ADI LTM4620IY#PBF Dual 13A or Single 26A μModule Step-Down Regulator

Revolutionizing Power Density: LTM4620IY#PBF μModule Regulator
The LTM4620IY#PBF dual 13A (or single 26A) μModule step-down regulator represents a breakthrough in high-density power conversion technology. Designed for space-constrained, high-current applications, this compact BGA-packaged solution combines exceptional power density with industry-leading efficiency. As systems demand more power in less space, the LTM4620IY#PBF emerges as the ideal choice for engineers seeking reliable, high-performance power solutions in demanding environments.

​Technical Excellence in Compact Packaging​
Engineered with Analog Devices' advanced power technology, this μModule operates from a wide 4.5V to 20V input range while delivering up to 26A output current (dual 13A channels) at 1.2V output. The integrated power stage includes MOSFETs, inductors, and compensation, providing a complete power solution in a 15mm × 15mm × 4.32mm BGA package. The solution maintains excellent thermal performance while supporting high-current applications.

​Applications Beyond Conventional Limits​
The LTM4620IY#PBF's versatility shines in diverse applications from high-performance computing to telecom infrastructure. Its high-current capability enables efficient power delivery for FPGAs, ASICs, and processors. The integrated power stage eliminates the need for external power components, simplifying system design. The device's high efficiency (up to 90%) makes it ideal for power-sensitive applications in data centers and telecom systems.

Telecom engineers particularly value its compact footprint and high power density, making it suitable for base stations and network equipment. The device's robust thermal performance ensures reliability in high-temperature environments.

​Design Advantages and System Optimization​
What sets this μModule apart is its comprehensive feature set for high-current power applications. The integrated power stage with optimized MOSFET selection provides high efficiency across load ranges. The programmable switching frequency allows optimization for noise sensitivity or efficiency requirements.

The μModule includes built-in protection features such as overcurrent, overvoltage, and overtemperature protection. The parallel operation capability enables scaling to higher current levels while maintaining current sharing. The compact BGA package provides excellent thermal performance while maintaining a small footprint for space-constrained designs.

Tags: Power Management, High Current DC/DC, Telecom Infrastructure, Data Center, Industrial Power, FPGA Power, μModule Regulator