The PLVA656A/B series from NXP Semiconductors consists of high-precision voltage regulator diodes designed to offer a stable voltage across a wide range of current loads. These diodes are particularly well-suited for use in voltage regulation applications where a low voltage drop and a stable output are required.

Key Features

• Low Dynamic Impedance: The PLVA656A/B diodes feature a low dynamic impedance that ensures good regulation throughout the allowable current range.
• High Stability: These diodes are designed to provide a highly stable reference voltage over time, temperature, and variations in current, making them reliable for sensitive electronics.
• Tolerance Levels: The series includes components with tight tolerance levels, typically around ±2%, allowing for precise voltage regulation in critical applications.
• Wide Operating Current Range: The PLVA656A/B diodes can operate across a broad range of currents, making them versatile for different circuit designs.
• Package Variants: Available in various package options, including SOD80C and SOD323, to accommodate different space requirements and manufacturing processes.

Applications

The PLVA656A/B diodes are ideal for a multitude of applications where voltage regulation is crucial. These include:

• Battery chargers
• Power supplies
• Automotive electronics
• Consumer electronics
• Telecommunications infrastructure

Technical Specifications

The PLVA656A/B diodes have a nominal working voltage of 6.56 volts, which is maintained with high precision. They are capable of handling a maximum working current within the specified range for the device type, ensuring that they can support a variety of electronic components. Additionally, they are rated for operation over a broad temperature range, which ensures performance stability in diverse environmental conditions.

With their robust design and precision, the PLVA656A/B series from NXP Semiconductors is an excellent choice for designers looking for a reliable voltage regulation solution in their electronic circuits.