Product Overview: BZX84J-C30 - NXP Semiconductors

The BZX84J-C30 is a high-performance Zener diode manufactured by NXP Semiconductors, designed to offer excellent voltage regulation with a nominal Zener voltage of 30V. This small-signal Zener diode is a member of NXP's extensive line of voltage regulator devices, which are widely used in electronic circuits for providing precise voltage references and shunt voltage regulation.

Key Features

• Zener Voltage: The BZX84J-C30 has a Zener voltage of 30V, making it suitable for applications requiring a stable reference voltage in this range.
• Power Dissipation: With a total power dissipation of 550mW, this Zener diode can handle moderate power levels, making it ideal for a variety of electronic circuits.
• Package: The device is housed in a small SOD-323F surface-mount package, allowing for high-density mounting and saving valuable board space.
• Tolerance: It offers a standard tolerance of ±5%, ensuring reliable operation and consistent performance.
• Temperature Stability: The BZX84J-C30 exhibits excellent stability over a wide operating temperature range, maintaining its Zener voltage characteristics under varying conditions.

Applications

The BZX84J-C30 is suitable for a wide range of applications, including:

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

Quality and Reliability

NXP Semiconductors is renowned for its commitment to quality and reliability, and the BZX84J-C30 is no exception. This Zener diode is produced with the highest standards in the industry, ensuring that it meets the rigorous demands of modern electronic systems. With its robust design and proven performance, the BZX84J-C30 from NXP is an excellent choice for designers looking for a dependable voltage regulation solution.

Environmental Compliance

Aligned with NXP's dedication to environmental responsibility, the BZX84J-C30 complies with various international standards, including RoHS and REACH, minimizing the environmental impact and ensuring safety for end-users.