The SN54ALS244J is a high-performance octal buffer and line driver designed to be used with 3-state memory address drivers, clock drivers, and other bus-oriented systems. Manufactured by Texas Instruments, this integrated circuit is part of the Advanced Low-Power Schottky (ALS) family, which offers a combination of high speed and low power consumption.

Key Features

• Logic Type: Octal Buffer/Line Driver with 3-State Outputs
• Package: The device comes in a standard J-Lead Ceramic package, ensuring robust performance and high durability.
• Operating Temperature Range: The SN54ALS244J operates within a temperature range of -55°C to 125°C, making it suitable for military and industrial applications.
• Power Supply: It operates at a voltage range of 4.5V to 5.5V, which is typical for TTL logic levels.
• Drive Capability: The device can drive up to 15 Low-Power Schottky loads or equivalent, providing ample drive capability for most applications.

Performance Advantages

The SN54ALS244J offers several performance advantages over traditional TTL devices. Its ALS technology combines the low power dissipation of CMOS with the speed and drive characteristics of bipolar circuits. This makes the SN54ALS244J an excellent choice for interfacing with high-speed logic systems where minimal power consumption is essential.

Applications

This versatile buffer and line driver can be used in a wide range of applications, including:

• Bus-oriented systems
• Memory address drivers
• Clock drivers
• Data transmission systems
• Input/output port drivers

Quality and Reliability

Texas Instruments is renowned for its commitment to quality and reliability, and the SN54ALS244J is no exception. It is designed to meet or exceed the stringent requirements of the industrial and military markets, ensuring consistent performance even in the most demanding conditions.

With its robust design and advanced technology, the SN54ALS244J from Texas Instruments represents a reliable solution for designers looking to optimize their high-speed digital systems without compromising on power efficiency or performance.