Maxim Integrated MAX6241BCPA Precision Voltage Reference
The MAX6241BCPA is a high-precision voltage reference component manufactured by Maxim Integrated, a renowned leader in the development of innovative analog and mixed-signal products and technologies. This voltage reference IC is designed to ensure stability and accuracy in a wide array of electronic applications, ranging from data converters to battery management systems.
With a series reference type, the MAX6241BCPA offers a fixed output voltage of 4.096V, a value chosen for its compatibility with a wide range of analog-to-digital and digital-to-analog converters, particularly those with binary-related resolutions (such as 12-bit, 16-bit, etc.). This precise voltage reference is essential in applications where accurate analog signal processing is critical, and it is especially well-suited for high-resolution conversions in medical, industrial, and communication systems.
The device is characterized by its low temperature coefficient, typically 3ppm/°C, which ensures minimal deviation in output voltage with changes in temperature. This feature is critical for maintaining performance in environments subject to temperature variations. Additionally, the MAX6241BCPA has a low, 1.5mA (max) quiescent current, which makes it an excellent choice for battery-powered and portable devices where power efficiency is a priority.
The MAX6241BCPA comes in an 8-pin DIP package, which is easy to integrate into various circuit designs. Its robust design includes short-circuit protection and a wide operating temperature range of -40°C to +85°C, ensuring reliable operation under diverse conditions.
Key features of the MAX6241BCPA include:
- Fixed 4.096V output voltage
- High accuracy and low drift
- Low temperature coefficient (3ppm/°C typ.)
- Low quiescent current (1.5mA max)
- Short-circuit protection
- Wide operating temperature range (-40°C to +85°C)
- 8-pin DIP package for ease of integration
In summary, the MAX6241BCPA is a reliable and precise voltage reference source that offers excellent temperature stability and low power consumption, making it an ideal choice for high-precision electronic applications.