Maxim Integrated MAX6006BEUR+T Voltage Reference

The MAX6006BEUR+T from Maxim Integrated is a precision, low-power, low-dropout voltage reference in a tiny 3-pin SOT-23 package. This high-quality voltage reference is designed for space-constrained applications that require high stability and low power consumption. With its compact form factor, the MAX6006BEUR+T is particularly suitable for portable and battery-powered devices, as well as for general-purpose analog circuits.

This device features a series of bandgap voltage reference which provides a fixed output voltage of 1.25V with an impressive ±0.2% initial accuracy. The MAX6006BEUR+T is capable of sourcing and sinking current, making it versatile for various circuit configurations. Its low dropout voltage ensures that it maintains accurate output even with minimal input-to-output differential, and the low 5μA (typical) supply current is beneficial for power-sensitive designs.

The MAX6006BEUR+T is characterized for the extended industrial temperature range (-40°C to +85°C), making it reliable for use in harsh environments. Its excellent temperature stability and low noise contribute to its performance in critical applications, ensuring that the voltage reference does not introduce significant variance to the system.

Key features of the MAX6006BEUR+T include:

• Fixed 1.25V Output Voltage
• ±0.2% Initial Accuracy
• Low 5μA Supply Current (typical)
• Low Dropout Voltage
• Stable with Capacitive Loads
• Source and Sink Current Capability
• Extended Industrial Temperature Range: -40°C to +85°C

Applications that can benefit from the MAX6006BEUR+T include portable and battery-powered equipment, data acquisition systems, handheld devices, and any analog circuit that requires a precise reference voltage. Its ease of use and high precision make it an excellent choice for engineers looking to enhance the performance of their designs without compromising on space or power efficiency.

Maxim Integrated's commitment to quality ensures that the MAX6006BEUR+T voltage reference meets the stringent requirements for stability and reliability, providing designers with a dependable component for their precision voltage regulation needs.