The SAFTC11IA64D96EBC is a microcontroller from Infineon Technologies, part of the XC166 family. These microcontrollers are designed for a wide range of embedded control applications, especially those requiring robust performance and real-time capabilities.

Applications

• Automotive control systems: Engine management, transmission control, and body electronics.
• Industrial automation: Programmable logic controllers (PLCs), motor control, and robotics.
• Power electronics: Inverters, converters, and power supplies.
• Medical equipment: Diagnostic devices and patient monitoring systems.
• Consumer electronics: High-end appliances and advanced control panels.

Features

• 16-bit CPU: Offers a good balance between performance and cost.
• On-chip memory: Includes Flash memory and RAM for program storage and data handling.
• Peripheral set: Features timers, PWM units, ADCs, serial communication interfaces (UART, SPI, CAN), and other peripherals.
• Interrupt controller: Allows for efficient handling of real-time events.
• Clock system: Provides flexible clock generation and management options.
• Power management: Includes power-saving modes to reduce energy consumption.

Benefits

• High performance: Provides sufficient processing power for demanding control applications.
• Real-time capabilities: Enables precise timing and control of critical events.
• Flexible peripheral set: Allows for easy integration with a variety of sensors and actuators.
• Cost-effective: Offers a good price-performance ratio for embedded control solutions.
• Robust design: Suitable for use in harsh environments.

Additional Details

The SAFTC11IA64D96EBC features 64KB of Flash memory and operates with a 96 MHz clock frequency. It supports a wide range of communication protocols, including CAN for automotive applications. The microcontroller is typically housed in a QFP (Quad Flat Package). Further details regarding voltage requirements, temperature ranges, and specific peripheral configurations can be found in the official Infineon datasheet. Its internal architecture and peripheral options make it well-suited for applications requiring precise timing and robust communication capabilities. The 'SAF' prefix denotes its automotive focus, indicating compliance with relevant automotive industry standards.