This premium BLC QSFP+ to 4x10G SFP+ Active Optical Cable (AOC) is a high-performance solution for connecting networks over long distances. The AOC features optical transmission technology, ensuring robust signal quality up to 30 meters. Its durable design makes it perfect for crowded server racks. With its extensive compatibility, this AOC is a essential choice for networks deployments.
High-Performance 4x10G SFP+ AOC from QSFP+ Breakout
Gaining ground in data centers worldwide is the need for high-speed connectivity solutions. Addressing this demand, innovative companies are presenting cutting-edge technologies like 4x10G SFP+ Active Optical Cables (AOCs) based on QSFP+ breakout architectures. These AOCs provide a affordable and dependable means to increase network bandwidth.
- Notably, the integration of QSFP+ breakout technology allows for a effortless transition from legacy infrastructure to advanced networking demands.
- Moreover, these AOCs offer several perks such as reduced latency and improved signal integrity.
In conclusion, the use of High-Performance 4x10G SFP+ AOC from QSFP+ Breakout is a progressive approach to meet the evolving needs of high-speed data transmission.
QSFP+ to 4 x 10G SFP+ AOC
Ensure seamless connectivity with our high-performance QSFP Plus to 4x10G SFP Plus AOC. This optical transceiver boasts a robust range of 15 meters, perfect for SMF installations. Designed with industry-leading optics, it delivers reliable data transmission at 10 Gigabit Ethernet (10GbE).
- Utilizing advanced engineering, this solution guarantees low latency.
- Ideal for demanding applications requiring extensive data transmission, such as data centers.
15M BLC QSFP+ to 4x10G SFP+ AOC with Small Form Factor Pluggable (SI) Optics
This advanced product supports seamless connectivity between high-speed devices. Leveraging the advantages of Small Form Factor Pluggable (SI) optics, it delivers more info exceptional performance and throughput.
- Furthermore, this solution is ideal for applications demanding high-density connectivity, such as cloud computing
- With its small form factor, it effectively utilizes limited space within networking equipment.
Additionally, the use of Active Optical Cables (AOCs) ensures low propagation time and lower signal loss over extended range.
10G Ethernet Transceiver : QSFP+ to 4xSFP+ AOC, Active Optical Cable
A QSFP+ transceiver is a device that allows for high-speed data transmission over optical fiber. Notably, it converts electrical signals from a network interface card (NIC) into optical signals and vice versa. Active Optical Cables (AOCs) provide a cost-effective alternative to traditional copper cables, especially for long distances. This type of transceiver is commonly used in data centers, high-performance computing environments, and cloud infrastructure.
- Bridging multiple network devices at high speeds
- Enabling seamless interoperability between different types of network equipment
- Enhancing overall network performance and efficiency
Opting for the right SFP+ transceiver is crucial for ensuring optimal network functionality. Factors such as data rate, distance, and connector type must be carefully considered.
A QSFP+ Breakout Cable: 4x10G SFP+ AOC for High-Density Data Center Applications
In the ever-evolving landscape of data centers, throughput demands are constantly rising. To meet these demands, high-density infrastructure solutions are essential. A QSFP+ Breakout Cable, capable of delivering 4x10G SFP+ signals via an AOC (Active Optical Cable), presents a powerful solution for maximizing data center utilization. These cables offer several advantages over traditional copper cabling, including reduced signal attenuation and improved energy efficiency.
- Furthermore, QSFP+ Breakout Cables contribute to a cleaner, more streamlined data center environment by eliminating the need for bulky copper cabling.
- Consequently, these cables are ideal for applications requiring high-speed data transmission, such as virtualization.
By leveraging QSFP+ Breakout Cables, data center operators can enhance their infrastructure's capabilities and effectively meet the ever-growing demands of modern applications.