TPS2410PWR - Texas Instruments

Manufacturer Part Number

TPS2410PWR

Manufacturer

Texas Instruments

Introduction

The TPS2410PWR by Texas Instruments is a crucial component in power management, specifically designed for N+1 ORing applications.

Product Features and Performance

Designed for N+1 power supply redundancy setups.

Utilizes N-Channel MOSFETs for ORing control.

Does not have an internal switch, allowing for external MOSFET customization based on application needs.

Fast OFF delay time of 130 ns to swiftly disconnect faulty supplies.

Low supply current of 4.25 mA, optimizing power efficiency.

Supports a wide voltage supply range from 3V to 16.5V, enhancing versatility.

Product Advantages

Enhances system reliability through efficient power supply redundancy.

Provides flexibility in choosing external MOSFETs based on specific requirements.

Ensures rapid disconnection of faulty power supplies, protecting the system.

Low power consumption aids in overall system efficiency.

Versatile voltage range accommodates varying power supply designs.

Key Technical Parameters

Type: N+1 ORing Controller

FET Type: N-Channel

Ratio Input:Output: N:1

Delay Time OFF: 130 ns

Current Supply: 4.25 mA

Voltage Supply: 3V ~ 16.5V

Operating Temperature: -40°C ~ 85°C

Quality and Safety Features

Ensures system protection and longevity by swiftly managing power supply faults and discrepancies.

Compatibility

Compatible with a wide range of N-Channel MOSFETs, offering flexibility in system design.

Application Areas

Critical in high availability systems.

Ideally suited for server power supplies, telecommunications, and data centers that require redundant power supplies to maintain operation.

Product Lifecycle

Active product status, indicating ongoing production and support. No immediate indication of discontinuation or lack of replacements/upgrades.

Several Key Reasons to Choose This Product

Texas Instruments' reliability and support.

High flexibility in power system design due to external MOSFET selection.

Enhances overall system reliability with rapid fault isolation.

Low power consumption improves system efficiency.

Broad operating voltage range caters to various power supply configurations.