Overview of TL072CDR by Texas Instruments
The TL072CDR by Texas Instruments is a dual, low-noise JFET-input operational amplifier optimized for high speed and low harmonic distortion, making it an excellent choice for audio and other sensitive applications requiring high fidelity. It operates over a voltage range of -18 V to 18 V and features a maximum input offset voltage of 6000 µV, which helps maintain signal integrity.
This operational amplifier also boasts an impressive slew rate of 13 V/µs, ensuring rapid response times in fast-changing environments. With a nominal unity gain bandwidth of 3 MHz, the TL072CDR supports applications that require wide bandwidth and high gain. It is packaged in a compact, surface-mount 8-SOIC format, which benefits from a small footprint while still offering sufficient pin count for standard operational amplifier configuration needs.
As a product compliant with RoHS, REACH, and featuring a moisture sensitivity level (MSL) of 1, it extends its utility to environmentally sensitive applications, ensuring reliability and lifespan. Thus, the TL072CDR stands out as a robust, flexible, and environmentally conscious choice for a variety of electronic circuits.
Industry Applications for TL072CDR
Given its performance specifications and electronic characteristics, the TL072CDR could be employed in a range of industry applications, where precise signal amplification is critical. The following are hypothetical applications for this operational amplifier:
- Education and Research: TL072CDR might be used in laboratory equipment for teaching electronics and physics, where students learn about signal processing concepts and experiment with audio-frequency circuits. Its high slew rate and bandwidth make it potentially useful for oscillators and waveform generators that require stability and accuracy.
- Industrial Automation: In industrial automation contexts, this operational amplifier might find use in control systems that require careful signal conditioning to handle noisy industrial environments. Attributes like high common-mode rejection ratio and low bias current make it suitable for sensor signal conditioning, potentially enhancing readability and precision in automated processes.
- Electronic Manufacturing: During device testing and quality assurance phases, TL072CDR could be integrated into test equipment for evaluating the performance of audio components. Its high slew rate and bandwidth are significant advantages in testing environments where quick response times and minimal phase shift are crucial.
Note: These industry applications are conceptual and should be verified by engineering and design teams to ensure compliance with industry standards and specific application requirements.
About Texas Instruments
Texas Instruments is a leading technology company that designs and manufactures semiconductors and various integrated circuits, which it supplies to electronic designers and manufacturers globally. Within the Operational Amplifiers subcategory of amplifier circuits, Texas Instruments offers a wide range of products, including the TL072CDR. Known for innovative circuit design and robust manufacturing, Texas Instruments’ operational amplifiers are used in a plethora of applications, from simple signal buffering to complex audio amplification. Their focus on consistent performance and quality makes their operational amplifiers, including the TL072CDR, a go-to choice for many electronics manufacturers.
Where to Find TL072CDR by Texas Instruments
To source the TL072CDR operational amplifier, prospective buyers should consider visiting findchips.com. On the website, users can explore current stock levels and compare pricing options across different distributors. Historically, TL072CDR has been available from distributors such as Mouser Electronics, DigiKey, and Newark, among others. However, inventory can fluctuate, and it is recommended to check findchips.com for the most up-to-date availability. Additionally, the link to Operational Amplifiers can be used to find alternative operational amplifiers that might fit specific needs better.