Product Overview: LTM4700IY by Analog Devices Inc.

The LTM4700IY is a high-performance, dual 50A or single 100A step-down µModule (micromodule) regulator from the renowned manufacturer Analog Devices Inc. This power module integrates the latest power management technologies to provide efficient and reliable power delivery for demanding applications.

Key Features:

• High Output Current: The LTM4700IY can deliver dual 50A or a single 100A output, making it suitable for high current applications such as datacom/telecom, networking, and storage systems.
• Advanced Power Management: Equipped with digital power system management (PSM), the LTM4700IY offers precision point-of-load regulation, system telemetry, and advanced configuration capabilities.
• High Efficiency: The device features high-efficiency operation with its multi-phase operation, reducing heat generation and improving system performance.
• Wide Input Voltage Range: The LTM4700IY operates over a wide input voltage range from 4.5V to 16V, providing versatility in various system architectures.
• Adjustable Output Voltage: The output voltage is adjustable from 0.5V to 1.8V, which can be set via external resistors or through the digital interface.
• Thermal Performance: The LTM4700IY comes in a thermally enhanced package that aids in heat dissipation, ensuring reliable operation even at full load.
• Integrated Components: This module includes inductors, power stages, and all supporting components, minimizing the need for external components and simplifying the design process.

Applications:

The high current capability and advanced features of the LTM4700IY make it an ideal solution for a wide range of applications, including:

• High-density distributed power systems
• ASIC, FPGA, DSP & GPU supplies
• Telecommunications infrastructure
• Enterprise computing and storage systems
• Industrial and medical equipment

With its precision power delivery and robust feature set, the LTM4700IY from Analog Devices Inc. is a compelling choice for designers looking to optimize power efficiency and performance in their next-generation electronic systems.