Product Overview: SC26C92A1A,518 - NXP

The SC26C92A1A,518 is a robust dual universal asynchronous receiver-transmitter (DUART) integrated circuit designed and manufactured by NXP Semiconductors. This powerful IC is engineered to facilitate efficient serial communication in a wide array of applications, ranging from industrial control systems to complex computing environments.

With its capability to handle two independent full-duplex serial channels, the SC26C92A1A,518 is an ideal choice for systems requiring multiple UART channels while conserving PCB space and reducing overall system complexity. Each channel of the DUART can be independently configured, allowing for versatile serial communication setups with different baud rates, data formats, and operational modes.

Key Features:

• Multiple Channel Operation: Two full-duplex UART channels for simultaneous communication.
• Flexible Baud Rate: Programmable baud rate generators allow for a wide range of communication speeds, suitable for various application requirements.
• Enhanced Data Handling: Each UART channel includes a 3-byte transmit FIFO and a 1-byte receive FIFO to enhance data throughput and reduce CPU overhead.
• Modem Control: Integrated modem control signals for comprehensive serial port management.
• Interrupt Logic: Sophisticated interrupt logic with prioritization for efficient handling of communication events and error conditions.
• Voltage Range: Operates within a power supply range of 4.5V to 5.5V, compatible with many digital systems.

Applications:

The SC26C92A1A,518 is exceptionally versatile, finding its place in multiple sectors such as telecommunications, networking, point-of-sale terminals, and computer peripheral interfacing. Its reliability and feature set make it a go-to component for designers looking to implement serial communication without compromising on performance or space.

Designed with attention to detail, the SC26C92A1A,518 from NXP stands out as a superior choice for your serial communication needs, offering reliability, flexibility, and performance in a compact package.