Texas Instruments

TL16C752BPTR

TL16C752BPTR Description

The TL16C752BPTR is a high-performance Dual Universal Asynchronous Receiver Transmitter (DUART) designed by Texas Instruments. This IC is specifically engineered to provide robust communication capabilities in a wide range of applications. It features a dual-channel architecture, supporting two independent UART channels, each equipped with a 64-byte FIFO buffer. This design enhances data handling efficiency and minimizes data loss, making it suitable for demanding communication tasks.

The TL16C752BPTR operates within a voltage range of 2.7V to 3.6V, ensuring compatibility with various power supply configurations. It supports a maximum data rate of up to 3 Mbps, which is significantly higher than many competing models, allowing for faster data transmission. The device also includes advanced features such as modem control, false start bit detection, and auto flow control, which further enhance its reliability and functionality.

TL16C752BPTR Features

• Dual Channels: The1 TL6C752BPTR features two independent UART channels, providing simultaneous communication capabilities on both channels.
• 64-Byte FIFO Buffers: Each channel is equipped with a 64-byte FIFO buffer, which significantly improves data handling and reduces the risk of data loss during high-speed transmissions.
• Modem Control: The inclusion of modem control functions allows for seamless integration with modems, enhancing the device's versatility in communication applications.
• False Start Bit Detection: This feature ensures reliable data transmission by detecting and handling false start bits, thereby maintaining data integrity.
• Auto Flow Control: The TL16C752BPTR supports automatic flow control, which dynamically adjusts the data transmission rate based on the receiver's capacity, preventing data overflow.
• Wide Voltage Range: Operating within a voltage range of 2.7V to 3.6V, the TL16C752BPTR offers flexibility in power supply requirements.
• High Data Rate: With a maximum data rate of 3 Mbps, the TL16C752BPTR outperforms many similar devices, making it ideal for high-speed communication tasks.
• Surface Mount Packaging: The device is available in a surface mount package, facilitating easy integration into compact and high-density PCB designs.
• Compliance and Standards: The TL16C752BPTR is REACH unaffected and RoHS3 compliant, ensuring it meets environmental and safety standards. It also has an ECCN classification of EAR99 and an HTSUS code of 8542.39.0001.

TL16C752BPTR Applications

The TL16C752BPTR is well-suited for a variety of applications due to its advanced features and robust performance. Some specific use cases include:

• Telecommunications: Ideal for use in telecommunication equipment where reliable and high-speed data transmission is crucial.
• Industrial Control Systems: The device's robustness and dual-channel capability make it suitable for industrial applications requiring simultaneous data communication.
• Networking Equipment: The TL16C752BPTR can be used in routers, switches, and other networking devices to facilitate efficient data handling and transmission.
• Embedded Systems: Its compact size and surface mount packaging make it a perfect fit for embedded systems where space is a constraint.
• Data Acquisition Systems: The high data rate and FIFO buffers enable efficient data acquisition and transmission in real-time systems.

Conclusion of TL16C752BPTR

The TL16C752BPTR from Texas Instruments is a versatile and high-performance DUART that offers significant advantages over similar models. Its dual-channel architecture, 64-byte FIFO buffers, and advanced features such as modem control and auto flow control make it an excellent choice for a wide range of communication applications. Despite its obsolete status, the TL16C752BPTR remains a reliable and efficient solution for high-speed data transmission, particularly in telecommunications, industrial control systems, and networking equipment. Its compliance with environmental and safety standards further enhances its suitability for modern electronic designs.