CERTIFIED AUTOMATION ENGINEER

DURATION : 1.5 MONTHS (120Hrs.)

PLC – Any 2 brands of PLC
(Schneider, Allen Bradley, Siemens, Delta)
SCADA-1 , HMI-1 , VFD-2 .

  1. Introduction to Electrical Engineering
  2. Applications used in industries
  3. Basic Concepts of Electricity
  4. Ohm’s Law
  1. Electrical Components and Symbols
  2. Electrical Circuit Analysis
  3. Relay logics and circuits
  1. Series and Parallel Circuits
  2. Voltage, Current, and Resistance
  3. Power and Energy in Electrical Systems
  1. Electrical machines(Motors and Types)
  2. Electrical Safety Practices
  1. Contactor – Latching/ Holding/ Retaining
  2. Timer – On delay/ OFF delay
  3. OLR, and SMPS
  4. Necessity of Motor Starters
  5. Direct online starters
  6. Motor – Forward Reversal with Interlocks
  7. Star-delta Starter
  1. Importance of Relay
  2. Relay
  3. Latching/ Holding/ Retaining
  4. Relay wiring with Logic gates
  5. Limit switch
  6. Reed switch
  7. Solenoid
  8. Actuators
  1. Overview
  2. Introduction to PLC
  3. Advantages of PLC Control Panel
  4. Architecture of PLC
  5. Working principle of PLC
  1. PLC type and selection details
  2. Hardware configuration
  3. Software Explanation
  4. Communication details
  1. Online & Diagnostics
  2. Memory management
  3. Different types of Inputs and Outputs
  4. Concept of Digital I/O
  5. Concept of Analog I/O
  1. Concept of PLC scan cycle
  2. Maintenance and troubleshooting of PLC
  3. Selection of PLC
  4. Wiring of PLC
  1. Source type input wiring
  2. Sink type input wiring
  3. Transistor type output wiring
  4. Relay type output wiring
  1. Various transmitters / sensors used in industrial applications
  2. Position sensor: Photo electric, proximity sensor, encoder)
  3. working principle, types selection guidelines
  4. Flow measurement, working principle, types, selection guidelines
  5. Pressure measurement, working principle, types, selection guidelines
  6. Load measurement, load cells
  7. Level measurement, working principle, types, selection guidelines
  8. Solenoid valves, control valves, smart transmitters
  9. Instrument transformers (CT,VT)
  10. Process control basics, closed & open loop control
  11. 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.
  1. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  2. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  3. Counter – UP Counter, Down Counter, UPDOWN Counter
  4. Comparator – >, <, =
  5. Move Function
  1. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  2. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  3. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  1. Programming Language – Ladder diagram, FBD, STL
  2. Function Block, Functions – OB, FB, FC, DB
  3. Table, Cross reference
  4. Analog Configuration
  5. Analog signals 0v to 10v DC, 4mA to 20mA DC
  6. Adjusting gain & offset in A/D conversion
  7. Adjusting gain & offset in D/A conversion
  8. Scale function
  1. PID Configuration
  2. Real Time Clock – RTC
  3. High Speed Counter – HSC
  4. Pulse Train Output – PTO
  5. Libraries
  6. PDF conversion
  7. Real Time Applications
  1. Understanding the basic techniques of controlling an AC motor.
  2. Block Diagram of VFD
  3. How an AC drive is constructed, and how the various protection features work
  4. Operation of the AC drive.
  5. AC drive range and specification.
  6. Motor Nameplate – Drive
  7. Modes of Control
  8. V/F Control
  9. Speed & Torque
  10. Vector control
  11. Auto Tuning / ID Run
  12. Frequency Reference Setting
  13. Acceleration and De-Acceleration Control
  14. Forward and Reverse control
  15. Monitor / Display parameter
  16. Parameter Selection
  17. Parameter programming
  18. Set points
  19. Multi-speed control
  20. External speed control by Analog Input / Analog output
  21. Remote control
  22. Jogging concept
  23. Dynamic Braking
  24. Master slave concept
  25. Braking resistor
  26. 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.
  1. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  2. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  3. Counter – UP Counter, Down Counter, UPDOWN Counter
