8 - channel non - inverting buffer/line drivers
Manufacturer: ['rochester', 'national-semiconductor']
The 54ACT244 series is a high-performance octal buffer/driver designed for use in a variety of digital applications. Renowned for its robust functionality and versatility, this series is tailored to meet the growing demands of modern electronic systems. The 54ACT244 operates with a wide supply voltage range, enabling it to interface seamlessly with both 3.3V and 5V logic levels. This feature makes it particularly suitable for mixed-voltage environments, ensuring compatibility across diverse components in a system.
Key features of the 54ACT244 series include its high-speed operation, low-power consumption, and excellent output drive capability. The device achieves a propagation delay of just a few nanoseconds, allowing for rapid signal transmission essential in high-speed applications. Furthermore, it boasts a low input and output leakage current, which contributes to overall energy efficiency and extends battery life in portable devices. The buffers also feature three-state outputs, providing flexibility in managing data flow and facilitating bus-oriented communication in complex circuits.
In terms of design characteristics, the 54ACT244 series is housed in a compact package that minimizes board space usage, making it ideal for applications where real estate is at a premium. Its robust construction and reliable performance under a wide temperature range enhance its longevity, ensuring consistent operation even in challenging environments.
The typical applications of the 54ACT244 series span several industries, including telecommunications, automotive, and consumer electronics. It is commonly used in data bus applications, signal buffering, and as part of interface circuits in microcontroller-based designs. Additionally, the series is well-suited for use in instrumentation and control systems where reliable signal integrity is crucial.
In summary, the 54ACT244 series stands out as a versatile and dependable solution for digital buffering and driving needs. Its combination of high speed, low power consumption, and flexible interfacing capabilities makes it an excellent choice for engineers looking to enhance performance in their electronic designs.