The AZ1086D-2.5 is a low dropout positive voltage regulator capable of providing up to 1.5A of output current with a fixed 2.5V output. Manufactured by BCD Semiconductor Manufacturing Limited, it's tailored for applications requiring a stable 2.5V supply and minimal voltage drop.

Applications

• Linear regulation in embedded systems
• Post-regulation for switching regulators
• Power supplies for digital circuits
• Battery-powered devices
• Consumer electronics
• Industrial control systems

Features

• Fixed 2.5V Output Voltage: Provides a stable and accurate 2.5V supply.
• Low Dropout Voltage: Enables efficient operation with minimal input-output voltage differential.
• 1.5A Output Current Capability: Supplies adequate power for a variety of electronic components.
• Built-in Thermal Shutdown: Protects the regulator from damage due to overheating.
• Current Limiting Protection: Prevents excessive current flow, safeguarding the regulator and connected circuitry.
• High Accuracy: Ensures precise and reliable voltage regulation.

Benefits

• High Efficiency: Low dropout voltage minimizes power dissipation and increases efficiency.
• Reliable Performance: Integrated protection features ensure stable and dependable operation.
• Simplified Circuit Design: Requires fewer external components, making integration easier.
• Over-Temperature Protection: Enhances the longevity and reliability of the regulator.
• Stable Power Supply: Provides consistent power to sensitive electronic components.

Additional Details

The AZ1086D-2.5 is a three-terminal regulator and typically comes in a TO-252 package. Its fixed output voltage simplifies circuit design, providing a reliable and convenient solution for applications needing a 2.5V power supply. It is specifically designed to be stable with low ESR output capacitors. This regulator's robust design and protection features make it suitable for various industrial and commercial applications where a regulated 2.5V supply is required. The regulator is designed for use in environments with potential fluctuations in supply voltages and load currents.