The BZT52HC2V7WF-7 from Diodes Incorporated is a high-performance, surface-mount Zener diode designed for electronic engineers who require a reliable voltage regulation solution in their circuit designs. This precision Zener diode offers a nominal Zener voltage of 2.7 volts, making it suitable for a wide range of applications, including voltage stabilization and clipping circuits.

Key Features

• Zener Voltage: The device features a 2.7V Zener voltage, which is ideal for providing a stable reference voltage in various applications.
• Power Dissipation: With a power dissipation of 200mW, the BZT52HC2V7WF-7 can handle moderate levels of power, making it suitable for a variety of electronic circuits.
• Package: Encased in a compact SOD-123 flat lead surface-mount package, this Zener diode is optimized for automated assembly processes and is space-efficient for high-density PCB designs.
• High Stability: The diode offers excellent stability and reliability over its entire operating temperature range, ensuring consistent performance in even the most demanding environments.
• Low Leakage Current: It features a low leakage current, which enhances the overall efficiency of the application by minimizing power loss.
• RoHS Compliant: The BZT52HC2V7WF-7 is RoHS compliant, meeting environmental standards by avoiding the use of hazardous substances in its manufacture.

Applications

This Zener diode is versatile and can be used in various applications such as:

• Voltage regulation modules
• Overvoltage protection circuits
• Switching power supplies
• Consumer electronics
• Industrial electronics

Product Specifications

Parameter Value Zener Voltage (V<sub>Z) 2.7V Power Dissipation (P<sub>D) 200mW Package Type SOD-123 Operating Temperature Range -55°C to +150°C Leakage Current Low Compliance RoHS

Whether you are designing power management systems or looking to incorporate voltage reference in your electronic design, the BZT52HC2V7WF-7 Zener diode from Diodes Incorporated offers the performance and reliability that modern applications demand.