The LM7372ILD is a high-performance, dual operational amplifier from Texas Instruments (formerly National Semiconductor). This amplifier is designed for applications requiring high speed, low distortion, and excellent DC precision. Its combination of features makes it suitable for a wide range of signal processing and amplification tasks.

Applications

• Video amplifiers
• Instrumentation amplifiers
• Active filters
• High-speed data acquisition systems
• Line drivers

Features

• High slew rate: 300 V/µs (typical)
• Wide bandwidth: 85 MHz (typical)
• Low distortion: 0.002% THD+N
• Low input offset voltage: 1 mV (maximum)
• Low input bias current: 10 nA (maximum)
• Wide supply voltage range: ±2.25 V to ±15 V
• Operating temperature range: -40°C to +85°C

Benefits

• Excellent signal fidelity due to high slew rate and low distortion
• Precise amplification due to low input offset voltage and bias current
• Versatile performance across a wide range of applications
• Robust operation with a wide supply voltage range
• High-speed operation ideal for video and data acquisition

Additional Details

The LM7372ILD features a high slew rate of 300 V/µs and a wide bandwidth of 85 MHz, enabling it to accurately amplify high-frequency signals with minimal distortion. The low input offset voltage and input bias current ensure precise amplification, minimizing errors in sensitive applications. The amplifier's wide supply voltage range of ±2.25 V to ±15 V provides flexibility in power supply design. The low total harmonic distortion plus noise (THD+N) of 0.002% ensures excellent signal fidelity, making it suitable for audio and video applications. The LM7372ILD is available in a SOIC-8 package. Its high output drive capability allows it to drive resistive and capacitive loads. The amplifier's common-mode rejection ratio (CMRR) and power supply rejection ratio (PSRR) are also excellent, further enhancing its performance in noisy environments. The LM7372ILD is a reliable and versatile operational amplifier that provides a combination of high speed, precision, and low distortion, making it an excellent choice for a wide range of applications where signal integrity is critical. Its robust design and wide operating temperature range ensure reliable performance in demanding environments. The device is also designed to be stable with capacitive loads, further simplifying system design.