SN74LVC244APWR by Texas Instruments

Overview of SN74LVC244APWR by Texas Instruments

The SN74LVC244APWR is a non-inverting buffer developed by Texas Instruments, featuring eight channels that operate within a voltage range of 1.65V to 3.6V. Designed for robust performance in a TSSOP-20 package, this integrated circuit (IC) belongs to the 74LVC family, known for its low voltage capabilities and compatibility with CMOS technology. This buffer is distinguished by its 3-state outputs, allowing for connection to a bus without causing conflicts. The significant aspects like supply voltage range, logic family/base number, and logic case style highlight its suitability for diverse applications requiring reliable data transfer and signal buffering under varying voltages and environmental conditions.

Bus Driver/Transceivers in general, and specifically the SN74LVC244APWR, play a crucial role in the digital electronics ecosystem by enabling devices to communicate within and across electronic systems efficiently. The part’s flexibility is evident from its wide operating temperature range (-40 to 125°C), making it suitable for applications across automotive, industrial, and consumer electronics contexts. Its specifications, including a maximal output current of 0.024 A and a peak reflow temperature of 260°C, showcase the component’s durability and suitability for sophisticated electronic designs.

Industry Applications for SN74LVC244APWR

The versatile functions and features of the SN74LVC244APWR make it potentially suitable for a variety of industry applications. While these potential applications are diverse, it is crucial to remember that compatibility and suitability should be verified by engineering and design teams against specific requirements and standards. Here are some illustrative use cases:

  • Consumer Electronics: Devices such as smartphones, tablets, and laptops might leverage these buffers for signal routing and enhancing the integrity of signals between different ICs. The part’s low voltage operation and robustness within wide temperature ranges are crucial for the compact and varied operating environments of these devices.
  • Industrial Automation: In automation systems where long wires might introduce signal degradation, the SN74LVC244APWR could potentially buffer and strengthen signals between sensors, actuators, and control units. Its high-speed data propagation delay (16.4 ns) and three-state outputs enable versatile interfacing options in complex machinery.
  • Computing and Data Storage: Servers and storage devices might use these buffers to manage data flow efficiently across their bus systems. These components’ compatibility with lower voltages and ability to minimize power consumption while handling data at high speeds make them suitable for dense computing environments that are sensitive to power and thermal management.
  • Telecommunications: Network routers, switches, and other telecommunications equipment could potentially incorporate the SN74LVC244APWR to facilitate consistent signal transmission across various parts of the system, benefiting from the buffer’s capacity to maintain signal integrity over long paths and in noisy environments.
  • Education and Research: In experimental setups and educational kits, these buffers might be used to introduce students to digital logic and circuits, facilitating hands-on learning with real-world components that exemplify contemporary electronic engineering practices.

Note that these potential industry applications are conceptual and require thorough analysis and verification by engineering teams to ensure compliance with industry standards and specific application demands.

About Texas Instruments

Texas Instruments (TI) is a global leader in analog ICs and embedded processors, with a strong presence in the Bus Driver/Transceivers market, among many others. Their extensive portfolio includes a wide array of logic components, notably those in the LVC family like the SN74LVC244APWR, designed for high-speed and low-power applications across a broad set of industries. TI’s commitment to innovation is evidenced through the development of technologies that address critical industry challenges, such as power efficiency, signal integrity, and miniaturization. Their products, including SN74LVC244APWR, are widely recognized for their reliability, precision, and advanced features catering to contemporary design requirements.

Where to Find SN74LVC244APWR by Texas Instruments

For procurement professionals and engineers looking for the SN74LVC244APWR or other Bus Driver/Transceivers, findchips.com offers a reliable platform to find this part across various distributors. Historically, this part has been available from distributors such as Win Source Electronics, Sense Electronic Company Limited, Perfect Parts Corporation, and Mouser Electronics, among others. However, for up-to-date stock levels, current pricing, and comparison shopping, visiting findchips.com is recommended. At FindChips, you can easily compare the offerings from different suppliers, ensuring you make the best procurement decision based on current market data.

Compare pricing for SN74LVC244APWR and other Bus Driver/Transceivers / Logic at findchips.com