The SAK-TC1766-192F80HLBB is a 32-bit microcontroller from Infineon Technologies' TriCore family. This high-performance microcontroller is designed for demanding automotive and industrial applications requiring real-time processing, advanced peripherals, and robust safety features.

Applications

• Automotive engine control systems
• Transmission control systems
• Advanced driver-assistance systems (ADAS)
• Industrial motor control
• Robotics

Features

• 32-bit TriCore CPU architecture
• 192 KB of Flash memory for program storage
• 20 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
• Communication interfaces: CAN, LIN, SPI, UART
• On-chip safety features, including memory protection and error correction
• Interrupt controller with flexible interrupt management

Benefits

• High processing power for complex control algorithms
• Extensive set of peripherals reduces the need for external components
• Advanced PWM capabilities for precise motor control and power conversion
• High-resolution ADC for accurate sensor measurements
• Comprehensive communication interfaces for seamless integration
• Robust safety features for reliable operation in critical applications

Additional Details

The SAK-TC1766-192F80HLBB operates with a supply voltage typically around 3.3V or 5V. It often comes in a BGA (Ball Grid Array) package for high-density mounting. It's supported by Infineon's comprehensive development tools, including compilers, debuggers, and emulators, streamlining software development and debugging. The TriCore architecture is optimized for real-time performance, making it suitable for applications with strict timing requirements. The microcontroller's safety features, such as memory protection and error correction, ensure reliable operation in safety-critical systems. The CAN interface enables communication with other devices in automotive and industrial networks. The flexible interrupt controller allows for prioritizing interrupts based on their criticality. The device also includes power-saving modes to minimize power consumption. This microcontroller is ideal for automotive and industrial applications demanding high performance, advanced safety features, and reliable communication interfaces.