9900 30 6000

Trainings

We are offering online and offline training in Automotive Embedded Systems, and IoT Technologies.

EMBEDDED SYSTEMS

  • 1. Embedded C Programming
  • 2. 8bit Microcontroller – 8051
  • 3. 32bit ARM Microcontroller – STM32F407xxxx
  • 4. Embedded Communication Protocols – UART, SPI, I2C
  • 5. Low Level Driver Development for Microcontrollers
  • 6. Hands on Practice – Keil IDE, IAR Embedded Workbench, 8051 kit, STM32F4 Discovery Kit,
    STLINK Debugger

Duration – 2 Months (160 Hours)

Pre-requisites: C Programming, Number Systems, Digital Logic and Basic understanding of Microcontrollers

WIRELESS EMBEDDED SYSTEMS & ZIGBEE COMMUNICATION

  • 1. Wireless Microcontroller – CC2538 – Architecture & Programming
  • 2. Wireless Communication – Need for new protocol, scope and applications
  • 3. Wireless Protocols – IEEE802.15.4 and Zigbee – comparison
  • 4. Zigbee – Architecture, Topology and Challenges
  • 5. IEEE 802.15.4 Stack and Zigbee Stack
  • 6. PHY layer and MAC layer of Zigbee Communication
  • 7. RFD, FFD, Coordinator, Gateway – Roles and Responsibilities
  • 8. Hands on Practice – IAR Embedded Workbench, TI Zigbee Stack, Implementing simple Zigbee Application, Compiling C Code and Testing the application on Zigbee Training Kit, Naming & Addressing of nodes, Joining & Leaving the Network, Inter-Operability, Accessing the network or devices from web/mobile app.
  • 9. Concluding Session

Duration – 1 Month (50 Hours)

Pre-requisites: C Programming, Number Systems, Digital Logic, Basic understanding of Microcontrollers and Communication Protocols

AUTOMOTIVE EMBEDDED SYSTEMS

  • Automotive Microcontroller -STM8AFXX.
  • Embedded ‘C’ Programming.
  • MISRA-C Coding Guidelines.
  • Embedde Communication protocol-UART,SPI,I2C.
  • Automotive communication Protocols-CAN BUS.
  • Hands on Practice- STM8 Discovery kit,IAR Embedded workbench,CAN protocol learning kit,CAN BUS Analyser tools,.
  • Low level Driver development for CAN .
  • CAN Application development..

Pre-requisites: C Programming, Number Systems, Digital Logic and Basic understanding of
Communication Protocol.

DIGITAL SIGNAL PROCESSING

2 (3)
1.DSP using MATLAB

2 (3)
2.MATLAB & SIMULINK

2 (3)
3.Real Time DSP Implementation on TMS320C6713

2 (3)
4.OpenCV

2 (3)
5.Digital Image Processing using MATLAB

Pre-requisites: C Programming, Number Systems, Digital Logic and Basic understanding of Microcontrollers

VLSI DESIGN

Please Contact us for details about this Course

INTERNET OF THINGS

    1. IOT overview
    2. Architecture
    3. Use Case
    4. Sample Demo
    5. HW, µc, Sensors
    6. Sensor HW interfacing – Practicals
    7. Communication Protocols
    8. µc Programing
    9. Send Sensor data to cloud
    10. IOT dashboard – freeboard
    11. Linux – Installation, Dual boot
    12. Linux – porting on Toradex SBC HW
    13. Linux – User space console on Toradex SBC
    14. Linux – C Program for UART Communication on Toradex SBC
    15. Linux – Ethernet Communication on Toradex SBC using TCP/IP
    16. Linux – MQTT Communication on Toradex SBC
    17. IOT End to End Sample application Implementation of sensor to cloud sample application

For More Details about Internet of Things Contact : +91 9164659791

MATLAB

  • 1. Introduction to MATLAB, WHY MATLAB, Scope of MATLAB, Application of MATLAB, Help
    Utility to work with MATLAB
  • 2. Starting MATLAB, MATLAB Desktop Environment
  • 3. Basic Matlab Programming
  • 4. Arrays, Matrices, General Matrix Functions, Flow Control, Structures, Scripts & Functions
  • 5. GUI in Matlab – Building GUI in Matlab
  • 6. Serial Port Communication with Hardware using Matlab
  • 6. Concluding Session

Duration – 1 Month (50 Hours)

Pre-requisites: Programming Knowledge, Number Systems, Digital Logic

WORKSHOP ON AUTOMOTIVE CAN PROTOCOL

  • Embedded Communication Protocols – UART, SPI, I2C – Comparison
  • CAN Protocol – Theory, Physical Layer, Arbitration Concept, Frame Formats
  • CAB Bus Analyzer Tool Chain
  • Building Simple CAN Application using CAN Training Kit

Duration – 8 Hours

Pre-requisites: C Programming, Number Systems, Digital Logic and Basic understanding of
Communication Concepts

WORKSHOP ON  CANopen Protocol

  • Introduction to CAN – Background,arbitration concepts,frame formats,physical layer details etc.
  •  Need for higher layer CAN Protocols & introduction to CANopen.
  • Object Dictionary concept.
  • Service Data Objects SDO.
  • Process Data Objects PDO and exchange of application data using PDOs.
  • Network Management NMT & error detection.
  • CANopen master & Slave .
  • Communication profile and Device profile.
  • CAN eds files-introduction.
  • CANOpen Stack.

Pre-requisites: C Programming, Number Systems, Digital Logic and Basic understanding of
CAN Protocol.

AUTOSAR TRAINING

    • 1. C-Programming.
    • 2. Canoe and CAN analyser
    • 3. UDS Protocol (ISO 14229)
    • 4. Autossr Software Development.

(i)BSW(DCM , DEM , COM and PDUR)
(ii)RTE Deneration
(iii)CANTP and CANIF

  • 5. CAN Protocol-ISO 15765.
  • 6. CAPL Scripting
  • 7. Integration Testing and Unit Testing.

Duration – 8 Weeks Or 8 Days