1. Basic concept of plc software data cable OF SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/S7 1200/S7 1500 PLC.
2. Overview & installation of SIMATIC STEP 7 FOR WINDOWS 10 / TIA Portal V 15/16/17/18
3. WIRING PROCESS OF S7-200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
4. FAMILIARIZATION WITH INPUT/OUTPUT ADDRESSING OF SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC
5. FAMILIARIZATION WITH SPECIAL MEMORY BITS OF SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
6. FAMILIARIZATION WITH VARIOUS KINDS OF TIMERS, COUNTERS & OTHER ADDRESSING ELEMENTS OF SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
7. Familiarization with various ladder symbol IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
8. Load controlling without latching circuit practical practice IN SIEMENS S7 200 SMAR TPLC.
9. Load controlling with latching practical practice IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
10. SERIES/PARALLEL CIRCUIT DESIGN AND LOAD CONTROLLING PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.

11. LATCHING AND INTERLOCKING CONCEPT CLEARING PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
12. CONNECTING SWITCHES IN NO/NC AND CLEARING CONCEPT OF NO/NC PUSH BUTTON CONNECTION PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
13. INTERLOCKING OF VARIOUS OUTPUTS USING MULTIPLE INPUTS PRACTICAL PRACTICE 1.
14. INTERLOCKING OF MULTIPLE OUTPUTS USING MULTIPLE INPUTS PRACTICAL PRACTICE 2.
15. INTRODUCTION TO POSITIVE AND NEGATIVE PULSE AND PRACTICE PRACTICE USING PULSE COMMAND IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
16. LOAD CONTROLLING USING TIMER PRACTICAL PRACTICE 1.
17. MULTIPLE LOAD CONTROLLING USING DELAY TIMER PRACTICAL PRACTICE 2.
18. LOAD AUTO ON/OFF CONTROLLING CIRCUIT USING TIMER PRACTICAL PRACTICE 3.
19. TURNING ON/OFF A MOTOR AND PUMP SEQUENTIALLY BY USING TIMER PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
20. TURNING ON/OFF A LOAD ONLY BY A GIVEN PERIOD OF TIME ACCORDING TO THE OPERATOR PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
21. TURNING ON/OFF A LOAD ONLY BY A GIVEN PERIOD OF TIME ACCORDING TO THE OPERATOR BY SETTING A CERTAIN FREQUENCY AND COMBINING AN ALARM IN THE LOGIC PRACTICAL PRACTICE 2.
22. FAMILIARIZATION WITH COMPARISON COMMANDS COMBINED WITH TIMER LOGIC & LOAD CONTROLLING PRACTICAL PRACTICE 1.
23. FAMILIARIZATION WITH COMPARISON COMMANDS COMBINED WITH TIMER LOGIC & LOAD CONTROLLING PRACTICAL PRACTICE 2.
24. FAMILIARIZATION WITH COMPARISON COMMANDS COMBINED WITH TIMER LOGIC & LOAD CONTROLLING PRACTICAL PRACTICE 3.
25. FAMILIARIZATION WITH COMPARISON COMMANDS COMBINED WITH TIMER LOGIC & LOAD CONTROLLING PRACTICAL PRACTICE 4.
26. DESIGNING A TRAFFIC LIGHT SIMULATOR LOGIC AS PER THE REQUIREMENT OF THE CONSUMER OR THE OPERATOR IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
27. FAMILIARIZATION WITH COUNTER COMMANDS COMBINED WITH COMPARE LOGIC & LOAD CONTROLLING PRACTICAL PRACTICE 1 IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
28. DESIGNING A BOTTLE COUNTING LOGIC USING COUNTER AND SENSOR PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
29. DESIGNING A LOAD CONTROLLING LOGIC COMBINED WITH COUNTER WHICH WILL TURN ON/OFF A LOAD ACCORDING TO THE WISH OF THE OPERATOR OR CONSUMER IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
30. FAMILIARIZATION WITH “MOV” COMMAND AND PREPARE A LOAD CONTROLLING LOGIC BY COMBINING DATA REGISTERS IN THE LOGIC IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
31. FAMILIARIZATION WITH “INCREMENT” & “DECREMENT” COMMAND AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
32. FAMILIARIZATION WITH “ARITHMETIC” COMMAND AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
33. DESIGNING A LOGIC TO CONTROL THE RUN TIME OF AN OUTPUT BY VARYING THE TIME OF THE TIMER USING “MOV” COMMAND PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
34. FAMILIARIZATION WITH “ADDITION”,” MULTIPLICATION”, “DIVISION” & “SUBSTRACTION” COMMANDS IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
35. INTRODUCTON TO COUNT UP & COUNT DOWN COUNTER AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
36. INTRODUCTION TO “IMMEDIATE” COMMANDS IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
37. INTRODUCTION TO “CALL JUMP” COMMAND IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
38. INTRODUCTION TO RETENTIVE TIMERS AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
39. INTRODUCTION TO SET/RESET COMMAND AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
40. INTRODUCTION TO SET/RESET BISTABLE COMMAND IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC/ S7 300 / S7 1200 / S7 1500 PLC.
41. FAMILIARIZATION WITH OFF DELAY TIMER AND LOAD CONTROLLING LOGIC PRACTICAL PRACTICE IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
42. INTRODUCTION TO “SUBROUTINES” IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
43. INTRODUCTION TO “INTERRUPTS” IN SIEMENS SIEMENS S7 200 SMART PLC/ S7 300 / S7 1200 / S7 1500 PLC.
44. Real Life Factory Project Designing , Programming & Development Using Factory I/O

