SAK-TC399XE-256F300S BC

Overview

Trace, Measurement and Calibration in the target system

The SAK-TC399XE-256F300S BD belongs to the TC39x Emulation Devices, . It has  the same feature set as the TC39x standard family with additional debug and tracing capabilities. The TC39xXE offers support for calibration, rapid prototyping, instrumentation and debug/emulation.

TC39xXE is based on TC39x. It can be used to emulate:

  • TC39x standard devices (6 CPUs)
  • TC38x standard devices  (4 CPUs)

Standard Features

TC39xXE has the same features as the TC39x standard devices:

  • 6 TriCore running at 300 MHz
  • 16 MB flash/ ECC protection
  • 6,9 MB SRAM/ ECC protection (additional 4 MB EMEM)
  • 1 Gbit Ethernet, 12xCAN FD  , 2xFlexRay, 12xLINs,  4xQSP , 2xI²C , 25xSENT, 6xPSI, 2xHSSL, 4xMSC , 1x eMMC/SDIO, GTM, CCU6, GPT12, HSM
  • LFBGA-516 package
  • Single voltage supply 5 V or 3.3 V
  • Temperature : 40°C to 125°C

Emulation Features  

  • 4 MB Extension Memory (EMEM) for calibration and tracing (2 MB)
  • Multi-Core Debug Solution (MCDS)
    • Parallel and time aligned trace of cores and busses
    • Powerful trigger conditions
    • On-chip logic analyzer functions
  • Additional DAP interface (DAPE) for connecting a second independent tool
  • Injector for faults and stress (IFS)
  • Aurora Gigabit Trace (AGBT) support
  • CPUs have full access to all emulation resources, enabling all kind of interfaces (e.g. Ethernet) as tool connection

Benefits

  • Higher software/system quality and faster time to market with best in class:
    • Multi-core debugging and trace  
    • Trace based measurement
    • Rapid prototyping
    • Calibration
  • Strong AURIX 1G compatibility
    • Maintains investment in tools and knowledge
    • Early availability of attractive tooling solutions
    • Minimizes the  risk
  • Scalable tooling options from very cost effective to highest performance
  • Consistent architecture over the whole family for all packages
  • Different tool combinations due to two DAP interfaces
  • Very cost effective trace

MCDS tracing can be evaluated using the free of charge MCDS Trace Viewer tool which comes with the DAS installation www.infineon.com/DAS

Compatibility  

Full compatibility with TC39x standard devices. For TC38x systems the following points need to be considered:

  • Thermal design and power supply need to support the higher TC39xXE power consumption
  • SW needs to be tolerant to the different CHIPID and JTAGID values
  • The upper 12 ASCLIN modules (out of 24) of TC38x may not be used

Documents

Diagrams
Tools & Software

AURIX™ Embedded Software

Embedded Software Solutions

Infineon software overview

 

 

Ready to use software packages are the basic components for todays automotive ECUs. Infineon unveils: 

 

Microcontroller abstract drivers

 Safety drivers
  • PRO-SIL SafeTlib (AURIX TC2xx)
  • PRO-SIL SBST Software-Based Self-Test (AURIX TC3xx)
 Security software 
  • AUTOSAR crypto driver (AURIX TC3xx) via  software partners
  • Intrusion Detection Prevention Systems (IDPS) via  software partners

 Free TriCore Tools

1. Free TriCore Entry Tool Chain

2. Altium Free Tools for TriCore/AURIX

  • Free TASKING VX-Toolset for AURIX
  • Free TASKING Pin Mapper for AURIX( Request here )

3. Infineon Tools 

 Libraries

  System software

 

 

  

 

 

 

 

AUTOSAR MCAL drivers MC-ISAR TC2xx product overview

 

› Supported AUTOSAR releases and devices

  • V4.0.3: AUDO MAX
  • V3.2, V4.0.3: AURIX™ TC2xx
  • V4.2.2: AURIX™  TC3xx
  • ISO 26262 support

› Complex driver for non-standardized modules (for TriCore™)

 

 

    › AUTOSAR BSW suite via partners :

     ARCCORE, Elektrobit, ETAS, KPIT, Mentor  Automotive,  Vector 

   › Delivery packages include :

   source code, user manual, Tresos configuration tool

    

 

AUTOSAR is a standardized automotive software architecture to establish the reuse of software within the automotive area. This is the baseline for enabling a transition from an ECU specific software development to an application oriented approach.

