Analog Devices Inc. LTC4226CMS-2#TRPBF Dual Hot Swap Controller

The LTC4226CMS-2#TRPBF is a sophisticated dual Hot Swap™ controller designed by Analog Devices Inc. to enable safe board insertion and removal from a live backplane. This high-performance integrated circuit (IC) is particularly suitable for systems that require a reliable power distribution and management solution for multiple supply voltages.

Featuring independent control of the two supply rails, the LTC4226CMS-2#TRPBF ensures that electronic components receive power in a controlled manner, protecting both the device under power and the power source from the adverse effects of inrush currents and potential short circuits. This level of protection is critical in complex systems such as servers, network routers, and industrial computers, where uninterrupted operation and data integrity are paramount.

The controller operates over a wide voltage range, accommodating various applications with supply voltages from 2.9V to 29V. Its compact 12-lead MSOP package is engineered for space-constrained environments, providing an efficient solution without compromising on performance.

Key features of the LTC4226CMS-2#TRPBF include:

• Overcurrent and overvoltage protection
• Adjustable current limit with circuit breaker functionality
• Fast response to fault conditions
• Power good indicators
• Programmable timing for undervoltage lockout (UVLO)
• High-side drive for external N-channel MOSFETs
• Thermal shutdown protection

With its robust feature set, the LTC4226CMS-2#TRPBF offers designers a versatile power management solution that minimizes the need for additional components, simplifying the design and reducing the overall bill of materials. Its tape and reel packaging (indicated by the suffix 'TRPBF') also facilitates efficient assembly for high-volume production environments.

Whether you're developing enterprise-grade IT infrastructure or designing mission-critical industrial equipment, the LTC4226CMS-2#TRPBF from Analog Devices Inc. provides the reliability and performance necessary to meet the stringent requirements of today's advanced electronic systems.