PLC SCADA Course

Elevate your industrial automation skills with our comprehensive PLC SCADA course. Designed for both beginners and professionals, our expert-led program provides hands-on training in Programmable Logic Controllers (PLC) and Supervisory Control and Data Acquisition (SCADA) systems. Dive deep into topics like PLC programming, ladder logic, HMI design, data acquisition, and real-time monitoring. Join us to unlock the full potential of PLC SCADA technology and propel your career in the field of automation engineering.

|| About PLC SCADA Course

The PLC SCADA (Programmable Logic Controller Supervisory Control and Data Acquisition) course is designed to provide participants with a comprehensive understanding of industrial automation and control systems. This course introduces participants to the concepts, technologies, and practical applications of PLCs and SCADA systems in various industrial settings. The PLC SCADA course serves as a foundational program for individuals interested in pursuing careers in industrial automation, control systems engineering, or SCADA system administration. By gaining practical skills in PLC programming, SCADA implementation, and system integration, participants can contribute to the efficiency, productivity, and safety of industrial processes across various industries.  

|| Enhance Your Learning with BIT's Cutting Edge Platform

Robotics Course near me.png

Certificate

|| What will I learn?

  • Gain a comprehensive understanding of industrial automation systems, including the role of PLCs and SCADA in controlling and monitoring industrial processes.
  • Acquire knowledge of PLC hardware components, programming languages (such as ladder logic), and programming techniques for implementing control logic in PLCs.
  • Develop an understanding of SCADA systems, including architecture, components, data acquisition methods, visualization, and human-machine interface (HMI) design principles.
  • Develop proficiency in programming PLCs to control various industrial processes, including digital and analog input/output (I/O), timers, counters, and mathematical operations.
  • Learn how to configure SCADA software, develop graphical user interfaces (GUIs), design process displays, create alarms and events, and configure data logging and trending features.
  • Understand common communication protocols used in industrial automation, such as Modbus, Profibus, Ethernet/IP, and OPC (Open Platform Communications), and learn how to implement communication between PLCs, SCADA systems, and other devices.
  • Gain practical experience in integrating PLCs and SCADA systems to create cohesive control and monitoring solutions for industrial applications.
  • Develop skills in diagnosing, troubleshooting, and resolving issues related to PLCs and SCADA systems, including hardware faults, programming errors, and communication problems.

|| What will I learn?

  • Gain a comprehensive understanding of industrial automation systems, including the role of PLCs and SCADA in controlling and monitoring industrial processes.
  • Acquire knowledge of PLC hardware components, programming languages (such as ladder logic), and programming techniques for implementing control logic in PLCs.
  • Develop an understanding of SCADA systems, including architecture, components, data acquisition methods, visualization, and human-machine interface (HMI) design principles.
  • Develop proficiency in programming PLCs to control various industrial processes, including digital and analog input/output (I/O), timers, counters, and mathematical operations.
  • Learn how to configure SCADA software, develop graphical user interfaces (GUIs), design process displays, create alarms and events, and configure data logging and trending features.
  • Understand common communication protocols used in industrial automation, such as Modbus, Profibus, Ethernet/IP, and OPC (Open Platform Communications), and learn how to implement communication between PLCs, SCADA systems, and other devices.
  • Gain practical experience in integrating PLCs and SCADA systems to create cohesive control and monitoring solutions for industrial applications.
  • Develop skills in diagnosing, troubleshooting, and resolving issues related to PLCs and SCADA systems, including hardware faults, programming errors, and communication problems.

|| Requirements

  • Basic understanding of electrical circuits and industrial processes would be beneficial.
  • No prior knowledge of PLCs or SCADA systems is required.

|| Requirements

  • Basic understanding of electrical circuits and industrial processes would be beneficial.
  • No prior knowledge of PLCs or SCADA systems is required.

    • Introduction to PLC and SCADA
    • Overview of industrial automation and control systems
    • Introduction to PLCs and SCADA systems and their roles in industrial automation
    • Understanding the basic principles of PLC programming and SCADA visualization


    • Fundamentals of PLCs
    • Understanding PLC hardware components and architecture
    • Overview of PLC programming languages (Ladder Logic, Function Block Diagram, etc.)
    • Introduction to PLC software programming environments


    • PLC Programming Basics
    • Introduction to basic PLC instructions and functions
    • Writing and testing simple PLC programs for basic control tasks
    • Understanding PLC memory organization and addressing schemes


    • Advanced PLC Programming
    • Developing complex PLC programs for sequential control and automation tasks
    • Implementing timers, counters, and mathematical functions in PLC programs
    • Troubleshooting and debugging PLC programs


    • Introduction to SCADA Systems
    • Overview of SCADA architecture and components
    • Understanding SCADA communication protocols (MODBUS, OPC, etc.)
    • Introduction to SCADA software platforms and development environments


