The SN74LVTH16244AZRDR is a high-performance integrated circuit from Texas Instruments, designed to meet the demanding needs of today's advanced digital systems. This device belongs to a family of 16-bit buffers/drivers with 3-state outputs, specifically engineered to facilitate the transfer of data in high-speed and high-noise environments.

Key Features

• Logic Type: Buffers/Line Drivers, Non-Inverting
• Number of Bits per Element: 4
• Number of Elements: 4
• Output Type: 3-State
• Voltage - Supply: 2.7V-3.6V
• Operating Temperature: -40°C to 85°C
• Mounting Type: Surface Mount
• Package / Case: 48-BSSOP (0.295", 7.50mm Width)

Advanced Performance

The SN74LVTH16244AZRDR is designed for low-voltage operation, supporting a supply voltage range of 2.7V to 3.6V, which makes it suitable for interfacing with 3.3V logic levels. The device ensures minimal propagation delay times and reduced power consumption, which is crucial for high-speed signal processing applications.

High Reliability

With an operating temperature range of -40°C to 85°C, the SN74LVTH16244AZRDR ensures reliable performance in a variety of environmental conditions. The robust design and manufacturing quality of Texas Instruments provide users with the confidence that their systems will continue to operate effectively over the product's lifespan.

Applications

This buffer/driver is an excellent choice for various applications, including:

• Bus Interface
• Signal Distribution
• Data Path Management
• Server and Networking Infrastructure
• Telecommunications Equipment

Easy Integration

The surface-mount package of the SN74LVTH16244AZRDR allows for easy integration into PCB designs, and its standard pin configuration simplifies the connection to other components within a circuit. The device's 3-state outputs contribute to bus-oriented applications, allowing multiple outputs to connect to a bus without conflict.

Overall, the SN74LVTH16244AZRDR from Texas Instruments is a reliable and efficient solution for designers looking to improve signal integrity and operational performance in their digital systems.