The MAX6041AEUR+T from Maxim Integrated is a high-precision, low-power voltage reference IC that offers a stable and accurate reference voltage for a wide range of applications. This device is designed to provide a precise 4.096V output voltage, which is commonly used in analog-to-digital conversion (ADC) systems, digital-to-analog conversion (DAC) systems, and other precision voltage regulation scenarios.

Key Features

• Output Voltage: The MAX6041AEUR+T offers a fixed output voltage of 4.096V, which is ideal for systems requiring a 12-bit resolution with a 2V span or any other application that needs a precise 4.096V reference.
• High Accuracy: This voltage reference boasts an initial accuracy of ±0.2% (max) and remains highly stable over time and temperature variations.
• Low Temperature Coefficient: With a low temperature coefficient of 50ppm/°C (max), the device ensures consistent performance across a wide operating temperature range.
• Low Dropout Voltage: The MAX6041AEUR+T operates with a very low dropout voltage, making it suitable for battery-powered and low-voltage applications.
• Low Power Consumption: It is optimized for low-power operations, which is critical for extending battery life in portable devices.
• Small Package: The device is available in a compact SOT-23 package, allowing for easy integration into space-constrained designs.
• Wide Supply Range: The MAX6041AEUR+T can operate from a supply voltage of +4.5V to +11.4V, providing flexibility in various system designs.

Applications

The MAX6041AEUR+T is versatile and can be used in a variety of precision applications, including:

• Data acquisition systems
• Portable instrumentation
• Industrial control systems
• Precision power supplies
• Medical devices

With its high accuracy and stability, the MAX6041AEUR+T voltage reference from Maxim Integrated is a reliable choice for designers looking to maintain voltage precision in their electronic systems. Its low power consumption and small form factor also make it an excellent choice for portable and space-sensitive applications.