Maxim Integrated MAX4017EUA+ Precision Op-Amp

The MAX4017EUA+ is a high-performance, low-power, single-supply operational amplifier from Maxim Integrated. Designed with precision in mind, this op-amp is ideal for a wide range of applications including sensor interfaces, portable equipment, and analog filters. The MAX4017EUA+ offers a unique blend of features that make it a versatile choice for designers looking for a reliable and efficient solution.

Key Features

• Single-Supply Operation: The MAX4017EUA+ operates from a single +2.7V to +5.5V power supply, making it suitable for battery-powered devices and systems with limited power capabilities.
• Low Power Consumption: With its quiescent current of just 800µA, this op-amp is designed for power-sensitive applications, ensuring minimal impact on battery life.
• High Precision: The device boasts a low offset voltage and low input bias current, which are critical for precision analog circuitry.
• Rail-to-Rail Output: The op-amp can swing its output voltage from the negative supply rail to within millivolts of the positive supply rail, maximizing the dynamic range in single-supply applications.
• Unity-Gain Stable: It is stable with capacitive loads as large as 200pF, which means that it can be used in a variety of feedback configurations without oscillation.

Applications

• Portable Instrumentation
• Data Acquisition Systems
• Analog Filters
• Sensor Interfaces
• Battery-Powered Devices

The MAX4017EUA+ comes in a compact 8-pin µMAX package, which is highly space-efficient and suitable for small form-factor applications. Its robust design ensures reliable performance even in harsh environments, and it is specified over the extended -40°C to +125°C temperature range, making it a great choice for industrial applications.

With its combination of low power consumption, high precision, and small footprint, the Maxim Integrated MAX4017EUA+ operational amplifier is an excellent choice for engineers who require the best performance without compromising on space or power efficiency.