  4. Comparator – >, <, =
  5. Move Function
  1. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  2. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  3. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  1. Programming Language – Ladder diagram, FBD, STL
  2. Function Block, Functions – OB, FB, FC, DB
  3. Table, Cross reference
  4. Analog Configuration
  5. Analog signals 0v to 10v DC, 4mA to 20mA DC
  6. Adjusting gain & offset in A/D conversion
  7. Adjusting gain & offset in D/A conversion
  8. Scale function
  1. PID Configuration
  2. Real Time Clock – RTC
  3. High Speed Counter – HSC
  4. Pulse Train Output – PTO
  5. Libraries
  6. PDF conversion
  7. Real Time Applications
  1. Understanding the basic techniques of controlling an AC motor.
  2. Block Diagram of VFD
  3. How an AC drive is constructed, and how the various protection features work
  4. Operation of the AC drive.
  5. AC drive range and specification.
  6. Motor Nameplate – Drive
  7. Modes of Control
  8. V/F Control
  9. Speed & Torque
  10. Vector control
  11. Auto Tuning / ID Run
  12. Frequency Reference Setting
  13. Acceleration and De-Acceleration Control
  14. Forward and Reverse control
  15. Monitor / Display parameter
  16. Parameter Selection
  17. Parameter programming
  18. Set points
  19. Multi-speed control
  20. External speed control by Analog Input / Analog output
  21. Remote control
  22. Jogging concept
  23. Dynamic Braking
  24. Master slave concept
  25. Braking resistor
  26. 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.
  1. Bit logic – NO, NC, NOT, SET, RESET, POSITIVE & NEGATIVE EDGE
  2. Timer – ON Delay, OFF Delay, Retentive Timer, Pulse Timer
  3. Counter – UP Counter, Down Counter, UPDOWN Counter
  4. Comparator – >, <, =
  5. Move Function
  1. Data type Conversion – ROUND, TRUNC, CEIL, FLOOR
  2. Math Functions – ADD, SUB, MUL, DIV, MOD, ABS, NEG
  3. Program control – CJ, CALL, LABEL, RETURN, MC, MCR
  1. Programming Language – Ladder diagram, FBD, STL
  2. Function Block, Functions – OB, FB, FC, DB
  3. Table, Cross reference
  4. Analog Configuration
  5. Analog signals 0v to 10v DC, 4mA to 20mA DC
  6. Adjusting gain & offset in A/D conversion
  7. Adjusting gain & offset in D/A conversion
  8. Scale function
  1. PID Configuration
  2. Real Time Clock – RTC
  3. High Speed Counter – HSC
  4. Pulse Train Output – PTO
  5. Libraries
  6. PDF conversion
  7. Real Time Applications
  1. Understanding the basic techniques of controlling an AC motor.
  2. Block Diagram of VFD
  3. How an AC drive is constructed, and how the various protection features work
  4. Operation of the AC drive.
  5. AC drive range and specification.
  6. Motor Nameplate – Drive
  7. Modes of Control
  8. V/F Control
  9. Speed & Torque
  10. Vector control
  11. Auto Tuning / ID Run
  12. Frequency Reference Setting
  13. Acceleration and De-Acceleration Control
  14. Forward and Reverse control
  15. Monitor / Display parameter
  16. Parameter Selection
  17. Parameter programming
  18. Set points
  19. Multi-speed control
  20. External speed control by Analog Input / Analog output
  21. Remote control
  22. Jogging concept
  23. Dynamic Braking
  24. Master slave concept
  25. Braking resistor
  26. Communication with PLC
  1. Introduction to HMI / SCADA
  2. Software Explanation
  3. Download and uploading the programs.
  1. IP address configuration
  2. Making New Project
  3. Features of SCADA
  1. Difference Between SCADA and HMI
  2. Difference Between SCADA and PLC
  3. Making and Editing New Graphic Display
  1. Scada Tags – Memory, I/O, Discrete, Real, Integer, message
  2. Runtime, Development
  3. Animation
  4. Movement, Filling, Visibility, Blinking, Orientation, Height width,
  1. Tag creation
  2. Trend Details
  3. Real-time trend
  4. Historical trend
  1. Function Keys
  2. DDE / Suite link protocols
  3. Alarms and Events Details
  4. Security Control
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