Infineon provides MC-ISAR low-level drivers based on the AUTOSAR MCAL layer. With the MC-ISAR AUTOSAR drivers a system supplier can use one set of standardized basic software drivers over different applications within one configuration tool. By developing MC-ISAR in house at Infineon this enables efficient and optimized drivers. A CMM level 3 certified process is applied for the MC-ISAR drivers.

The complete AUTOSAR suite is provided in close cooperation with software partners which allow to reuse their long term software experience. Thus an optimized AUTOSAR software bundle is available.

 

Access to the microcontroller hardware is routed through the Microcontroller Abstraction Layer. The MCAL layer ensures a standard interface and controls the microcontroller peripherals. Standardized components are

 

Basic AUTOSAR package MC-ISAR:

  • MCU (Microcontroller Unit) driver: provides services for basic microcontroller initialization, power down functionality, reset and microcontroller specific functions
  • WDG (Watchdog) driver: provides services for initialization, changing the operation mode and triggering the watchdog
  • GPT (General Purpose Timer) driver: uses the hardware timer channels of the general-purpose timer unit
  • SPI handler/driver: provides services for reading from and writing to devices connected via SPI busses (e.g. EEPROM, Watchdog, I/O ASICs).
  • PORT driver: provides the service for initializing the whole PORT structure of the microcontroller. The DIO driver works on pins and ports which are configured by the PORT driver.
  • DIO driver: provides services for reading and writing to/from DIO channels (pins), DIO ports, DIO channel groups
  • ICU (Input Capture Unit) driver: for demodulation of a PWM signal, counting pulses, measuring of frequency and duty cycle, generating simple interrupts and also wakeup interrupts
  • PWM (Pulse Width Modulation) driver: generates pulses with variable pulse width. It allows the selection of the duty cycle and the signal period time.
  • ADC (Analogue Digital Converter) driver: provides services to start and stop a conversion respectively to enable and disable the trigger source for a conversion.

MC-ISAR COM package:

  • CAN driver:  provides services for CAN transmissions
  • CanTrcv CAN transceiver driver: provides services to control the transceiver hardware which detects electrical malfunctions, supports power supply control and wake up via the bus.
  • LIN driver: applies to LIN 2.0 master nodes

MC-ISAR MEM package:

  • FLASH driver: provides services for reading, writing and erasing flash memory and handling write / erase protection
  • FEE driver: provides services for the Flash EEPROM Emulation

In addition to standardized modules AUTOSAR provides the possibility of complex driver for non-standardized hardware module. To efficiently exploit the hardware MCAL Complex Drivers are an essential component for hardware abstraction.

 MC-ISAR MCAL CD (MCAL Complex Driver) package:

  • UART driver: provides services for handling the UART communication
  • MEMCeck driver: handles the CRC module
  • FADC (Fast Analogue Digital Converter) driver: provides services for the Fast ADC module
  • Additional driver for non standardized modules are available
AUTOSAR MCAL drivers MC-ISAR TC3xx product overview
 

Supported AUTOSAR releases and devices

  • V4.0.3: AUDO MAX V3.2,
  • V4.0.3: AURIX™ TC2xx
  • V4.2.2: AURIX™ TC3xx
  • ISO 26262 support

Complex driver for non-standardized modules (for TriCore)

ASPICE L2 (AURIX TC3xx)

 

  › AUTOSAR BSW suite via partners:

   ARCCORE, Elektrobit, ETAS, KPIT, Mentor Automotive,  Vector 

  › Delivery packages include:

  source code, user manual, Tresos configuration tool

  › ASIL-D process to ensure freedom from interference in memory
 
 
 AUTOSAR  is a standardized automotive software architecture to establish the reuse of software within the automotive area. This is the baseline for enabling a transition from an ECU specific software development to an application oriented approach.
 
