The SZBZX84C22LT3G from ON Semiconductor is a surface-mount Zener diode that offers excellent voltage regulation with a minimal footprint. Designed for applications requiring a precise voltage reference, this Zener diode is commonly used in power supplies, voltage regulators, and other electronic circuits where voltage stabilization is essential.

Key Features

• Nominal Zener Voltage: 22V, providing a stable voltage reference for various electronic applications.
• Power Dissipation: With a power dissipation of 300mW, it can handle moderate levels of power without compromising performance.
• Package: The SOT-23 package is compact and suitable for high-density circuit designs.
• Tolerance: A tight tolerance of ±5% ensures precise voltage regulation for sensitive circuits.
• Operating Temperature Range: This diode operates effectively within a wide temperature range from -55°C to +150°C, making it versatile for various environmental conditions.
• Quality and Reliability: ON Semiconductor is known for their commitment to quality, and this Zener diode is no exception, providing reliable performance in a range of applications.

Applications

The SZBZX84C22LT3G Zener diode is ideal for use in:

• Voltage regulation modules
• Overvoltage protection circuits
• Switching power supplies
• Consumer electronics
• Telecommunication devices
• Automotive electronics

Environmental and Regulatory Compliance

This product is compliant with RoHS (Restriction of Hazardous Substances) directives, indicating that it is manufactured with a commitment to environmental safety and sustainability. It is also lead-free, reducing the environmental impact and health risks associated with lead-based electronic components.

Conclusion

The ON Semiconductor SZBZX84C22LT3G Zener diode is a reliable and versatile component that offers precise voltage regulation for a wide array of electronic applications. Its compact size, robust power handling, and compliance with environmental standards make it a smart choice for designers looking to enhance the stability and performance of their circuits.