SN74LVC32373AZKER Octal Transparent D-Type Latches with 3-State Outputs

The SN74LVC32373AZKER is a high-performance, octal transparent D-type latch with 3-state outputs designed by Texas Instruments. This integrated circuit is part of the LVC family, which is well-known for its low-voltage operation and high-speed performance. The device is ideal for use in applications where temporary data storage and output buffering are required.

Key Features

• Voltage Range: Operates from 2.7 V to 3.6 V, making it suitable for low-voltage applications and compatible with other LVC family devices.
• High-Speed: Propagation delay times are significantly minimized, ensuring quick response times for critical applications.
• Bus-Hold Data Inputs: These inputs eliminate the need for external pull-up/pull-down resistors, simplifying board design and saving space.
• 3-State Outputs: Facilitate bus-connected systems by allowing the outputs to be put in a high-impedance state, thus preventing bus contention.
• Latch-Up Performance: Exceeds 250 mA per JESD 17, providing robustness and reliability in operation.

Applications

The SN74LVC32373AZKER is versatile and can be used in a variety of applications, including:

• Temporary storage of data for CPUs
• Buffering data for buses in computer systems
• Communication systems where data integrity is crucial
• Industrial control systems that require stable and reliable data latching

Package and Quality

This device is offered in a 96-Ball BGA (ZKE) package, which is designed for space-saving on PCBs and ensures efficient thermal performance. Texas Instruments is known for its commitment to quality, and the SN74LVC32373AZKER is no exception. It is manufactured to the highest standards, ensuring reliability and performance in even the most demanding conditions.

Summary

In summary, the SN74LVC32373AZKER from Texas Instruments represents a blend of advanced technology with practical features, making it a top choice for designers looking for a reliable and efficient solution for their data storage and buffering needs.