(this class shuold be hyper linked with this following link : https://youtube.com/playlist?list=PLWRoRVfojPunwjksUD8pWV32Lllxk9_Kx&si=SYwEq1xkwtMo-C4y)

Siemens VFD
1.INTRODUCTION TO VFD, TALK ABOUT ITS BENEFITS AND WHY WE SHOULD USE A VFD.
2.VFD HARDWIRE SELECTION PROCEDURE ACCORDING TO LOAD/MOTOR.
3.CONNECTION PROCEDURE OF A MOTOR TO A VFD DEVICE.
4.FAMILIARIZATION WITH VFD INTERNAL AND EXTERNAL MODE
5.VFD EXTERNAL MODE WIRING ACCORDING TO VFD COMPANY MANUAL PRACTICAL PRACTICE
6.FAMILIARIZATION WITH VFD OPERATION MODE SELECTION FOLLOWING VFD MANUAL.
7.INTRODUCTION TO VFD PARAMETER SETTING ACCORDING TO VFD MANUAL.
8.FAMILIARIAZATION WITH VFD FAULT FINDING AND TROUBLE SHOOTING.

Siemens HMI
1. INTRODUCTION TO HMI – UNDERSTANDING WIRING & INSTALLATION
2. INTRODUCTION TO VARIOUS TYPES OF SWITCHES (MOMENTARY, MAINTAINED, SET, RESET ETC.)
3. INTRODUCTION TO HMI DISPLAY ELEMENTS.
4. INTRODUCTION TO NUMERIC DISPLAY FOR DISPLAYING NUMBER, COUNTS OR PRODUCTION & LOAD CONTROLLING PRACTICAL PRACTICE.
5. LOAD CONTROLLING AND TIMER DISPLAY DESIGN IN HMI PRACTICAL PRACTICE.
6. INTRODUCTION TO NUMERIC ENTRY FOR GIVING THE INPUT FROM HMI & LOAD CONTROLLING PRACTICAL PRACTICE.
7. LOAD CONTROLLING AND CHANGING TIME DURATION BY USING NUMERIC ENTRY DESIGN PRACTICAL PRACTICE.
8. INTRODUCTION TO MOVING SIGN & PRACTICAL IMPLEMENTATION
9. DATA TRANSFER PROCESS & TROUBLESHOOTING FROM PC/LAPTOP.

