Introducing the LT4250HIS8#PBF from Linear Technology

The LT4250HIS8#PBF is a high-performance Hot Swap controller from Linear Technology, designed to allow a board to be removed from and inserted into a live backplane without causing any disruption to the system. This component is particularly suitable for systems that require a high level of availability and serviceability, such as servers, telecommunications equipment, and network infrastructure.

Key Features:

• Wide Operating Voltage Range: The LT4250HIS8#PBF operates over a range of voltages, making it versatile for different applications and ensuring compatibility with various system requirements.
• Adjustable Current Limit: This device allows for precise control of the inrush current, ensuring protection for both the card and the backplane during insertion.
• Overcurrent Protection: It features a fast-acting current limit to protect against short circuits and other overcurrent conditions.
• High Availability: With its robust design, the LT4250HIS8#PBF helps to maintain system uptime, which is critical in many industries where continuous operation is essential.
• Temperature Range: The component is designed to operate in industrial temperature ranges, ensuring reliability in harsh environments.

Applications:

The LT4250HIS8#PBF is ideal for a variety of applications that require hot swapping capabilities, including:

• Data centers and server farms
• Telecommunication systems
• Network switches and routers
• Industrial systems
• Medical equipment

With its compact S8 package, the LT4250HIS8#PBF saves valuable board space while providing the necessary features for safe and reliable hot swap operations. Its robust design and comprehensive protection features make it an excellent choice for system designers looking to enhance the serviceability and uptime of their systems.

Overall, the LT4250HIS8#PBF from Linear Technology represents a state-of-the-art solution for managing power distribution in hot-swappable systems, combining performance, flexibility, and reliability in a single package.