Infineon provides MC-ISAR low-level drivers based on the AUTOSAR MCAL layer. With the MC-ISAR AUTOSAR drivers a system supplier can use one set of standardized basic software drivers over different applications within one configuration tool. By developing MC-ISAR in house at Infineon this enables efficient and optimized drivers. A CMM level 3 certified process is applied for the MC-ISAR drivers.
The complete AUTOSAR suite is provided in close cooperation with software partners which allow to reuse their long term software experience. Thus an optimized AUTOSAR software bundle is available.
 
Access to the microcontroller hardware is routed through the Microcontroller Abstraction Layer. The MCAL layer ensures a standard interface and controls the microcontroller peripherals. Standardized components are

 

Basic AUTOSAR package MC-ISAR:

  • MCU (Microcontroller Unit) driver: provides services for basic microcontroller initialization, power down functionality, reset and microcontroller specific functions
  • WDG (Watchdog) driver: provides services for initialization, changing the operation mode and triggering the watchdog
  • GPT (General Purpose Timer) driver: uses the hardware timer channels of the general-purpose timer unit
  • SPI handler/driver: provides services for reading from and writing to devices connected via SPI busses (e.g. EEPROM, Watchdog, I/O ASICs).
  • PORT driver: provides the service for initializing the whole PORT structure of the microcontroller. The DIO driver works on pins and ports which are configured by the PORT driver.
  • DIO driver: provides services for reading and writing to/from DIO channels (pins), DIO ports, DIO channel groups
  • ICU (Input Capture Unit) driver: for demodulation of a PWM signal, counting pulses, measuring of frequency and duty cycle, generating simple interrupts and also wakeup interrupts
  • PWM (Pulse Width Modulation) driver: generates pulses with variable pulse width. It allows the selection of the duty cycle and the signal period time.
  • ADC (Analogue Digital Converter) driver: provides services to start and stop a conversion respectively to enable and disable the trigger source for a conversion.

MC-ISAR COM package:

  • CAN driver:  provides services for CAN transmissions
  • CanTrcv CAN transceiver driver: provides services to control the transceiver hardware which detects electrical malfunctions, supports power supply control and wake up via the bus.
  • LIN driver: applies to LIN 2.0 master nodes

MC-ISAR MEM package:

  • FLASH driver: provides services for reading, writing and erasing flash memory and handling write / erase protection
  • FEE driver: provides services for the Flash EEPROM Emulation

In addition to standardized modules AUTOSAR provides the possibility of complex driver for non-standardized hardware module. To efficiently exploit the hardware MCAL Complex Drivers are an essential component for hardware abstraction.

 MC-ISAR MCAL CD (MCAL Complex Driver) package:

  • UART driver: provides services for handling the UART communication
  • MEMCeck driver: handles the CRC module
  • FADC (Fast Analogue Digital Converter) driver: provides services for the Fast ADC module
  • Additional driver for non standardized modules are available

 

 



AUTOSAR suits from 3rd parties

AURIX™ Tool

Training

AURIX™ Webinar for the Asia Pacific: learn more

 

e-Learnings

  

AURIX™ TC3xx communication interfaces

aurix tc3xx communication interfaces
  • Identify the communication interfaces available in AURIX™ TC3xx, and
  • Understand their key features

