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ADVANCED AUTOMATION COURSES - Advance Level

advanced industrial automation course in Coimbatore

ADVANCED AUTOMATION COURSES - Advance Level

DURATION : 2 MONTHS (160Hrs.)

This advanced industrial automation course in Coimbatore is designed for engineering graduates who want hands-on mastery of industrial control systems. During the course of 160 hours of hands-on training, you will work with three major PLC brands (Schneider, Siemens, Allen Bradly, or Delta), one SCADA, two HMIs, and two VFDs.The content of the program is based on real projects, and students will engage in advanced PLC programming, HMI design, SCADA monitoring, and drive system integration, thus equipping them with the skills and confidence to take on complex automation tasks in modern industries.
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  1. Introduction to Electrical Engineering
  2. Applications used in industries
  3. Basic Concepts of Electricity
  4. Ohm’s Law
  5. Electrical Components and Symbols
  6. Electrical Circuit Analysis
  7. Relay logics and circuits
  8. Series and Parallel Circuits
  9. Voltage, Current, and Resistance
  10. Power and Energy in Electrical Systems
  11. Electrical machines(Motors and Types)
  12. Electrical Safety Practices
  13. Contactor – Latching/ Holding/ Retaining
  14. Timer – On delay/ OFF delay
  15. OLR, and SMPS
  16. Necessity of Motor Starters
  17. Direct online starters
  18. Motor – Forward Reversal with Interlocks
  19. Star-delta Starter
  20. Importance of Relay
  21. Relay
  22. Latching/ Holding/ Retaining
  23. Relay wiring with Logic gates
  24. Limit switch
  25. Reed switch
  26. Solenoid
  27. Actuators
  28.  
  1. Overview
  2. Introduction to PLC
  3. Advantages of PLC Control Panel
  4. Architecture of PLC
  5. Working principle of PLC
  6. PLC type and selection details
  7. Hardware configuration
  8. Software Explanation
  9. Communication details
  10. Online & Diagnostics
  11. Memory management
  12. Different types of Inputs and Outputs
  13. Concept of Digital I/O
  14. Concept of Analog I/O
  15. Source type input wiring
  16. Sink type input wiring
  17. Transistor type output wiring
  18. Relay type output wiring
  19. Various transmitters / sensors used in industrial applications
  20. Position sensor: Photo electric, proximity sensor, encoder)
  21. working principle, types selection guidelines
  22. Flow measurement, working principle, types, selection guidelines
  23. Pressure measurement, working principle, types, selection guidelines
  24. Load measurement, load cells
  25. Level measurement, working principle, types, selection guidelines
  26. Solenoid valves, control valves, smart transmitters
  27. Instrument transformers (CT,VT)
  28. Process control basics, closed & open loop control
  29. Process controllers (on-off, proportional, PID.
  1. Programming Language – Ladder diagram
  2. Device configuration – Start / Stop CPU
  3. Addressing details Digital, I/O’s
  4. Addressing details Analog, I/O’s
  5. Data Types – Bool, Integer, Real, Word, Dword
  6. Compile –Download, Upload program.
  7. Programming Language – Ladder diagram
  8. Device configuration – Start / Stop CPU
  9. Addressing details Digital, I/O’s
  10. Addressing details Analog, I/O’s
  11. Data Types – Bool, Integer, Real, Word, Dword
  12. Compile –Download, Upload program.
  13. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  14. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  15. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  16. Programming Language – Ladder diagram, FBD, STL
  17. Function Block, Functions – OB, FB, FC, DB
  18. Table, Cross reference
  19. Analog Configuration
  20. Analog signals 0v to 10v DC, 4mA to 20mA DC
  21. Adjusting gain & offset in A/D conversion
  22. Adjusting gain & offset in D/A conversion
  23. Scale function
  24. PID Configuration
  25. Real Time Clock – RTC
  26. High Speed Counter – HSC
  27. Pulse Train Output – PTO
  28. Libraries
  29. PDF conversion
  30. Real Time Applications
  31. Understanding the basic techniques of controlling an AC motor.
  32. Block Diagram of VFD
  33. How an AC drive is constructed, and how the various protection features work
  34. Operation of the AC drive.
  35. AC drive range and specification.
  36. Motor Nameplate – Drive
  37. Modes of Control
  38. V/F Control
  39. Speed & Torque
  40. Vector control
  41. Auto Tuning / ID Run
  42. Frequency Reference Setting
  43. Acceleration and De-Acceleration Control
  44. Forward and Reverse control
  45. Monitor / Display parameter
  46. Parameter Selection
  47. Parameter programming
  48. Set points
  49. Multi-speed control
  50. External speed control by Analog Input / Analog output
  51. Remote control
  52. Jogging concept
  53. Dynamic Braking
  54. Master slave concept
  55. Braking resistor
  56. Communication with PLC
  1. Programming Language – Ladder diagram
  2. Device configuration – Start / Stop CPU
  3. Addressing details Digital, I/O’s
  4. Addressing details Analog, I/O’s
  5. Data Types – Bool, Integer, Real, Word, Dword
  6. Compile –Download, Upload program.
  7. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  8. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  9. Counter – UP Counter, Down Counter, UPDOWN Counter
  10. Comparator – >, <, =
  11. Move Function
  12. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  13. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  14. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  15. Programming Language – Ladder diagram, FBD, STL
  16. Function Block, Functions – OB, FB, FC, DB
  17. Table, Cross reference
  18. Analog Configuration
  19. Analog signals 0v to 10v DC, 4mA to 20mA DC
  20. Adjusting gain & offset in A/D conversion
  21. Adjusting gain & offset in D/A conversion
  22. Scale function
  23. PID Configuration
  24. Real Time Clock – RTC
  25. High Speed Counter – HSC
  26. Pulse Train Output – PTO
  27. Libraries
  28. PDF conversion
  29. Real Time Applications
  30. Understanding the basic techniques of controlling an AC motor.
  31. Block Diagram of VFD
  32. How an AC drive is constructed, and how the various protection features work
  33. Operation of the AC drive.
  34. AC drive range and specification.
  35. Motor Nameplate – Drive
  36. Modes of Control
