ON Semiconductor LM2902VDG Overview

The LM2902VDG is a versatile and robust low-power quad operational amplifier designed and manufactured by ON Semiconductor, a leading name in energy-efficient innovations. This operational amplifier is part of the LMx92-N low-voltage family and is particularly suitable for applications requiring multiple op-amps with a single power supply.

Key Features

• Wide Supply Voltage Range: The LM2902VDG operates on a supply voltage range from 3V to 32V for single supply configurations, or from ±1.5V to ±16V for dual supply applications, offering flexibility for various circuit designs.
• Low Supply Current Drain: With its low supply current drain, this op-amp is ideal for battery-powered devices and other applications where power efficiency is crucial.
• Common Mode Input Voltage Range: It includes a common mode input voltage range that extends to ground, allowing for direct sensing near ground.
• Differential Input Voltage Range: The differential input voltage range is equal to the power supply voltage, enhancing the device's versatility.
• Low Input Bias and Offset Currents: Ensuring precision and stability, the LM2902VDG features low input bias and offset currents.
• Output Short-Circuit Protection: The built-in output short-circuit protection ensures device safety and longevity, even in the event of circuit faults.

Applications

The LM2902VDG is suitable for a wide array of applications, including:

• Transducer Amplifiers
• DC Gain Blocks
• Conventional Operational Amplifier Circuits
• Battery-Powered Instruments
• Supply Voltage Monitoring

Package and Quality

ON Semiconductor's LM2902VDG comes in a SOIC-14 (Small Outline Integrated Circuit) package, which is compact and suitable for surface mount technology (SMT). The device is also characterized for operation from -40°C to +105°C, ensuring reliable performance across a wide range of temperatures. As with all ON Semiconductor products, the LM2902VDG is designed to meet stringent quality and reliability standards, ensuring high performance for critical applications.