In this episode of our "3 for 3" series, we dive into Analog Devices' LTM4652 µModule® Regulator. Join us as we explore the key features, specifications, and applications of this powerful switching mode step-down regulator. The LTM4652 offers an impressive source/sink dual ±25A or single ±50A output, with a total DC output error of just ±1.5%. With an input voltage range of 4.5 to 18 volts and an output range of 0.6 to 7.5 volts, this µModule regulator delivers high efficiency and exceptional performance across varying line, load, and temperature conditions.
One standout feature of the LTM4652 is its differential remote sense amplifier, which enables accurate measurement of low output voltages at the load point. The integration of switching controllers, power MOSFETs, inductors, and supporting components within the compact package simplifies the design process, requiring only a single resistor to set each output voltage.
For applications with higher current demands, the LTM4652 supports multiphase parallel current sharing of up to ±300 amps, without increasing input or output voltage ripple. Phase differences can be easily configured through pin tying, enabling the implementation of 2 to 12 phases for lower RMS ripple current and excellent current sharing.
With its precise voltage regulation and fast output transient response, the LTM4652 is an ideal solution for powering modern ASICs, FPGAs, processors, and other critical components. Its compact 16 x 16 x 4.92 mm BGA package, equipped with an exposed top pad for heatsinking, ensures efficient thermal management. Additionally, the device incorporates input and output overvoltage protection as well as bidirectional overcurrent protection for enhanced reliability.
Experience the versatility and performance of the Analog Devices LTM4652 µModule Regulator. Discover how it can elevate your designs in test and measurement instrumentation, telecom and networking equipment, and industrial applications. Visit our website to learn more and find the LTM4652 µModule Regulator from Analog Devices today.
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00:08 What is the Analog Devices LTM4652 µModule® Regulator?
01:23 How can the LTM4652 minimize the required output capacitance?
02:08 Where is the LTM4652 µModule Regulator used?
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