Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems Course Overview

Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems Course Overview

Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems

This comprehensive course offers an in-depth understanding of communication and control systems integral to industrial automation. Participants will master control strategies, PLC programming, and communication protocols through hands-on exercises. Key learning objectives include understanding PLC architecture, developing programs with timers and counters, and handling analog signals. Additionally, learners will explore communication settings and data collection techniques in a simulated water treatment plant environment. By the course's completion, participants will be adept at configuring and troubleshooting PLC-based systems, preparing them to tackle real-world challenges in SCADA and control systems.

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♱ Excluding VAT/GST

Classroom Training price is on request

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Course Prerequisites

Minimum Required Prerequisites for Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems

To ensure a successful learning experience in the Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems course, participants are expected to have the following foundational knowledge and skills:


  • Basic understanding of electrical systems.
  • Familiarity with automation concepts.
  • Fundamental knowledge of programming.

While it is beneficial, having prior experience with Programmable Logic Controllers (PLCs) or similar control systems is not mandatory.


These prerequisites will help you grasp the course material more effectively, ensuring that you are well-prepared to tackle both theoretical concepts and hands-on exercises provided throughout the training.


Target Audience for Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems

Integrated Training Program: SCADA, Communication, and Control Systems: Part B is designed for professionals keen on mastering PLC systems, communication protocols, and control strategies in industrial automation.


  • Industrial Automation Engineers
  • Control Systems Engineers
  • SCADA Engineers
  • Electrical Engineers
  • Instrumentation Engineers
  • PLC Programmers
  • Maintenance Technicians
  • Process Engineers
  • Systems Integrators
  • IT Professionals in Industrial Settings
  • Students and Graduates in Electrical/Electronic Engineering
  • Technicians in Water Treatment Plants
  • Automation Consultants
  • Industrial Technologists


Learning Objectives - What you will Learn in this Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems?

Introduction:

The Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems course will provide participants with an in-depth understanding and hands-on experience in PLC programming, communication protocols, and control strategies essential for industrial automation.

Learning Objectives and Outcomes:

  • Understand the fundamentals of control strategies, including continuous, sequential, and relay-based systems.
  • Gain proficiency in PLC systems, programming formats, and logical continuity.
  • Familiarize with PLC architecture, memory types, and scanning algorithms.
  • Master PLC programming basics, addressing schemes, and data types.
  • Develop skills in creating and implementing PLC programs, including timers, counters, and analog signal handling.
  • Learn about communication protocols such as Profibus, Profinet, and Ethernet, and configure communication settings.
  • Explore data collection techniques in water plants, including field measurement types, totalizers, and system performance analytics.
  • Acquire the ability to simulate, analyze, and predict system behavior for improved performance and resilience.

This structured learning path ensures that participants are well-prepared to tackle real-world challenges in SCADA, communication, and control systems.

Target Audience for Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems

Integrated Training Program: SCADA, Communication, and Control Systems: Part B is designed for professionals keen on mastering PLC systems, communication protocols, and control strategies in industrial automation.


  • Industrial Automation Engineers
  • Control Systems Engineers
  • SCADA Engineers
  • Electrical Engineers
  • Instrumentation Engineers
  • PLC Programmers
  • Maintenance Technicians
  • Process Engineers
  • Systems Integrators
  • IT Professionals in Industrial Settings
  • Students and Graduates in Electrical/Electronic Engineering
  • Technicians in Water Treatment Plants
  • Automation Consultants
  • Industrial Technologists


Learning Objectives - What you will Learn in this Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems?

Introduction:

The Integrated Training Program: SCADA, Communication, and Control Systems: Part B - Communication and Control Systems course will provide participants with an in-depth understanding and hands-on experience in PLC programming, communication protocols, and control strategies essential for industrial automation.

Learning Objectives and Outcomes:

  • Understand the fundamentals of control strategies, including continuous, sequential, and relay-based systems.
  • Gain proficiency in PLC systems, programming formats, and logical continuity.
  • Familiarize with PLC architecture, memory types, and scanning algorithms.
  • Master PLC programming basics, addressing schemes, and data types.
  • Develop skills in creating and implementing PLC programs, including timers, counters, and analog signal handling.
  • Learn about communication protocols such as Profibus, Profinet, and Ethernet, and configure communication settings.
  • Explore data collection techniques in water plants, including field measurement types, totalizers, and system performance analytics.
  • Acquire the ability to simulate, analyze, and predict system behavior for improved performance and resilience.

This structured learning path ensures that participants are well-prepared to tackle real-world challenges in SCADA, communication, and control systems.

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