The BZV55-B51 from NXP Semiconductors is a high-precision, low-power voltage regulator Zener diode designed for a multitude of applications requiring a stable and reliable voltage reference. This small signal Zener diode, with its compact form factor, is optimized for use in miniaturized electronic circuits and various other electronic components that demand a consistent voltage regulation solution.

Key Features

• Nominal Zener Voltage: The BZV55-B51 provides a nominal Zener voltage of 51V, making it suitable for applications that operate within this voltage range.
• Power Dissipation: With a power dissipation of 500 mW, this diode can handle moderate levels of power while maintaining its performance and reliability.
• Package: Encased in a small SOD80C package, the BZV55-B51 is ideal for high-density circuit designs where space is at a premium.
• Tolerance: The voltage tolerance of the BZV55-B51 is specified at ±5%, ensuring precise voltage regulation for sensitive electronic circuits.
• Operating Temperature Range: This Zener diode operates efficiently across a wide temperature range from -65°C to +175°C, suitable for various environmental conditions.
• Low Leakage Current: It features a low leakage current, enhancing the overall efficiency of the device and making it ideal for low-power applications.

Applications

The BZV55-B51 is versatile and can be used in a variety of applications, including:

• Voltage stabilization for sensitive electronics
• Over-voltage protection circuits
• Power management in consumer electronics
• Telecommunications equipment
• Industrial control systems

Quality and Reliability

NXP Semiconductors is known for their commitment to quality and the BZV55-B51 is no exception. It is manufactured to meet the stringent requirements of the industry, ensuring high reliability and performance. Whether you are designing a complex industrial system or a simple consumer electronic device, the BZV55-B51 Zener diode from NXP is an excellent choice for maintaining voltage stability and protecting your circuitry.