The TL974IPWR is a high-performance, low-power operational amplifier designed and manufactured by Texas Instruments (TI), a leader in semiconductor solutions. This op-amp is part of TI's TL97x family, which is well-known for its precision and stability. The TL974IPWR is an excellent choice for a wide range of applications, including sensor signal conditioning, active filters, and audio amplifiers.

Key Features

• Low Noise: The device offers a low voltage noise density of 5.8 nV/√Hz, making it ideal for applications requiring low noise operations.
• Wide Bandwidth: With a bandwidth of 12 MHz, the TL974IPWR provides fast settling times and is suitable for high-speed signal processing.
• Rail-to-Rail Output: The rail-to-rail output capability allows for a wider dynamic range, making the most of the supply voltage in low-voltage applications.
• High Slew Rate: A slew rate of 5.3 V/µs ensures the op-amp can respond quickly to changes in the input signal, beneficial for fast-operating circuits.
• Low Input Bias Current: The input bias current is as low as 1 pA, which is critical for precision applications and reduces errors in high-impedance circuits.
• Single-Supply Operation: It can operate from a single power supply ranging from 2.7 V to 10 V, or dual supplies of ±1.35 V to ±5 V, providing flexibility in various supply environments.

Package and Quality

The TL974IPWR comes in a TSSOP-14 (Thin Shrink Small Outline Package) which is compact and suitable for space-constrained applications. This package also offers improved thermal performance compared to traditional SOIC packages.

Applications

Due to its versatility and high performance, the TL974IPWR is used in a diverse array of applications. It is particularly well-suited for:

• Medical instrumentation
• Professional audio equipment
• Analog-to-digital converter (ADC) drivers
• Active filters and precision amplifiers
• Data acquisition systems

The TL974IPWR from Texas Instruments represents a reliable and efficient solution for designers looking to improve the performance and accuracy of their analog circuits.