Maxim Integrated's MAX6141EUR-T Voltage Reference
The MAX6141EUR-T is a high-precision, low-dropout, micropower voltage reference from Maxim Integrated. This component is part of a series that offers a stable and accurate reference voltage, making it an ideal choice for precision data converters and voltage monitoring applications in a wide range of industries.
Featuring a series reference architecture, the MAX6141EUR-T provides a fixed output voltage of 4.096V with an impressive initial accuracy of ±0.02%. This accuracy is maintained over the full operating temperature range of -40°C to +85°C, ensuring reliable performance in even the most challenging environmental conditions.
With a low supply current of typically 120µA (maximum 135µA), this voltage reference is an excellent choice for battery-powered and portable devices where power efficiency is critical. Additionally, the low dropout voltage of the MAX6141EUR-T allows it to function correctly even when the supply voltage is very close to the output voltage, which further enhances its suitability for low-power applications.
The MAX6141EUR-T comes in a compact SOT-23 package, making it easy to incorporate into space-constrained designs. It also features a tempco as low as 35ppm/°C, which means that the output voltage remains stable with temperature changes, providing a reliable reference under varying conditions.
Maxim Integrated has designed the MAX6141EUR-T with an output load capability of 5mA, which is sufficient for driving most ADCs and DACs without the need for an additional buffer. Moreover, the device is characterized by its excellent line regulation and low output noise, making it an exceptional choice for high-resolution analog-to-digital conversion applications.
In summary, the MAX6141EUR-T voltage reference is a high-quality, stable, and precise solution for a variety of applications requiring an accurate reference voltage. Its low power consumption, high accuracy, and small form factor make it a versatile choice for designers looking to enhance the performance of their electronic systems.