ON Semiconductor 74LVT574MTC Octal D-Type Flip-Flop

The 74LVT574MTC is a high-performance, octal D-type flip-flop integrated circuit from ON Semiconductor, designed for use in applications that require the capture and storage of eight bits of data. This device is a member of the low-voltage BiCMOS technology family, offering both high speed and low power consumption, making it an ideal choice for interfacing with bus speeds without the need for external pacing components.

This particular flip-flop features an edge-triggered design, capturing data on the rising edge of the clock signal, which provides precise timing for the synchronization of data transmission. The 74LVT574MTC is equipped with a 3-state output, which allows for direct connection to a bus-structured system. By utilizing the Output Enable (OE) function, users can place the eight outputs in either a normal logic state or a high-impedance state, providing a means to effectively control data flow on a bus without the need for external tristate buffers.

The device operates at a nominal voltage of 3.3V, with a tolerance that allows for operation between 2.7V and 3.6V, ensuring compatibility with a wide range of logic levels and system voltages. Additionally, the 74LVT574MTC boasts an impressive immunity to noise, which is a critical feature for maintaining data integrity in electrically noisy environments.

ON Semiconductor's commitment to quality is evident in the 74LVT574MTC's specifications, which include a wide operating temperature range, ensuring reliable performance across various environmental conditions. The device is packaged in a 20-pin TSSOP (Thin Shrink Small Outline Package), providing a compact footprint for space-constrained applications. This package is also conducive to efficient PCB (Printed Circuit Board) layout and is compatible with standard surface-mount technology (SMT) assembly processes.

In summary, the 74LVT574MTC from ON Semiconductor is a robust and versatile octal D-type flip-flop that offers high-speed operation, low power dissipation, and noise immunity, making it a suitable component for a variety of digital systems requiring reliable data storage and bus interfacing capabilities.