The SAF-XE162HN-24F80L is a high-performance 16-bit microcontroller from Infineon Technologies' XE166 family. It is designed for demanding embedded control applications requiring real-time performance, high integration, and robust operation.

Applications

• Automotive powertrain control (e.g., engine management, transmission control)
• Industrial automation (e.g., robotics, process control)
• Motor control (e.g., servo drives, inverter control)
• Power supplies and converters
• Medical devices

Features

• 16-bit architecture with a high-performance CPU core
• 24 KB Flash memory for program storage
• 2 KB of RAM for data storage
• Clock frequency up to 80 MHz
• Multiple timers and capture/compare units
• PWM (Pulse Width Modulation) generators with advanced features
• ADC (Analog-to-Digital Converter) with high resolution and fast conversion rates
• DAC (Digital-to-Analog Converter)
• Serial communication interfaces (CAN, UART, SPI)
• On-chip oscillator and PLL
• Interrupt controller with flexible interrupt management
• Watchdog timer for system monitoring

Benefits

• High performance enables complex control algorithms and real-time operation
• Extensive set of peripherals reduces the need for external components
• Advanced PWM capabilities allow for precise motor control and power conversion
• High-resolution ADC provides accurate sensor measurements
• CAN interface facilitates communication in automotive and industrial networks
• Robust design ensures reliable operation in harsh environments

Additional Details

The SAF-XE162HN-24F80L operates with a supply voltage of 3.3V or 5V. It comes in a lead-free package. It is fully supported by Infineon's development tools, including compilers, debuggers, and evaluation boards, facilitating rapid prototyping and development. The on-chip CAN controller supports various CAN protocols, enabling seamless integration into existing networks. The flexible interrupt controller allows for prioritizing interrupts based on their criticality. The device also includes power-saving modes to minimize power consumption in battery-powered applications. The microcontroller is ideal for applications demanding high processing power, advanced peripherals, and reliable communication interfaces.