specifically optimized for short-range communication over multimode fiber. This allows for cost-effective deployments while maintaining high data integrity. The use of MPO connectors facilitates multiple fiber channels, enabling parallel transmission that supports increased bandwidth without compromising signal quality.

Signal Integrity and Error Reduction

Maintaining signal integrity is essential for high-speed networking, and these transceivers incorporate advanced error correction mechanisms to minimize data loss. The design ensures stable performance even in high-density environments where electromagnetic interference and thermal variations may impact transmission quality.

Power Consumption and Thermal Management

Energy efficiency is a defining feature of this category. The modules are designed to consume minimal power while delivering maximum output, reducing operational costs, and supporting environmentally sustainable data center practices. Integrated thermal management systems help maintain optimal operating temperatures, extending the lifespan of the transceiver.

Applications Across Enterprise and Cloud Environments

The versatility of 25GBE SFP28 MPO 850nm transceivers makes them suitable for a wide range of applications. From enterprise IT infrastructures to large-scale cloud deployments, these modules provide the performance and reliability needed to support mission-critical operations.

Cloud Computing and Virtualization

Cloud platforms rely heavily on high-speed connectivity to ensure seamless data transfer between virtual machines and storage systems. The transceivers in this category support the bandwidth requirements of cloud environments, enabling efficient workload distribution and rapid data processing.

High-Performance Computing

In high-performance computing environments, where large volumes of data must be processed in real time, these optical modules deliver the speed and reliability required to maintain system efficiency. Their low latency characteristics make them ideal for applications such as scientific simulations, financial modeling, and artificial intelligence workloads.

Enterprise Network Backbone

Enterprises utilize these transceivers to build robust network backbones that support internal communications, data storage, and application delivery. The ability to handle high data rates ensures smooth operation across departments and enhances overall productivity.

Compatibility and Integration Capabilities

One of the key advantages of the Mellanox 980-9I595-00AM00 category is its compatibility with a wide range of networking equipment. These transceivers are designed to integrate seamlessly with switches, routers, and network interface cards that support SFP28 interfaces.

Interoperability with Networking Hardware

Interoperability is crucial for maintaining flexibility in network design. The modules adhere to industry standards, ensuring consistent performance across different hardware platforms. This compatibility allows organizations to deploy these transceivers without being restricted to a single vendor ecosystem.

Ease of Installation and Maintenance

The plug-and-play design of SFP28 transceivers simplifies installation and reduces deployment time. Hot-swappable capabilities allow for replacement or upgrades without disrupting network operations, ensuring continuous uptime in critical environments.

Firmware and Diagnostic Support

Advanced firmware features provide comprehensive diagnostic capabilities, enabling network administrators to monitor performance metrics and identify potential issues before they escalate. This proactive approach enhances network reliability and reduces maintenance costs.

Advantages of MPO Connectivity in High-Density Networks

MPO connectivity is a defining characteristic of this transceiver category, offering significant advantages in high-density networking scenarios. The ability to support multiple fiber channels within a single connector simplifies cabling and improves overall efficiency.

Enhanced Cable Management

Efficient cable management is essential for maintaining organized data centers. MPO connectors reduce the number of individual cables required, minimizing clutter and simplifying installation. This streamlined approach improves airflow and facilitates easier maintenance.

Support for Parallel Optical Transmission

Parallel optical transmission enables higher data rates by distributing the signal across multiple fibers. This approach enhances bandwidth capacity and reduces the risk of bottlenecks, ensuring smooth data flow across the network.

Future-Proof Infrastructure

Investing in MPO-based transceivers ensures that network infrastructure is prepared for future upgrades. The scalability of MPO technology allows organizations to expand their networks without significant reconfiguration, supporting long-term growth and innovation.

Performance Optimization

Performance and reliability are critical factors in selecting optical transceivers, and this category is engineered to meet the highest standards. Rigorous testing and quality assurance processes ensure consistent operation under varying conditions.

Low Latency Data Transmission

Low latency is essential for applications that require real-time data processing. These transceivers are designed to minimize transmission delays, enabling faster communication between network components and improving overall system responsiveness.

Durability and Longevity

The robust construction of these modules ensures long-term reliability, even in demanding environments. High-quality materials and precision engineering contribute to their durability, reducing the need for frequent replacements.

Compliance with Industry Standards

Compliance with established standards ensures compatibility and reliability across different network configurations. These transceivers meet stringent requirements for performance, safety, and environmental sustainability.

Deployment Considerations and Best Practices

Successful deployment of 25GBE SFP28 MPO 850nm transceivers requires careful planning and adherence to best practices. Factors such as cable type, distance limitations, and network architecture must be considered to achieve optimal performance.

Fiber Selection and Distance Optimization

Choosing the appropriate multimode fiber type is essential for maximizing transmission distance and maintaining signal quality. Proper planning ensures that the network can support the desired data rates without degradation.

Network Design Strategies

Effective network design involves selecting the right topology and ensuring adequate redundancy. Incorporating these transceivers into a well-structured architecture enhances reliability and simplifies troubleshooting.

Market Trends and Technological Advancements

The demand for high-speed optical transceivers continues to grow as organizations adopt advanced technologies such as cloud computing, edge computing, and artificial intelligence. The 25GBE SFP28 MPO 850nm transceiver category is at the forefront of this evolution, offering solutions that meet the increasing need for bandwidth and efficiency.

Transition to Higher Data Rates

The shift from 10GbE to 25GbE represents a significant advancement in networking technology. This transition allows organizations to achieve higher performance without a proportional increase in cost, making it an attractive option for modern deployments.

Integration with Emerging Technologies

These transceivers are designed to support emerging technologies that require high-speed connectivity. Their ability to handle large volumes of data makes them suitable for applications such as machine learning, real-time analytics, and Internet of Things deployments.

Focus on Energy Efficiency

Energy efficiency remains a key focus in the development of optical networking solutions. The low power consumption of these transceivers aligns with industry efforts to reduce energy usage and promote sustainable practices.