Manufacturer Part Number
LTC1731EMS8-8.2#PBF
Manufacturer
Analog Devices
Introduction
The LTC1731EMS8-8.2#PBF is a multi-chemistry battery charger integrated circuit (IC) from Analog Devices. It is designed to charge a variety of battery types, including Li-Ion, Li-Polymer, and NiMH, in a wide range of applications.
Product Features and Performance
Constant-current, constant-voltage charging algorithm
Programmable charge current up to 500mA
Supports 2-cell battery packs with a maximum voltage of 8.2V
Operating voltage range up to 12V
Wide operating temperature range of -40°C to 85°C
Integrated timer function for charge termination
Fault protection features
Product Advantages
Versatile multi-chemistry support for various battery types
Programmable charge current for flexible charging configurations
Compact and space-saving surface-mount package
Robust operating temperature range for reliable performance
Key Reasons to Choose This Product
Highly configurable and adaptable to different battery requirements
Reliable and safe charging with integrated fault protection
Efficient power management for extended battery life
Compact design for space-constrained applications
Quality and Safety Features
Robust design for reliable operation
Integrated safety features to prevent overcharge, overcurrent, and thermal issues
Compliance with relevant industry standards and regulations
Compatibility
The LTC1731EMS8-8.2#PBF is compatible with a wide range of battery types and can be used in various applications, such as portable electronics, power tools, and medical devices.
Application Areas
Portable electronics (smartphones, tablets, laptops)
Power tools and outdoor equipment
Medical devices and healthcare products
Industrial and automation equipment
Product Lifecycle
The LTC1731EMS8-8.2#PBF is an active product, and Analog Devices continues to offer this model. There may be equivalent or alternative models available, but it's recommended to contact our website's sales team for the most up-to-date information on product availability and potential replacements.