    • SCADA System Configuration
    • Setting up SCADA projects and system configuration
    • Creating SCADA displays and graphical user interfaces (GUIs)
    • Configuring data acquisition from PLCs and other devices


    • SCADA System Visualization
    • Designing and developing SCADA screens and displays
    • Implementing real-time data visualization and animation
    • Customizing SCADA displays for optimal operator interaction


    • SCADA System Alarm Management
    • Configuring alarms and events in SCADA systems
    • Implementing alarm notifications and escalation procedures
    • Managing and acknowledging alarms in SCADA systems


    • SCADA System Data Acquisition and Logging
    • Setting up data acquisition from PLCs and other field devices
    • Logging and storing historical data in SCADA databases
    • Analyzing and visualizing historical data trends


    • SCADA System Networking and Security
    • Configuring SCADA network communication and security settings
    • Implementing network redundancy and fault-tolerant architectures
    • Securing SCADA systems against cyber threats and attacks


    • SCADA System Integration
    • Integrating SCADA systems with other industrial automation systems
    • Implementing data exchange between SCADA and MES (Manufacturing Execution Systems)
    • Integrating SCADA with ERP (Enterprise Resource Planning) systems


    • Hands-on Projects and Case Studies
    • Hands-on exercises and projects to apply learned concepts
    • Analyzing real-world PLC and SCADA applications and case studies
    • Presentations and discussions on best practices and industry standards

Get in touch

|| The scope of the PLC SCADA course in India

PLC SCADA professionals can pursue diverse career paths, including PLC programmer, SCADA engineer, automation specialist, control system designer, and project manager. With experience and additional certifications, professionals can advance to senior roles and leadership positions. The scope of the PLC SCADA course in India is promising, offering opportunities for employment, career growth, and specialization in the field of industrial automation and control systems. As industries continue to embrace automation technologies to improve efficiency and competitiveness, the demand for skilled PLC SCADA professionals is expected to remain strong.

In India, the salary and demand for professionals with expertise in PLC SCADA (Programmable Logic Controller Supervisory Control and Data Acquisition) can vary based on factors such as experience, skills, location, industry sector, and employer.

 @ Salary Range:

@ Entry-level (0-2 years of experience): ₹2,50,000 - ₹5,00,000 per annum

@ Mid-level (2-5 years of experience): ₹5,00,000 - ₹10,00,000 per annum

@ Senior-level (5+ years of experience): ₹10,00,000 and above per annum

In summary, the salary and demand for PLC SCADA professionals in India are robust, driven by the widespread adoption of automation technologies across industries. As the industrial landscape continues to evolve, professionals with expertise in PLC SCADA can expect rewarding career opportunities and competitive compensation packages.

|| placement

User Image
Yash Ahir

Hello everyone, I am Yash Ahir. I started my journey to get a career in 3D Design. I joined the AutoCAD and SolidWorks course at BIT 3 months ago. I am sure it is the best place to learn. I am grateful to my mentor, Adesh Sir, and BIT detailed. My thanks to everyone who are involved

Company logo
placement report

|| Frequently asked question

Eligibility. BE /B. Tech /Diploma passed in the following discipline. Electrical/ Electronics/ Instrumentation/ Industrial electronics/ Chemical Engineering/ Applied Electronics and Instrumentation/ Instrumentation & Control/ Electronics & Communication/ Mechatronics / Computer Science.

Here are some benefits of using PLC SCADA: Improved process control: PLCs are used to control industrial processes and machines, and SCADA systems provide real-time monitoring and supervisory control, which can improve the efficiency and reliability of the process.

As it is used in various types of industries, the demand for PLC SCADA Training in Noida is also increasing on a regular basis. Nowadays, it has become easy for students and working professionals to have good hands-on experience with these technologies.

Control Systems Engineers generally know PLC programming very well. They can implement programs from start to finish, troubleshoot existing systems and modify them as needed.

Common analog signals that SCADA systems monitor and control are levels, temperatures, pressures, flow rate and motor speed. Typical digital signals to monitor and control are level switches, pressure switches, generator status, relays & motors.

The scope is very wide you can be placed in any process industry as an Automation Engineer/ Service Engineer/ Plc Programmer etc. But for that, you need to acquire a thorough knowledge of PLC programming and Scada with hands-on, practical industry exposure on latest technology as per industry demand.

Related courses

Mechanical CAD Master Program
Read more
SolidWorks Course
Read more
PTC CREO Course
Read more
Solid Edge Course
Read more
UG-NX Course
Read more
Inventor Course
Read more
SP3D Course
Read more
CATIA Course
Read more
AutoCAD Mechanical Course
Read more
Ansys Course
Read more
AutoCAD Civil Course
Read more
Revit BIM Architecture Course
Read more
× Popup Image

Useful links

Categories

IT Infrastructure

Development

Data Science

Work with us

Company

Copyright Baroda Institute of Technology© 2024 | Design and Developed By Bit infotech