The MAX3100CEE-T is a sophisticated integrated circuit from Maxim Integrated, designed to enhance serial communication capabilities in a wide range of applications. As a universal asynchronous receiver-transmitter (UART), it serves as a bridge between parallel and serial interfaces, enabling devices with SPI or I²C interfaces to communicate with serial peripherals or networks.

Key Features

• Integrated UART: The device includes a full-duplex UART, capable of running at speeds up to 230kbps, which facilitates serial communication with a variety of peripherals such as sensors, modems, and microcontrollers.
• SPI/I²C Interface: With both SPI and I²C interfaces, the MAX3100CEE-T offers flexibility in system design, allowing it to be used with a wide range of microcontrollers and processors that support these protocols.
• Low Power Consumption: Designed with power-sensitive applications in mind, the device features a low-power shutdown mode, significantly reducing power usage when not in active operation.
• IrDA Capability: The MAX3100CEE-T supports IrDA communication standards, making it suitable for infrared data communication in consumer electronics and PC peripherals.
• Programmable Crystal Oscillator: The onboard programmable crystal oscillator allows the user to set the desired baud rates accurately, ensuring reliable data transmission.
• Automatic Sleep and Wake-up: To further conserve power, the device can automatically enter sleep mode when not transmitting and wake up upon receiving data.

Applications

This versatile device is ideal for applications where space and power constraints are critical. It is commonly used in:

• Portable Battery-Powered Devices
• Data Logging Systems
• Industrial Control Systems
• Point-of-Sale Terminals
• Networked Devices

Product Specifications

The MAX3100CEE-T operates over a wide voltage range and is available in a 16-pin QSOP package, making it compact and suitable for space-constrained applications. It is designed for extended temperature ranges, ensuring reliable performance across diverse environmental conditions.