Description
Product Overview
The Cisco SFP-H25G-CU1.5M is a vital component in modern networking, providing a reliable and efficient means of connectivity. This comprehensive guide aims to break down the technical aspects of the Cisco SFP-H25G-CU1.5M 25GBase SFP Copper Cable in simple terms, exploring its features, applications and benefits straightforwardly.
Understanding the Basics
Before delving into specifics, let’s establish a foundational understanding of the essential components and functionalities of the Cisco SFP-H25G-CU1.5M Copper cable :
Cisco SFP-H25G-CU1.5M Overview
The Cisco SFP-H25G-CU1.5M is a 25GBase Small Form-Factor plugable (SFP) copper cable designed to facilitate high-speed data transfer within network infrastructures.
25GBase Technology
The 25GBase technology signifies the cable’s capacity to transmit data at speeds of 25 gigabits per second (Gbps), making it suitable for high-performance networking environments.
Small Form-Factor Pluggable (SFP)
The SFP is a compact and hot-pluggable transceiver module used for both telecommunication and data communication applications, offering flexibility in network configurations.
Key Features of Cisco SFP-H25G-CU1.5M
Let’s explore the standout features that define the Cisco SFP-H25G-CU1.5M cable, highlighting its technological advancements and performance capabilities:
Optimized Data Transfer at 25Gbps
The cable supports data transfer rates of 25Gbps, ensuring swift and efficient communication within the network.
Compact Small Form-Factor Pluggable Design
With a small form-factor design, the SFP-H25G-CU1.5M offers flexibility and scalability, allowing for easy integration into various network setups.
Passive Copper Technology
Leveraging passive copper technology, this cable facilitates reliable data transmission without the need for external power, ensuring cost-effectiveness.
1.5 Meters (5 Feet) Length
The 1.5-meter length of the cable provides flexibility in network configurations, accommodating various physical layouts and distances.
Technical Specifications
Understanding the technical aspects of the Cisco SFP-H25G-CU1.5M cable sheds light on its capabilities and performance metrics:
Data Transfer Speed
The cable supports data transfer at 25 gigabits per second (Gbps), making it suitable for high-speed networking requirements.
Cable Length
With a length of 1.5 meters (5 feet), the cable offers versatility in network setups, allowing for efficient connectivity across different devices and components.
Copper Material
Constructed with copper material, the cable ensures durability and reliability in data transmission, minimizing signal loss and interference.
Applications and Use Cases
The Cisco SFP-H25G-CU1.5M cable finds application across diverse scenarios due to its high data transfer speed and flexibility. Here are notable use cases:
Data Center Connectivity
In data center environments, where high-speed and reliable connectivity is paramount, the SFP-H25G-CU1.5M cable facilitates efficient communication between servers, switches, and storage devices.
High-Performance Computing
For high-performance computing clusters and environments requiring rapid data transfer, this cable supports seamless communication between nodes.
Networking Infrastructure
Within general networking infrastructures, the SFP-H25G-CU1.5M cable plays a crucial role in connecting routers, switches, and other networking equipment.
Telecommunication Systems
In telecommunication systems, the cable ensures reliable data transfer, supporting various communication protocols and applications.
General Information about this Cisco SFP-H25G-CU1.5M
- Manufacturer: Cisco
- Model Number or SKU# SFP-H25G-CU1.5M
- Product Type: 5 Feet Cable
In summary, the Cisco SFP-H25G-CU1.5M 25GBase SFP Copper Cable stands as a reliable and high-speed connectivity solution for networking environments, offering swift data transfer, flexibility, and cost-effectiveness. Understanding its features, applications, and maintenance practices enables efficient utilization within diverse network setups, ensuring seamless communication and optimal performance.
