Product Overview: 74LVC1G373GW from NXP

The 74LVC1G373GW is a high-performance, single D-type transparent latch with 3-state outputs designed by NXP Semiconductors. This advanced technology logic device is part of NXP's LVC (Low-Voltage CMOS) family, which is renowned for its low power consumption and high speed operation. The 74LVC1G373GW is particularly suitable for applications where energy efficiency and compact design are critical.

Key Features:

• Logic Type: D-type Transparent Latch with 3-state outputs
• Package: The device comes in a TSSOP5 (Thin Shrink Small Outline Package) that is both space-saving and ideal for surface-mounted technology (SMT).
• Supply Voltage Range: Operates from 1.65V to 5.5V, allowing for use in a variety of logic level applications.
• High-Speed Performance: Capable of operating at frequencies up to 100 MHz at a 5V supply, providing quick response times for demanding applications.
• Low Power Consumption: Characterized for operation from -40°C to +125°C, it ensures reliable performance in a wide range of environmental conditions.
• Compatibility: Input levels are compatible with standard CMOS outputs; with 5V tolerant inputs, the device can be used in mixed-voltage environments.
• 3-State Outputs: Facilitates bus connectivity by allowing the outputs to be put into a high-impedance mode.

Applications:

The 74LVC1G373GW is versatile and can be implemented in a broad spectrum of applications. Its primary function is to store a bit of data when the latch enable (LE) input is high. Common uses include:

• Data storage and transfer
• Address latching in microprocessor systems
• Communication systems
• Portable and battery-powered electronics
• Industrial control systems

Quality and Reliability:

NXP stands behind the quality of the 74LVC1G373GW with rigorous testing and quality control measures. Customers can trust in the reliability and performance of this component for their electronic designs. Its low power consumption and high speed make it an excellent choice for modern digital systems where efficiency is a priority.