Maxim Integrated MAX6175BASA/V+TCJX Precision Voltage Reference
The MAX6175BASA/V+TCJX is a high-precision voltage reference module from Maxim Integrated, designed to provide a stable and accurate reference voltage for analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other precision circuit applications. This device is part of Maxim's family of low-noise, high-accuracy voltage references that cater to a wide array of electronic systems requiring stringent voltage stability and low drift over time and temperature.
Featuring an output voltage of 5V, the MAX6175BASA/V+TCJX boasts an impressive initial accuracy of ±0.02% and a low temperature coefficient of 3ppm/°C (max), ensuring reliable performance across a wide temperature range. This combination of high precision and stability makes it an ideal choice for critical applications such as medical equipment, industrial control systems, and high-end instrumentation where consistency and precision are paramount.
The device comes in a compact 8-pin SOIC package, making it suitable for space-constrained applications. It also includes a force-sense (Kelvin) connection, which allows for remote voltage sensing to compensate for voltage drops due to PCB trace resistance, further enhancing the accuracy of the voltage delivered to the load.
With a low dropout voltage and a wide supply range of 4.5V to 12.6V, the MAX6175BASA/V+TCJX is versatile and can be easily integrated into various circuit designs without the need for complex power supply arrangements. Additionally, it features a low output noise of only 1.6µVp-p (0.1Hz to 10Hz), which is critical for applications that demand a clean reference voltage.
Maxim Integrated has also incorporated short-circuit protection and a thermal shutdown feature to safeguard the device against adverse conditions, ensuring long-term reliability and safety in operation. The MAX6175BASA/V+TCJX is a testament to Maxim's commitment to delivering high-performance, precision components that meet the rigorous demands of today's advanced electronic systems.