Introducing the BZX284-C24,115 Zener Diode from NXP

The BZX284-C24,115 is a high-precision Zener diode produced by NXP Semiconductors, a leader in the electronics industry. This small yet powerful component is designed to offer excellent voltage regulation, making it an ideal choice for a wide array of electronic applications. The BZX284-C24,115 is especially suited for providing voltage references in numerous circuit designs due to its reliable performance and compact SOD110 package.

Key Features

• Voltage Regulation: With a nominal Zener voltage of 24V, the BZX284-C24,115 provides a stable voltage reference for your circuits.
• Tolerance: This component boasts a tight tolerance of approximately 5%, ensuring precise voltage control and stability.
• Power Dissipation: The BZX284-C24,115 can handle a power dissipation of up to 400 mW, making it suitable for a variety of applications without compromising performance.
• Miniature Size: Its SOD110 package is designed for space-saving purposes, which is perfect for high-density circuit boards where space is at a premium.
• Operating Temperature Range: This Zener diode operates effectively within a temperature range of -65°C to +150°C, demonstrating its reliability in various environmental conditions.

Applications

The BZX284-C24,115 is versatile and can be used in several applications, including:

• Voltage regulation modules
• Surge and transient protection circuits
• Switching power supplies
• Consumer electronics
• Industrial electronics

Quality and Reliability

NXP Semiconductors is renowned for its commitment to quality, and the BZX284-C24,115 is no exception. Each diode is meticulously crafted to meet the highest standards of performance and reliability. Whether used in commercial or industrial environments, users can trust the BZX284-C24,115 to perform consistently over time.

With its precise voltage regulation, robust power handling, and compact form factor, the BZX284-C24,115 Zener diode is a smart choice for designers seeking to enhance the stability and performance of their electronic circuits.