Introducing the BZX284-C2V4 Zener Diode from NXP Semiconductors

The BZX284-C2V4 is a high-performance, precision Zener diode designed by NXP Semiconductors, a leading technology company known for its innovative and reliable products. This small-signal Zener diode is engineered to provide a stable and accurate voltage reference with a nominal Zener voltage of 2.4V. It is an essential component for a multitude of electronic circuits, offering voltage regulation and transient protection in a compact package.

Key Features

• Voltage Precision: The BZX284-C2V4 is designed for a precise breakdown voltage at 2.4V, making it suitable for applications that require an exact reference voltage.
• Power Dissipation: Capable of dissipating up to 400 mW, this Zener diode can withstand reasonable power levels, ensuring durability and stable performance under various conditions.
• Low Leakage Current: It exhibits a very low leakage current, minimizing the power loss and improving the overall efficiency of the circuit.
• Temperature Stability: With excellent stability over a wide temperature range, the BZX284-C2V4 maintains its performance even under fluctuating environmental conditions.
• Compact Package: Encased in a small SOD110 surface-mounted package, it is ideal for high-density circuit boards where space is at a premium.
• Lead-Free and RoHS Compliant: Aligning with environmental standards, this Zener diode is lead-free and fully compliant with the Restriction of Hazardous Substances (RoHS) directive.

Applications

The BZX284-C2V4 is versatile and can be used in various applications, including:

• Voltage regulation in power supplies
• Protection circuits for sensitive electronics
• Reference voltage in analog-to-digital and digital-to-analog converters
• Surge suppression in data lines and other communication interfaces

With its precision voltage regulation and robust design, the BZX284-C2V4 Zener diode from NXP Semiconductors is an excellent choice for designers and engineers looking to enhance the reliability and performance of their electronic systems.