Watch eLearning

What makes AURIX™ so easy to use

AURIX-ease-of-use
  • Easily navigate through our website infrastructure and indicate where to find AURIXTM easy-to-reach sources of information and documentation
  • Easily identify our tools and software platform, our partner ecosystem as well as our kits platform and its support ecosystem

Watch eLearning

Basics of software over-the-air concept using AURIX™ 

Over_the_air_concept_aurix
  • Get to know why systems require frequent updates, how this is done and how automotive systems try to ensure their security when they are updated
  • Learn how AURIX™ families of microcontrollers support over-the-air software updates

Watch eLearning

Secure CAN Communication

Secure CAN communication

Understand how hackers use the CAN bus to interfere with in-vehicle communication, and be aware of how Infineon’s AURIX™ microcontrollers support secure CAN communication.

Watch eLearning

AURIX™  32-bit microcontroller family for CAV
  • Know the AURIX™ 32-bit multicore microcontroller family
  • Recognize how it applies to Commercial, Construction and Agricultural Vehicles (CAV)
  • Be familiar with the safety standards and support models available, and
  • Know which tools and development kits are available and where to find them.

Watch eLearning

AURIX™ 1G

Aurix 1G
  • Identify the AURIX™ first generation target application segments,  setting trends and portfolio;
  • Recognize the basis for AURIX™ high levels of safety and security and, finally,
  • Understand the AURIX™ software characteristics and its available tools.

Watch eLearning

 AURIX™ for Advanced Driver Assistance Systems
  • In this training you will get to know what ADAS is
  • Understand how AURIX™ fits ADAS applications, and
  • Know where to find AURIX™ support models, tools and development kits 

Watch eLearning

 AURIX™ Hardware Security Module for Automotive Cyber Security
  • Be aware of the growing market for connected cars
  • Recognize how connectivity poses a challenge to security
  • Understand how the 1st Generation AURIX™ Hardware Security Module (HSM) works, its key features and applications

Watch eLearning

Powertrain electrification and Infineon's solutions for inverters

Electric_Drive_Train
  • Understand the importance of the powertrain electrification 
  • Be familiar with the operating modes of the electric drive system

Watch eLearning

 How AURIX™ addresses electric vehicle application needs

AURIX_for_xEV
  • Get to know how AURIX™ is able to answer the needs of the electric vehicle market
  • Recognize and explore how AURIX™ TC3xx addresses key electric vehicle challenges, and understand the main features of the AURIX™ TC3xx microcontroller

Watch eLearning

OPTIGA™ Trusted Platform Module & AURIX™: Perfect partners for automotive cybersecurity

 OPTIGA_TPM
  • Identify common security threats to modern cars
  • Understand how OPTIGA™ TPM can help automotive systems achieve a high level of security and their applications in different use cases in various host environments

Watch elearning

Introduction_to_Infineon’s_TriCore_architecture

  
  • Understand what TriCore™ is and identify the advantages it brings to users
  • Be aware of the outlook of future developments

Watch eLearning
1EDI30XXAS EVALBOARD  
  • Find out about the definition of gateway and zone controllers and their typical applications
  • Discover the new routing requirements in gateway and zone controllers, and get an overview of the most generic block diagrams for gateway and zone controller units

Watch eLearning
Captureb
  • Categorize cyber security threats in the upcoming automotive electrical and electronic architecture 
  • Identify how Infineon’s next generation AURIX™ TC4x microcontrollers are able to mitigate cyber security threats

Watch eLearning
EEArchitecture
  • Explain how the major automotive trends are shaping the evolution of electrical and electronic or E/E architectures in cars
  • Identify the trending E/E architecture concepts and their impact on networking technologies and recognize the solutions that Infineon provides to support current and future E/E architectures

Watch eLearning

Aurix microcontrollers

 
  • Recognize AURIX™ products within Infineon’s broad portfolio of microcontrollers for industrial applications and distinguish the different AURIX™ generations and their respective features
  • Identify AURIX™ support tools to help you design-in this family of Infineon’s microcontrollers in your industrial applications

