Product Overview: D3Z8V2BF-7 Zener Diode from Diodes Incorporated

The D3Z8V2BF-7 is a high-performance Zener diode crafted by the renowned manufacturer Diodes Incorporated. It is designed to provide precision voltage regulation and is an essential component for various electronic circuits. The device is particularly suitable for applications that require a stable and reliable voltage reference.

Key Features

• Voltage Regulation: The D3Z8V2BF-7 offers a nominal Zener voltage of 8.2V, making it ideal for providing a stable reference voltage in many electronic applications.
• Power Dissipation: This Zener diode has a power dissipation rating of 500mW, which ensures that it can handle moderate levels of power without overheating or failing.
• Package: It comes in a small and compact SOD-323F package, which is ideal for space-constrained applications while still offering excellent thermal performance.
• High Stability: With its tight voltage tolerance and low leakage current, the D3Z8V2BF-7 provides a highly stable Zener voltage under varying conditions and loads.
• Operating Temperature Range: The device can operate over a wide temperature range from -55°C to +150°C, ensuring reliability in extreme environments.

Applications

The D3Z8V2BF-7 is versatile and can be used in a variety of applications, including:

• Voltage regulation in power supplies
• Surge protection in sensitive electronics
• Over-voltage protection circuits
• Waveform shaping
• Signal clipping

Diodes Incorporated's commitment to quality is evident in the D3Z8V2BF-7, with its robust design and reliable performance. Whether you're designing consumer electronics, industrial control systems, or telecommunications equipment, this Zener diode is an excellent choice for maintaining consistent voltage levels and protecting against voltage transients.

For detailed specifications and application notes, engineers and designers are encouraged to consult the comprehensive datasheet provided by Diodes Incorporated. This will ensure the D3Z8V2BF-7 is utilized to its full potential in your electronic designs.