Siemens Profibus & Profinet Communication
1. INTRODUCTION TO PROFIBUS – UNDERSTANDING
# This class will provide a comprehensive overview of the Profibus protocol, including its history, evolution, and key features.
# It will cover the different Profibus topologies (e.g., DP, PA, FMS) and their applications in industrial automation.
# The class will also discuss the physical layer characteristics of Profibus, including data transmission rates and cable types.
2. INTRODUCTION TO PROFINET – UNDERSTANDING
# This class will introduce the Profinet protocol, highlighting its advantages over Profibus, such as higher bandwidth and Ethernet-based communication.
# It will cover the different Profinet topologies (e.g., Profinet I/O, Profinet RT, Profinet IO) and their applications.
# The class will discuss the physical layer characteristics of Profinet and its compatibility with standard Ethernet networks.
3. PROFIBUS NETWORK COMPONENTS
# This class will explore the various components used in a Profibus network, including:
-Profibus couplers
-Profibus repeaters
-Profibus terminators
-Profibus DP slaves (e.g., I/O modules, drives)
-Profibus masters (e.g., PLCs, HMIs)
4. PROFINET NETWORK COMPONENTS
# This class will explore the various components used in a Profinet network, including:
-Profinet switches
-Profinet I/O devices
-Profinet controllers (e.g., PLCs, PCs)
-Profinet devices (e.g., sensors, actuators, drives)
5. PROFIBUS NETWORK PLANNING AND DESIGN
# This class will cover the principles of designing a Profibus network, including:
-Network topology selection
-Cable selection and routing
-Device addressing and configuration
-Network segmentation and redundancy
-Dimensioning the network for performance and reliability
6. PROFINET NETWORK PLANNING AND DESIGN
# This class will cover the principles of designing a Profinet network, including:
-Network topology selection (e.g., star, ring, line)
-Cable selection and routing (e.g., copper, fiber optic)
-Device addressing and configuration
-Network segmentation and redundancy (e.g., redundant switches)
-Dimensioning the network for performance and reliability
7. PROFIBUS NETWORK COMMISSIONING AND TROUBLESHOOTING
# This class will cover the procedures for commissioning a Profibus network, including:
-Network startup and initialization
-Device parameterization and configuration
-Network diagnostics and troubleshooting
-Common Profibus network problems and their solutions
8. PROFINET NETWORK COMMISSIONING AND TROUBLESHOOTING
# This class will cover the procedures for commissioning a Profinet network, including:
-Network startup and initialization
-Device parameterization and configuration using GSD files
-Network diagnostics and troubleshooting using Profinet tools
-Common Profinet network problems and their solutions
9. PROFIBUS AND PROFINET SAFETY INTEGRITY
# This class will explore the safety aspects of Profibus and Profinet, including:
-Safety over Profibus (FMS)
-Safety over Profinet (CIP Safety)
-Safety-related devices and their integration
-Functional safety standards and certifications (e.g., IEC 61508)
10. PRACTICAL EXERCISES
# This class will involve hands-on exercises in:
-Configuring Profibus/Profinet devices using engineering software (e.g., TIA Portal)
-Building and testing simple Profibus/Profinet networks
-Troubleshooting basic network problems
11. PROFIBUS AND PROFINET APPLICATIONS
# This class will explore real-world applications of Profibus and Profinet in various industries, such as:
-Factory automation
-Process automation
-Building automation
-Motion control
12. FUTURE TRENDS IN INDUSTRIAL COMMUNICATION
# This class will discuss emerging trends in industrial communication, such as:
-Industrial Ethernet standards (e.g., TSN, OPC UA)
-Wireless communication in industrial environments
-Cloud-based industrial automation