LM25010MH - Texas Instruments

Manufacturer Part Number

LM25010MH

Manufacturer

texas-instruments

Introduction

The LM25010MH from Texas Instruments is a versatile step-down switching regulator, operating within the Power Management category. It is designed to convert higher input voltage to a lower, adjustable output voltage, fulfilling the needs for efficient power regulation in a variety of electronic systems.

Product Features and Performance

Adjustable output voltage ranging from 2.5V to 37V

Capable of delivering 1A output current

Supports a wide input voltage range from 6V to 42V

Operates at a switching frequency range of 100kHz to 1MHz

Designed for surface mount technology, optimizing board space

Product Advantages

Wide input voltage range makes it suitable for various power supply conditions

High flexibility in output voltage selection fits multiple application needs

Efficient power conversion helps in reducing energy consumption

Adjustable switching frequency allows for performance optimization

Key Technical Parameters

Voltage Input (Min/Max): 6V / 42V

Voltage Output (Min/Max): 2.5V / 37V

Current Output: 1A

Frequency Switching: 100kHz ~ 1MHz

Operating Temperature: -40°C ~ 125°C (TJ)

Quality and Safety Features

Observes stringent quality and safety norms meeting Texas Instruments' standards

Designed for reliable operation in temperatures ranging from -40°C to 125°C

Compatibility

Surface mount technology enhances compatibility with modern PCB designs

Application Areas

Power supply for industrial equipment

Automotive electronics

Telecommunication systems

Consumer electronics

Product Lifecycle

Currently marked as Obsolete indicating cessation of production

Users are advised to seek replacements or upgrades for ongoing and future projects

Several Key Reasons to Choose This Product

Wide input and adjustable output voltage range cater to diverse power requirements

High efficiency in power conversion ensures energy savings

Flexible switching frequency accommodates various application demands

Robust design suitable for a wide range of operational temperatures enhances reliability

Obsolescence status necessitates the consideration for future-proofing designs with alternative solutions