SN74ABT533ADBRE4 - Texas Instruments

The SN74ABT533ADBRE4 is a high-performance, octal transparent latch with 3-state outputs from Texas Instruments. Designed to provide a seamless interface between data buses in a wide range of applications, this integrated circuit is a crucial component for systems requiring the temporary storage of data.

Key Features:

• Octal Transparent Latches: The device consists of eight latches with 3-state outputs for bus-oriented applications, providing an efficient way to store and manage eight bits of data simultaneously.
• High-Speed Operation: With a typical shift frequency of 110 MHz, the SN74ABT533ADBRE4 is optimized for high-speed data transfer and processing, making it suitable for demanding environments.
• 3-State Outputs: The latches feature 3-state outputs which can be used to place the output in a high-impedance state. This is particularly useful for interfacing with shared data buses where multiple devices may need to take turns driving the bus lines.
• Low Power Consumption: As part of the ABT family, this device is designed for low power consumption without compromising on speed, ensuring energy-efficient operation in your electronic systems.
• Wide Operating Temperature Range: The device can operate over a broad temperature range from -40°C to 85°C, making it suitable for industrial applications with varying environmental conditions.
• DB Tape and Reel Packaging: The SN74ABT533ADBRE4 is available in a DB tape and reel package, facilitating automated assembly processes and efficient handling in mass production environments.

Applications:

The SN74ABT533ADBRE4 is versatile and can be implemented in various digital systems, including:

• Temporary data storage
• Data buffering for CPUs, ALUs, and FPGAs
• System control logic
• Communication systems
• Industrial control systems
• Computer systems

With its robust design and Texas Instruments' commitment to quality, the SN74ABT533ADBRE4 is a reliable choice for designers and engineers looking for a latch that combines speed, efficiency, and versatility.