The DC266B-B is a standout demonstration board from Linear Technology, showcasing the capabilities of a high-performance, integrated battery charger controller for modern electronics. This demo board is designed to be a versatile tool for engineers and designers looking to evaluate the features and functionality of a top-tier charging solution.

Key Features

• High Efficiency: The DC266B-B is engineered to provide efficient charging, ensuring minimal power loss during the process. This results in faster charging times and better energy conservation.
• Wide Input Voltage Range: Accommodating a broad spectrum of input voltages, this demo board is suitable for a multitude of applications, offering flexibility in design and usage.
• Adjustable Charging Current: Users can tailor the charging current to match the needs of their specific battery type and capacity, providing a customizable and optimized charging experience.
• Multi-Chemistry Battery Support: The DC266B-B is compatible with various battery chemistries, including Li-Ion, NiMH, and Lead-Acid, making it a versatile choice for a range of products.
• Robust Safety Features: Safety is a priority with the DC266B-B, which includes protection mechanisms against overvoltage, overtemperature, and short-circuit conditions.

Applications

The DC266B-B demo board is well-suited for a variety of applications, including but not limited to:

• Portable consumer electronics
• Handheld devices
• Industrial and medical equipment
• Automotive and marine systems

Technical Specifications

With precise attention to detail, the DC266B-B is built to deliver reliable and consistent performance. Here are some of its technical specifications:

• Voltage Input Range: 4.5V to 32V
• Programmable Charge Current Up to 4A
• Integrated Charge Termination
• Automatic Recharge Feature

Linear Technology's DC266B-B demo board exemplifies the company's commitment to providing innovative and practical solutions for power management challenges. It's an essential tool for any professional looking to implement an efficient charging system in their electronic designs.