Maxim Integrated MAX6067AEUR Precision Voltage Reference

The MAX6067AEUR from Maxim Integrated is a high-precision voltage reference that offers a low, laser-trimmed temperature coefficient and excellent initial accuracy. This component is designed for precision analog applications where a stable reference voltage is crucial for system performance.

Key Features

• Output Voltage: The MAX6067AEUR provides a stable output voltage of 2.048V, making it suitable for a wide range of applications including A/D and D/A converters, portable instrumentation, and battery-powered devices.
• Low Temperature Coefficient: With a temperature coefficient as low as 20ppm/°C, the device ensures minimal voltage variation across a wide temperature range, which is essential for precision measurements and stable operation.
• High Accuracy: The initial accuracy of ±0.2% ensures reliable and consistent performance right from the start, without the need for calibration.
• Low Dropout Voltage: The low dropout voltage feature allows the MAX6067AEUR to operate efficiently with minimal difference between the input and output voltages, enhancing its suitability for battery-powered applications.
• Wide Supply Voltage Range: It operates over a broad supply voltage range from 2.5V to 12.6V, providing flexibility in various circuit designs.
• Low Quiescent Current: The device's low quiescent current of 180µA (typical) is beneficial for power-sensitive applications.
• Package: The MAX6067AEUR is available in a compact SOT-23 package, which is ideal for space-constrained applications.

Applications

The MAX6067AEUR is particularly well-suited for high-precision applications where a stable and accurate reference voltage is critical. It is commonly used in:

• Data acquisition systems
• Portable instrumentation
• Battery-powered equipment
• Industrial process control systems
• Precision power supplies
• Automotive electronics

This voltage reference from Maxim Integrated is a reliable choice for designers looking to enhance the accuracy and stability of their electronic systems.