The Linear Technology LTM4676EY#PBF is a highly versatile and efficient dual 13A or single 26A μModule (micromodule) regulator designed to cater to a wide range of power supply requirements for modern electronic applications. This advanced device integrates top-notch power management capabilities within a compact, surface-mount package, making it an ideal solution for space-constrained systems.

Key Features:

• High Efficiency: The LTM4676EY#PBF features high-efficiency synchronous step-down switching regulators that are capable of delivering up to 93% efficiency, reducing heat generation and improving system reliability.
• Dual or Single Output: This regulator can be configured to provide dual 13A outputs or a single 26A output, offering flexibility in power design for various applications.
• Advanced Power Management: Equipped with digital power system management, the LTM4676EY#PBF allows for telemetry-based monitoring of power and thermal conditions, fault logging, and on-the-fly output voltage adjustment.
• Wide Input Voltage Range: The device operates over a wide input voltage range of 4.5V to 17V, accommodating a variety of supply voltages.
• Adjustable Output Voltage: The output voltage is adjustable from 0.5V to 5.5V, which can be set via external resistors or through the digital interface.
• Thermal Performance: The LTM4676EY#PBF comes in a thermally enhanced 16mm x 16mm x 5.01mm BGA package, ensuring excellent thermal performance and ease of heat dissipation.
• Robust Protection Features: The regulator includes overvoltage, overcurrent, and overtemperature protection to safeguard the device and the system it powers.

Applications:

The LTM4676EY#PBF is suitable for a broad range of applications, including:

• Datacom and Telecom Systems
• Networking and Storage Equipment
• Industrial Systems
• Medical Equipment
• High-Density Distributed Power Systems

With its advanced features and compact design, the Linear Technology LTM4676EY#PBF μModule regulator is a powerful solution for designers looking to enhance power efficiency and performance in their next-generation electronic systems.