  37. V/F Control
  38. Speed & Torque
  39. Vector control
  40. Auto Tuning / ID Run
  41. Frequency Reference Setting
  42. Acceleration and De-Acceleration Control
  43. Forward and Reverse control
  44. Monitor / Display parameter
  45. Parameter Selection
  46. Parameter programming
  47. Set points
  48. Multi-speed control
  49. External speed control by Analog Input / Analog output
  50. Remote control
  51. Jogging concept
  52. Dynamic Braking
  53. Master slave concept
  54. Braking resistor
  55. Communication with PLC.
  1. Programming Language – Ladder diagram
  2. Device configuration – Start / Stop CPU
  3. Addressing details Digital, I/O’s
  4. Addressing details Analog, I/O’s
  5. Data Types – Bool, Integer, Real, Word, Dword
  6. Compile –Download, Upload program.
  7. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  8. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  9. Counter – UP Counter, Down Counter, UPDOWN Counter
  10. Comparator – >, <, =
  11. Move Function
  12. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  13. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  14. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  15. Programming Language – Ladder diagram, FBD, STL
  16. Function Block, Functions – OB, FB, FC, DB
  17. Table, Cross reference
  18. Analog Configuration
  19. Analog signals 0v to 10v DC, 4mA to 20mA DC
  20. Adjusting gain & offset in A/D conversion
  21. Adjusting gain & offset in D/A conversion
  22. Scale function
  23. PID Configuration
  24. Real Time Clock – RTC
  25. High Speed Counter – HSC
  26. Pulse Train Output – PTO
  27. Libraries
  28. PDF conversion
  29. Real Time Applications
  30. Comparation of PLCs
  31. Reviews
  32. Discussion
  1. Programming Language – Ladder diagram
  2. Device configuration – Start / Stop CPU
  3. Addressing details Digital, I/O’s
  4. Addressing details Analog, I/O’s
  5. Data Types – Bool, Integer, Real, Word, Dword
  6. Compile –Download, Upload program.
  7. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  8. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  9. Counter – UP Counter, Down Counter, UPDOWN Counter
  10. Comparator – >, <, =
  11. Move Function
  12. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  13. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  14. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  15. Programming Language – Ladder diagram, FBD, STL
  16. Function Block, Functions – OB, FB, FC, DB
  17. Table, Cross reference
  18. Analog Configuration
  19. Analog signals 0v to 10v DC, 4mA to 20mA DC
  20. Adjusting gain & offset in A/D conversion
  21. Adjusting gain & offset in D/A conversion
  22. Scale function
  23. PID Configuration
  24. Real Time Clock – RTC
  25. High Speed Counter – HSC
  26. Pulse Train Output – PTO
  27. Libraries
  28. PDF conversion
  29. Real Time Applications
  30. Understanding the basic techniques of controlling an AC motor.
  31. Block Diagram of VFD
  32. How an AC drive is constructed, and how the various protection features work
  33. Operation of the AC drive.
  34. AC drive range and specification.
  35. Motor Nameplate – Drive
  36. Modes of Control
  37. V/F Control
  38. Speed & Torque
  39. Vector control
  40. Auto Tuning / ID Run
  41. Frequency Reference Setting
  42. Acceleration and De-Acceleration Control
  43. Forward and Reverse control
  44. Monitor / Display parameter
  45. Parameter Selection
  46. Parameter programming
  47. Set points
  48. Multi-speed control
  49. External speed control by Analog Input / Analog output
  50. Remote control
  51. Jogging concept
  52. Dynamic Braking
  53. Master slave concept
  54. Braking resistor
  55. Communication with PLC.
  1. Programming Language – Ladder diagram
  2. Device configuration – Start / Stop CPU
  3. Addressing details Digital, I/O’s
  4. Addressing details Analog, I/O’s
  5. Data Types – Bool, Integer, Real, Word, Dword
  6. Compile –Download, Upload program.
  7. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  8. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  9. Counter – UP Counter, Down Counter, UPDOWN Counter
  10. Comparator – >, <, =
  11. Move Function
  12. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  13. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  14. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  15. Programming Language – Ladder diagram, FBD, STL
  16. Function Block, Functions – OB, FB, FC, DB
  17. Table, Cross reference
  18. Analog Configuration
  19. Analog signals 0v to 10v DC, 4mA to 20mA DC
  20. Adjusting gain & offset in A/D conversion
  21. Adjusting gain & offset in D/A conversion
  22. Scale function
  23. PID Configuration
  24. Real Time Clock – RTC
  25. High Speed Counter – HSC
  26. Pulse Train Output – PTO
  27. Libraries
  28. PDF conversion
  29. Real Time Applications
  30. Understanding the basic techniques of controlling an AC motor.
  31. Block Diagram of VFD
  32. How an AC drive is constructed, and how the various protection features work
  33. Operation of the AC drive.
  34. AC drive range and specification.
  35. Motor Nameplate – Drive
  36. Modes of Control
  37. V/F Control
  38. Speed & Torque
  39. Vector control
  40. Auto Tuning / ID Run
  41. Frequency Reference Setting
  42. Acceleration and De-Acceleration Control
  43. Forward and Reverse control
  44. Monitor / Display parameter
  45. Parameter Selection
  46. Parameter programming
  47. Set points
  48. Multi-speed control
  49. External speed control by Analog Input / Analog output
  50. Remote control
  51. Jogging concept
  52. Dynamic Braking
  53. Master slave concept
  54. Braking resistor
  55. Communication with PLC.
  1. Introduction to HMI / SCADA
  2. Software Explanation
  3. Download and uploading the programs.
  4. IP address configuration
  5. Making New Project
  6. Features of SCADA
  7. Difference Between SCADA and HMI
  8. Difference Between SCADA and PLC
  9. Making and Editing New Graphic Display
  10. Scada Tags – Memory, I/O, Discrete, Real, Integer, message
  11. Runtime, Development
  12. Animation
  13. Movement, Filling, Visibility, Blinking, Orientation, Height width,
  14. Tag creation
  15. Trend Details
  16. Real-time trend
  17. Historical trend
  18. Function Keys
  19. DDE / Suite link protocols
  20. Alarms and Events Details
  21. Security Control.

