Product Overview: 74ACTQ541MTCX from ON Semiconductor

The 74ACTQ541MTCX is a high-performance, octal buffer and line driver designed to interface with 3-state memory address registers, data buses, and other bus-oriented systems. Manufactured by ON Semiconductor, a renowned leader in the semiconductor industry, this integrated circuit is part of the ACTQ family which is known for its Quiet Series™ technology, ensuring reduced noise levels in digital systems.

This device features eight non-inverting buffers with 3-state outputs to provide both high-drive capability and the ability to drive heavily loaded outputs with minimal cross-talk and system noise. The 74ACTQ541MTCX is specifically tailored to improve the performance of memory-driving applications and is an ideal choice for bus interface or signal buffering applications requiring high speed and low power consumption.

Key Features:

• Logic Type: Octal Buffer/Line Driver, Non-Inverting
• Number of Elements: 1
• Number of Bits per Element: 8
• Output Type: 3-State
• Current - Output High, Low: 24mA, 24mA
• Voltage - Supply: 4.5V ~ 5.5V
• Operating Temperature: -40°C ~ 85°C
• Mounting Type: Surface Mount
• Package / Case: TSSOP-20
• Quiet Series™: Significantly reduced noise due to optimized output impedance

Applications:

The 74ACTQ541MTCX is highly versatile and can be used in a wide range of applications including:

• Memory address driving
• Data bus interfacing and driving
• Signal buffering for data communication
• Input/Output port expansion
• Backplane driving

With its industry-standard TSSOP-20 package, the 74ACTQ541MTCX is easy to integrate into various designs, providing a reliable and efficient solution for enhancing system performance. Its ability to operate within a wide temperature range makes it suitable for industrial and commercial applications where robustness is crucial.

ON Semiconductor's commitment to quality ensures that the 74ACTQ541MTCX meets strict standards, delivering performance and reliability that designers can trust for their critical applications.