Product Overview: ZR431F01TA Adjustable Precision Zener Shunt Regulator
The ZR431F01TA from Diodes Incorporated is a high-performance adjustable precision Zener shunt regulator designed for a wide range of applications. This device offers excellent stability and reliability for voltage regulation tasks, making it an ideal choice for precision power supply circuits, voltage monitoring, and other electronic systems requiring a stable reference voltage.
Key Features
- Adjustable Output Voltage: The ZR431F01TA provides an adjustable output voltage from 2.5V to 36V, allowing designers to set the desired voltage level according to specific application requirements.
- Low Operational Current: This regulator operates with a minimal current draw, enhancing the overall efficiency of the system and making it suitable for low power applications.
- High Precision: The device boasts a typical temperature coefficient of only ±50 ppm/°C, ensuring a consistent and reliable output voltage over a wide temperature range.
- Surface Mount Package: Encased in a small outline transistor (SOT23) package, the ZR431F01TA is optimized for surface mount technology (SMT), providing a compact footprint for space-constrained applications.
- Wide Operating Temperature Range: It operates effectively across a broad temperature range from -40°C to +125°C, catering to applications that may experience extreme environmental conditions.
Applications
The versatility of the ZR431F01TA makes it suitable for an array of applications, including:
- Power supplies
- Battery chargers
- Voltage monitoring systems
- Adjustable voltage references
- Switching power supplies
Quality and Reliability
Diodes Incorporated is committed to providing high-quality products. The ZR431F01TA is manufactured with stringent quality control processes, ensuring that each device meets the company's high standards for performance and reliability. With its robust design and precise voltage regulation capabilities, the ZR431F01TA is a valuable component for designers looking to enhance the stability and efficiency of their electronic systems.