Maxim Integrated MAX6143AASA33+T Voltage Reference

The MAX6143AASA33+T is a high-precision, low-noise, series voltage reference from Maxim Integrated. This device is designed to provide a stable and accurate reference voltage of 3.3V, which is essential for various applications including data converters, precision power supplies, and portable instrumentation. With its advanced design and technology, the MAX6143AASA33+T ensures reliable performance for systems requiring a high degree of voltage accuracy and stability.

Key Features

• Precision Output: The device offers a precise 3.3V output with an initial accuracy of ±0.04% at 25°C, making it ideal for critical applications where voltage accuracy is paramount.
• Low Temperature Coefficient: The MAX6143AASA33+T boasts an excellent temperature coefficient, typically 3ppm/°C, ensuring minimal deviation in output voltage across a wide temperature range.
• Low Noise: This voltage reference features low output noise of just 1.5µVp-p/V, which is crucial for high-performance analog circuits.
• Long-Term Stability: Exhibiting superior long-term stability, the device provides consistent performance over time, which enhances system reliability.
• Wide Operating Range: It operates over a wide supply voltage range from 4.5V to 12.6V, allowing flexibility in various power supply designs.
• High Output Current: The MAX6143AASA33+T can source or sink up to 15mA of output current, accommodating a broad range of load conditions.
• Small Package: Available in an 8-pin SOIC package, the device is suitable for space-constrained applications.

Applications

• Data Conversion
• Precision Power Supplies
• Portable Instrumentation
• Industrial Process Control Systems
• Automotive Systems
• Medical Devices

The MAX6143AASA33+T is an excellent choice for designers who require a highly accurate and stable voltage reference with low noise characteristics. Its robust design and superior performance make it a versatile component that can be integrated into a multitude of precision electronic systems, ensuring optimal operation even under the most demanding conditions.