ADP1823ACPZ-R7 - Analog Devices Inc.

Manufacturer Part Number

ADP1823ACPZ-R7

Manufacturer

Analog Devices

Introduction

High-performance step-down switching controller for power management applications.

Product Features and Performance

Dual-output buck converter design

Topology: Buck (Step-Down)

Number of Outputs: 2 with two-phase operation

Synchronous rectification for improved efficiency

Frequency switching options of 300kHz or 600kHz

Able to operate with a duty cycle up to 90%

Supports clock synchronization

Offers features like enable pin, frequency control, power good signal, soft-start, and tracking functions

Product Advantages

Optimized for efficient power conversion

Capable of operating over a wide input voltage range

Precision voltage regulation and load management

Effective thermal performance due to exposed pad packaging

Highly integrated to minimize external component count

Key Technical Parameters

Voltage Supply (Vcc/Vdd): 3.7V ~ 20V

Number of Outputs: 2

Output Phases: 2

Output Type: Transistor Driver

Duty Cycle (Max): 90%

Compatibility with high-switching frequencies up to 600kHz

Quality and Safety Features

Built-in soft-start to mitigate inrush current

Power good output for real-time health monitoring

Over-temperature protection ensuring operational safety

Compatibility

Suited for surface mount technology due to 32-LFCSP-WQ package

Compatible with a range of input voltages and drive capabilities for various applications

Application Areas

Power supply modules

Distributed power systems

Communication infrastructure

Computing and data storage

Industrial and automotive electronics

Product Lifecycle

Product Status: Active

No indication of discontinuation, thus ensuring continued availability

Support for upgrades or next-generation products from Analog Devices

Several Key Reasons to Choose This Product

Flexible and efficient power management solution from a trusted manufacturer, Analog Devices

Wide input voltage range caters to various power supply needs

Two independent outputs with adjustable frequency control for design flexibility

Synchronous rectification and buck topology contribute to higher efficiency levels

Thermal management and protection features enhance reliability and durability