The AZ23C5V1-7-F is a high-performance dual Zener diode, meticulously engineered by Diodes Incorporated, a leading manufacturer in the semiconductor market. This product is designed to offer precise voltage regulation, making it an ideal component for a variety of electronic applications. With its small form factor and exceptional reliability, the AZ23C5V1-7-F stands out as a superior choice for designers and engineers seeking to enhance their circuit designs.

Key Features

• Voltage Regulation: The dual Zener diode configuration allows for efficient voltage regulation, with a nominal Zener voltage of 5.1V, providing stable performance across various conditions.
• Power Dissipation: It boasts a power dissipation of 300mW, ensuring that the device can handle a significant amount of energy without compromising its integrity.
• Package: Enclosed in an SOT-23 package, the AZ23C5V1-7-F is designed for surface-mount technology (SMT), which is conducive to modern, high-density circuit board designs.
• High Surge Capability: This component is capable of withstanding surge currents, making it suitable for applications that may experience unexpected voltage spikes.
• Environmental Compliance: The AZ23C5V1-7-F is compliant with the RoHS directive, which means it is free from hazardous substances, aligning with global environmental standards.

Applications

The versatility of the AZ23C5V1-7-F allows it to be utilized in a wide array of applications, including but not limited to:

• Power supply regulation
• Overvoltage and surge protection circuits
• Consumer electronics
• Telecommunication devices
• Automotive systems
• Industrial equipment

Quality and Reliability

Diodes Incorporated is committed to delivering products that meet the highest standards of quality and reliability. The AZ23C5V1-7-F has undergone rigorous testing to ensure it performs to specifications under a wide range of conditions. Engineers can confidently integrate this Zener diode into their designs, knowing it will provide consistent performance and longevity.