Syllabus

Job Opportunity

After completing the Beginner Diploma in Industrial Automation, you can get good job opportunities in factories and industries. The focus will be on the most important qualifications, such as PLC programming, SCADA, HMI, and VFD systems. These qualifications will be sufficient for your employment in areas like Automation Engineer or PLC Programmer. The whole process of automated equipment installation, operation, and troubleshooting will be perfectly clear to you. Maintenance and improvement of automation processes is an area where many companies would like to have their staff with professional capabilities. This course gives you a strong foundation to start or grow your career in industrial automation.

Faq

The course covers advanced industrial automation training including 3 PLC brands (choose from Schneider, Siemens, Allen-Bradley, or Delta), SCADA (1 system), HMI (2 systems), and VFD (2 drives).

The course is designed for engineering graduates (or those with equivalent background) seeking in-depth technical training to become industry-ready automation engineers.

The duration is 2 months (approximately 160 hours).

The course includes:

Fundamentals of Electrical Engineering (basic electricity, circuits, motor starters, relay logic, contactors, safety, etc.)

You will learn PLC programming/configuration (two brands), SCADA, HMI panel design/operation, VFD (Variable Frequency Drive) wiring and control — giving a broad exposure to core industrial automation technologies.

Not necessarily — while prior knowledge may help, the course is designed to enable people to learn from the fundamentals to industry-ready level.

Since it covers multiple PLC brands and includes SCADA, HMI, and VFD — and offers a full 120-hour program — it’s more comprehensive than basic/introductory courses. This increases your readiness for real industry work.

Yes — as the name suggests, you become a “Certified Automation Engineer” after successful completion of the course from Robotriq.

Yes — the course emphasizes practical, industrial-type lab environment work including wiring, integration of PLC with sensors/actuators, SCADA/HMI setup, motor/VFD control — similar to real factory environment.

Engineering graduates (especially electrical, electronics, instrumentation, mechanical), diploma holders, technicians, or anyone looking to start or upgrade a career in industrial automation would benefit.

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Welcome to Robotriq — a professional institute focused on industrial automation training and practical skill development. We are committed to helping engineers, technicians, and working professionals gain job-ready automation skills through hands-on, industry-focused learning.

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