Maxim Integrated's MAX6193AESA+T Precision Voltage Reference

Maxim Integrated's MAX6193AESA+T is a high-precision voltage reference component designed to offer a stable and accurate reference voltage for various applications. This device is part of Maxim's MAX6193 series and comes in an 8-pin NSOIC package, making it suitable for space-constrained applications.

Key Features

• Output Voltage: The MAX6193AESA+T provides a fixed output voltage of 3.0V, which is ideal for systems that require a precise voltage reference.
• High Accuracy: It boasts an impressive initial accuracy of ±0.04%, ensuring reliable performance for precision applications.
• Low Temperature Coefficient: The device features a low temperature coefficient of 3ppm/°C, providing stable output over a wide temperature range.
• Low Dropout Voltage: With a low dropout voltage, this voltage reference can operate effectively even when the supply voltage is close to the output voltage, enhancing its versatility in different circuit configurations.
• Supply Voltage Range: It supports a wide supply voltage range from 4.5V to 12.6V, accommodating various input conditions and system requirements.
• Load Regulation: The MAX6193AESA+T exhibits excellent load regulation characteristics, minimizing the effect of load variations on the output voltage.
• Package: The device is available in a small 8-pin NSOIC package, which is RoHS compliant and suitable for automated assembly processes.

Applications

The MAX6193AESA+T is an ideal choice for high-end and precision applications, including:

• Data Acquisition Systems
• Portable Instrumentation
• Industrial Control Systems
• Precision Power Supplies
• Analog-to-Digital Converters (ADCs)
• Digital-to-Analog Converters (DACs)

With its high accuracy and stability, the MAX6193AESA+T voltage reference from Maxim Integrated is a reliable solution for designers seeking to maintain precise voltage levels in their electronic systems. Its robust design and ease of integration make it a valuable component for a wide range of precision electronic applications.