Maxim Integrated MAX6068AEUR+T Voltage Reference
The MAX6068AEUR+T is a precision, low-power, low-dropout voltage reference from Maxim Integrated. This high-quality component is designed for portable and battery-powered applications where power efficiency and accuracy are crucial. The device comes in a compact SOT-23 package, making it ideal for space-constrained applications.
This voltage reference offers a fixed output voltage of 4.096V with an initial accuracy of ±0.2%. It is capable of sourcing and sinking up to 5mA of output current while maintaining a low dropout voltage of only 180mV at full load, which is particularly beneficial when operating with a low supply voltage close to the output voltage. The MAX6068AEUR+T operates from a supply voltage range of 2.5V to 12.6V, providing a versatile solution for various electronic circuits.
The low 60ppm/°C temperature coefficient ensures stable performance over a wide temperature range, making it reliable for use in environments with varying temperatures. Additionally, the device features a low 75μA supply current, which reduces power consumption and extends battery life in portable applications.
One of the key advantages of the MAX6068AEUR+T is its tight load regulation and line regulation, ensuring that the output voltage remains constant despite changes in the load current or supply voltage. This makes it an excellent choice for high-precision analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other sensitive electronic components that require a stable reference voltage.
Applications for the MAX6068AEUR+T include but are not limited to portable instrumentation, data acquisition systems, handheld devices, and medical equipment. Its robust design also makes it suitable for industrial and automotive applications where reliability and precision are essential.
In summary, the Maxim Integrated MAX6068AEUR+T offers designers a high-accuracy, low-power solution for maintaining a stable voltage reference in a variety of electronic systems. Its compact size, excellent temperature stability, and low dropout performance make it a top choice for engineers looking to optimize their designs for both precision and power efficiency.