AKGEC-AIA Programs


The AKGEC-AIA Centre of Integrated Automation aims to train engineering students of all disciplines up to the Industry expectations and foster research in the field of integrated Automation. The centre conducts following training programs for industry professionals and engineering students of all disciplines:


Target group

Programmer, Service technician, B.E/B.Tech student, Technician, Engineer

Goals

Requirements

  • None

Content

Technology Topic
Industrial Automation
  • Introduction to Automation
  • Need of Automation
  • Type of Automation
  • Elements of Automation System
  • Integrated Automation
Sensors
  • Introduction and History of Sensors
  • Need, Industrial applications
  • Sensor selection
  • Operating principle of Sensors
  • Encoders
  • Nomenclature and connections
  • Hands on sensor kits (Photoelectric, Ultrasonic, proximity)
PLC and HMI
  • Introduction to Automation
  • Introduction to PLC and PLC Wiring
  • Concept of Ladder Logic Programming
  • Fundamental Commands of PLC
  • Introduction to TIA portal and Programming Techniques
  • Introduction to HMI and Application Development
  • Experiments and Case Studies
Electro Pneumatics
  • Introduction to electro-pneumatics
  • Direct and indirect control in electro pneumatics.
  • Systematic production and reading of electrical circuit diagrams.
  • Logic operations in electro-pneumatics.
  • Coordinated sequence controls.
  • Sensors in electro-pneumatics (limit switches).
  • Sensors in electro-pneumatics (proximity switches and pressure switches).
  • Fault finding procedures and systematic troubleshooting
  • Safety regulations and valid standards for electrical engineering and pneumatics

Duration


Academic: 40 Hrs, (Part Time /Weekend /REGULAR)

End of Training


  • The course ends with an achievement test
  • A certificate is issued on successful completion of the course

Target group


Service Technicians, B.E/B.Tech student, Technician, Manager, Supervisor, Engineer

Goals

Requirements

  • None

Content


Technology Topic
PLC and SCADA
  • Basics of SCADA and method of Application Development
  • Creating Tag Database and editing graphic display with animation
  • Creating Alarm and Events
  • FBD operation in PLC and PLC Tag integration to SCADA software
  • Application development using PLC SCADA and HMI (an integrated approach)
  •  Practical exercises on integration and case studies
Motion Control
  • Basic requirements of a drive system
  • Drive mechanics and power transmission
  • Understanding drive hardware and software
  • Adding and configuring drives in Automation Studio
  • Components of the motion control system
  • Parameter management
  • Determining control parameters using auto tuning
  • Switch on the controller, homing, perform base movements
  • Saving and loading the drive configuration
  • Practical exercises on integration and case studies
Industrial Networking
  • Introduction to Industrial Networking
  • Data Communication and networking
  • Serial Communication: RS232 / RS422/ RS485
  • Sensor and control level networks
  • OSI Model
  • Introduction to commonly used networking protocol – Field bus, Profi bus, Mod bus, Ethernet, Control Net, HART Communication.
  • Communication Relations (Point to point, Multicast and Broad cast)
  • Experiments and Case Studies
  • Practical exercises on Modbus and Profinet
  • Master slave mode
  • Remote I/O system
  • Sharing / Accessing data on Network
Integrated Automation
  • Interfacing, Communication and working of two PLCs in master and slave mode.
  • Control and Communication of PLC with Motion Controller.
  • Control and Communication of PLC with Electro Pneumatics and Sensors
  • Concept and integration of Energy Meter, VSD and PID controller.
  • Need, Industrial applications
  • Sensor selection
  • Operating principle of Sensors
  • RFID
  • VISION
  • ASI

Duration


Academic: 80 Hrs, (Part Time /Weekend /REGULAR)

End of Training


  • The course ends with an achievement test
  • A certificate is issued on successful completion of the course

Duration


Academic: 60 Hrs (10 Hrs Theory + 50 Hrs Practical)
Corporate:40 Hrs (10 Hrs Theory + 50 Hrs Practical)

Goals

This course is drafted for fresher's B.Tech and M. Tech to enhance their understanding in Embedded Systems & IoT field. The program provides the state-of-the-art way to learn basic and advanced engineering concepts using multiple programming language. Advance Embedded System Knowledge around IoT offers a great deal of increased job opportunity for fresher’s and doubles the chances of placement for the learning enthusiasts

During the program trainees will work on variety of applications in the domain of Advanced Embedded Systems (including AVR, Raspberry PI, Linux and RTOS, Web Services and Analytics, Includes Practical Implementation of: Web services. Understanding of Cloud Architecture and working practically. Understanding different tools and techniques to supply data, Capturing data from Cloud and reverse order .Understanding both front end and Backend process in respect to IoT applying in Real Time Project.

Couse Details:

  1. 1. Introduction to Embedded System & IOT
  2. 2. Raspberry Pi integration with
    • various Communication Module (eg:GSM, Bluetooth, XBee, Wi-Fi )
    • IOT Method
    • Various Protocols (SMTP, MQTT, TCP/IP, HTTP)
  3. 3. Learn to transmit sensor value to server (using TCP/IP, SMTP Protocols).
  4. 4. TCP/IP client server and socket creation and integration with hardware
  5. 5. ADC(Analog to Digital Conversion) Interfacing
  6. 6. Extended Power Pin-out.
  7. 7. Liquid Crystal Display (LCD) Interfacing.
  8. 8. 8 LED’s Pattern & 1 RGB LED
  9. 9. RGB Interfacing
  10. 10. Servo Motor Interfacing.
  11. 11. Accelerometer module (ADXL335) Interfacing.
  12. 12. ONBOARD RTC with I2C interface.
  13. 13. Temperature Sensor (LM35).
  14. 14. Multiplexed Common Cathode 7-Segment Display.
  15. 15. 2 Pulled-up & 2 pulled-down Switches.
  16. 16. Analog sensors.

Projects which can be implemented:

  1. 1. Home Security System
  2. 2. LPG Gas Leakage Detection System
  3. 3. RFID Based Attendance System
  4. 4. Remote Temperature monitor System
  5. 5. Smart Intruder Detection system
  6. 6. Home Automation System: Bluetooth Enabled.
  7. 7. Ultrasonic Based Smart blind Navigation System
  8. 8. Home Automation System IOT, web services enabled
  9. 9. Greenhouse Controlling and Monitoring System
  10. 10. Mobile Controlled Electrical Devices
  11. 11. Automatic Room Light with Visitor Count
  12. 12. Car Parking Security and Monitoring System

Trainee Eligibility -


Student: Undergraduate Diploma / Engineers
Professionals:Engineers/ supervisor/ programmers

Powered by : SOFTWARE INCUBATOR