Empowering Modern Off-Highway machinery with flexibility, safety, cybersecurity, and performance
The TTC 2000 Series represents the next generation of electronic control units (ECUs) designed for the most demanding off-highway applications. Built on modular hardware and software building blocks, the TTC 2000 Series delivers unmatched flexibility, scalability, and performance, enabling you to meet today’s and tomorrow’s challenges in machine automation.
Why Choose the TTC 2000 Series?
Engineered for Extreme Environments
All controllers in the TTC 2000 Series are designed to operate reliably in rugged conditions and extreme temperatures (from -40°C to +85°C), ensuring your machines perform wherever they are needed.
Platform Concept for Maximum Flexibility
The TTC 2000 Series is built on a platform concept, allowing seamless scalability across compact, mid-size, and high-end applications. This means:
- Shared hardware and software building blocks
- Compatible board support package and API
- Same microcontroller family for all controllers
- Seamless code re-use and faster time to market
High Performance & Advanced Interfaces
- Multi-core Infineon AURIX™ TriCore™ CPUs (up to 6 cores, 4 lockstep cores)
- High-speed CAN FD and Ethernet interfaces
- Wide range of interfaces such as LIN and SENT
- Highly configurable I/Os (up to 132)
Certified Safety and Security
- TÜV Nord certified for functional safety up to ASIL C (ISO 26262), SIL 2 (IEC 61508), PL d (ISO 13849), AgPL d (EN ISO 25119), and MPL d (ISO 19014)
- Safe libraries and mixed criticality support
- Hardware Security Module, secure boot, secure download, and cryptographic algorithms for robust cybersecurity
Accelerate Your Development
- Full MATCH software platform integration for seamless development workflows
- C-programming API with multicore real-time operating system
- Simulation and testing capabilities
Certified Real-Time Operating System: PXROS
All TTC 2000 Series ECUs come with the certified PXROS real-time operating system, supporting multicore processing and multitasking. Key features include:
- Task scheduling, context switching, and inter-task communication (events or message objects)
- Integrated runtime monitoring (e.g., task watchdogs) for supervising application tasks
- Enforced freedom from interference between safety-related and non-safety-related code (mixed-criticality), allowing both to run on the same CPU without compromising safety integrity
UDS-Compliant Bootloader
The bootloader is compliant with the automotive Unified Diagnostic Services (UDS) protocol. It:
- Initializes hardware and performs Built-in-Self-Tests
- Manages device power-up and verifies the application via secure boot
- Supports secure updates of application software via CAN or Ethernet, ensuring convenient firmware updates while maintaining system security and reliability
Standardized Driver API
- A unified driver API is provided for safety-related control and diagnostics of all I/Os (PWM, timer, analog input) and communication interfaces (CAN, SENT, etc.). This standardized API is used across all TTC 2000 Series ECUs, enabling software to be ported between ECU variants and families with minimal effort. Customers benefit from reduced development time and simplified integration.
Supported by Experts
Our Application Development Center supports you throughout the entire machine development lifecycle:
- Globally distributed teams with 1,000+ days of in-field commissioning
- 30+ engineering experts for ECUs, HMIs, and connectivity
- ISO-certified processes for safe and efficient software development—saving you time and resources
- Over 20 years of cross-industry experience in functional safety, security, and complex system architecture
