The BZT52H-C8V2 is a high-performance Zener diode manufactured by NXP Semiconductors, designed for applications requiring precise voltage regulation and high reliability. This small-signal Zener diode is specifically tailored to offer a stable Zener voltage of 8.2V, making it an ideal choice for voltage reference or voltage clamping applications where space is at a premium.
Key Features
- Low Zener Impedance: The BZT52H-C8V2 boasts a low dynamic impedance, ensuring stable operation even under varying current conditions.
- High Precision Voltage Regulation: With a nominal Zener voltage of 8.2V, it provides precise voltage regulation, critical for sensitive electronics.
- Power Dissipation: Capable of handling a power dissipation of up to 375 mW, this component is suitable for a range of power-sensitive applications.
- Compact Package: Enclosed in a small SOD-123F surface-mount package, it is optimized for automated assembly processes and space-constrained applications.
- Wide Operating Temperature Range: The device can operate over a broad temperature range from -55°C to +150°C, accommodating various environmental conditions.
Applications
The BZT52H-C8V2 is versatile and can be used across a wide array of applications, including:
- Consumer Electronics
- Telecommunications
- Industrial Electronics
- Portable Devices
- Power Management Systems
Quality and Reliability
NXP Semiconductors is renowned for its commitment to quality, and the BZT52H-C8V2 is no exception. This Zener diode is produced with the highest manufacturing standards, ensuring both quality and reliability for critical circuit protection and voltage regulation roles.
Environmental Compliance
Adhering to environmental standards, the BZT52H-C8V2 is compliant with RoHS directives, making it a suitable choice for eco-conscious applications that require lead-free components.
Whether you're designing power supplies, protecting sensitive electronics, or simply in need of a stable voltage reference, the BZT52H-C8V2 from NXP is an excellent choice that combines performance, miniaturization, and reliability.