ON Semiconductor MMSZ5252ET1G Zener Diode

The MMSZ5252ET1G from ON Semiconductor is a high-quality Zener diode, designed to offer excellent voltage regulation with a minimal footprint. This surface-mount device is part of ON Semiconductor's extensive Zener diode product line, known for its reliability and performance in a variety of applications.

Key Features

• Voltage Regulation: The MMSZ5252ET1G provides a nominal Zener voltage of 24V, making it suitable for a range of voltage stabilization tasks.
• Power Dissipation: With a power dissipation rating of 500 mW, this diode can handle moderate levels of power, ensuring stable operation in various circuits.
• Package: It comes in a compact SOD-123 package, which is ideal for space-constrained applications.
• Tolerance: The Zener voltage tolerance is ±5%, allowing for precise voltage regulation in critical designs.
• Operating Temperature: The device can operate over a wide temperature range from -55°C to +150°C, providing reliable performance under extreme conditions.

Applications

The versatility of the MMSZ5252ET1G makes it suitable for a plethora of applications, including:

• Power management in consumer electronics
• Voltage reference in industrial systems
• Protection circuits in telecommunications equipment
• Regulation modules in automotive electronics

Quality and Compliance

ON Semiconductor is committed to delivering high-quality components that meet rigorous industry standards. The MMSZ5252ET1G Zener diode is no exception, as it is compliant with RoHS directives, ensuring it is free from harmful substances. Additionally, it supports the Pb-free soldering process, aligning with modern environmental and manufacturing standards.

Conclusion

For designers and engineers looking for a reliable voltage regulation solution, the MMSZ5252ET1G from ON Semiconductor is an excellent choice. Its combination of a small footprint, precise voltage control, and robust performance under varying conditions make it a go-to component for a wide array of electronic devices and systems.