Watch eLearning

 

32-bit: Tricore®

Training Title

   Language

Hitex

 Microconsult

 AURIX™ TC2xx Workshop: 32-Bit Multicore Mikrocontroller-Familie

      German

   X

 AURIX™ TC2xx Workshop: 32-Bit Multicore Microcontroller Family

       English   X

 AURIX™ TC3xx Workshop: 32-Bit Multicore-Mikrocontroller-Familie (2G Zweite Generation)

       German   X

 AURIX™ TC3xx Workshop: 32-Bit Multicore Microcontroller Family (2G Second Generation)

       English   X

 TriCore® AUDO MAX Familie: Architektur und Peripherie

      German

  

 X

 TriCore® AUDO MAX Family: Architecture and Peripherals

      English

  

X

 TriCore® AUDO FUTURE Familie: Architektur und Peripherie

      German

  

X

 TriCore® AUDO FUTURE Family: Architecture and Peripherals

      English

  

X

 

32-bit: XMC4000/XMC1000®

Training Title

   Language

   Hitex

 Microconsult
Keil MDK-ARM Powertraining mit XMC4500 (Cortex-M4)       German X  
Hands-on Professional Middleware für Cortex-M       German X  

XMC4000 / XCM1000 Workshop: 32-Bit Industrial Microcontroller ARM® Cortex™-M4/ ARM® Cortex™-M0

      German

  

X

XMC4000 / XCM1000 Workshop: 32-Bit Industrial Microcontroller ARM® Cortex™-M4/ ARM® Cortex™-M0

      English

  

X

 

16-bit: C166, XC166

Training Title

   Language

     Hitex

 Microconsult

 XC2000/XE16x/XC16x/ST10: Architektur, Peripherie und Embedded Programmierung

      German

  

            X

 XC2000/XE16x/XC16x/ST10: Architecture, Peripherals and Embedded Programming

      English

  

            X

 XC8xx/C500/8051 8-Bit Mikrocontroller: Architektur und Embedded Programmierung

      German

  

            X 
 XC8xx/C500/8051 8-Bit Microcontrollers: Architecture and Embedded Programming       English               X

 

Operating system and Applications

 Operating system and Applications    Language      Hitex  Microconsult 

 Embedded C: Programmiermethoden und -tools für Embedded-Anwendungen

      German

 

  

            X
 Embedded C: Programming Methods and Tools for Embedded Applications

      English

  

            X

 TC17x7: Anwendungspraxis TriCore®-spezifischer Peripherie

      German

  

            X

 TC17x7: Practical Application of TriCore® Specific Peripherals

      English

  

            X

 Tracen und Multicore Debugging mit der PLS Universal Debug Engine UDE

      German

  

            X 

 Tracing and Multicore Debugging with the PLS Universal Debug Engine UDE

      English

  

            X 

 Tracen und Multicore Debugging für TriCore/AURIX™ (MCDS) mit Lauterbach TRACE32

      German

  

            X

 Tracing and Multicore Debugging for TriCore/AURIX™ (MCDS) with Lauterbach TRACE32

      English

  

            X 

 Mikrocontroller/Mikroprozessor Grundlagen

      German

  

            X

 Microcontroller/Microprocessor Basics

      English

  

            X

 RTOS-Grundlagen und Anwendung: Mechanismen und deren Einsatz in Laufzeit-Architekturen für  Embedded- und Echtzeitsysteme

      German

  

            X

 RTOS Basics and Application: RTOS Mechanisms and their Application in Runtime Architectures for  Embedded and Real-time Systems

      English

  

            X

 RTOS-Anwendung: Entwicklung von Laufzeit-Architekturen für Embedded- und Echtzeitsysteme

      German

  

             X

 RTOS Application: Development of Runtime Architectures for Embedded and Real-time Systems

      English

  

             X

 

 

Support