PG Diploma in Industrial Automation Course – Everything to know

Introduction to Industrial Automation Course


In the dynamic landscape of modern manufacturing, industrial automation stands as a pivotal force, revolutionizing the way industries operate and shaping the future of production. This transformative technology has permeated diverse industries, from automotive and aerospace to food and pharmaceutical, streamlining processes, enhancing productivity, and ensuring quality control.

A. Importance of Industrial Automation

The significance of industrial automation lies in its ability to optimize manufacturing processes, leading to numerous benefits:

  • Enhanced Productivity: Automation eliminates manual intervention, enabling continuous operation and boosting production output.
  • Improved Quality Control: Automated systems ensure consistent product quality, minimizing human error and reducing defects.
  • Reduced Costs: Automation streamlines processes, lowering labor costs, material consumption, and energy expenditure.
  • Increased Safety: Automation minimizes human exposure to hazardous environments, enhancing workplace safety.
  • Flexibility and Scalability: Automated systems can adapt to changing production demands and accommodate expansion.

B. Role of Programmable Logic Controllers (PLC) in Industrial Automation

Programmable Logic Controllers (PLCs) serve as the brains of industrial automation systems, providing intelligent control of machinery and processes. These versatile devices offer numerous advantages:

  • Reliability: PLCs are robust and durable, capable of operating in harsh industrial environments.
  • Versatility: PLCs can be programmed to handle diverse tasks, from simple logic control to complex sequencing and monitoring.
  • Communication Capabilities: PLCs can communicate with other devices and systems, facilitating data exchange and process coordination.
  • Ease of Programming: PLCs can be programmed using user-friendly graphical interfaces, making them accessible to technicians and engineers.

C. Overview of Ambit Automation’s Industrial Automation Course

Ambit Automation’s comprehensive Industrial Automation Course provides a thorough understanding of the principles, technologies, and applications of industrial automation. The course encompasses:

  • Fundamentals of Industrial Automation: Delve into the core concepts of industrial automation, including sensors, actuators, controllers, and communication protocols.
  • Programmable Logic Controllers (PLC): Master the programming and application of PLCs, including ladder logic, function blocks, and communication techniques.
  • Supervisory Control and Data Acquisition (SCADA): Gain expertise in SCADA systems, enabling monitoring, control, and data acquisition for industrial processes.
  • Human-Machine Interface (HMI): Understand the design and implementation of HMIs for intuitive human-machine interaction in industrial settings.
  • Industrial Networking: Explore the principles and protocols of industrial networks, enabling seamless communication between automation devices.
  • Hands-on Training: Engage in practical sessions to apply theoretical knowledge and gain hands-on experience with industrial automation equipment.

Empowering Professionals for the Future of Manufacturing

Ambit Automation’s Industrial Automation Course empowers individuals to become proficient industrial automation professionals, equipped to tackle the challenges and opportunities of the ever-evolving manufacturing landscape. With a blend of theoretical knowledge and practical experience, graduates gain the expertise to design, implement, and maintain industrial automation systems, contributing to the advancement of manufacturing processes and shaping the future of production.

Key Highlights of Industrial Automation Course


A. Hands-on Experience in Industrial Automation

The Industrial Automation Course at Ambit Automation emphasizes hands-on training, providing students with a practical understanding of industrial automation concepts and technologies. Students gain valuable experience through:

  • Lab Sessions: Engage in practical sessions to apply theoretical knowledge and gain hands-on experience with industrial automation equipment, including PLCs, HMIs, and SCADA systems.
  • Real-World Projects: Work on real-world industrial automation projects, simulating industry scenarios and gaining exposure to practical challenges faced in the field.
  • Industry-Standard Equipment: Utilize industry-standard equipment from leading manufacturers, ensuring students are familiar with the latest technologies and tools used in the industry.

B. Multi-Brand Equipment and Controller Training

Ambit Automation’s Industrial Automation Course goes beyond training on a single brand of equipment, providing students with exposure to a variety of industry-leading brands and controllers. This multi-brand approach equips students with the versatility to adapt to diverse industrial environments and handle different types of automation systems.

  • PLC Training: Gain expertise in programming and operating PLCs from leading brands such as Siemens, Allen-Bradley, and Mitsubishi.
  • SCADA Training: Master the operation and configuration of SCADA systems from renowned providers like Wonderware, Siemens, and Citect SCADA.
  • HMI Training: Develop proficiency in designing and implementing HMIs using various software packages, including Siemens WinCC, Allen-Bradley PanelView, and CitectHMI.

C. In-Depth Coverage of Advanced PLC and SCADA Brands

The course delves into advanced PLC and SCADA brands, providing students with a comprehensive understanding of their capabilities and applications. This in-depth coverage prepares students for the challenges of modern industrial automation systems.

  • Advanced PLC Programming: Explore advanced PLC programming techniques, such as structured text programming and function block diagrams, enabling students to handle complex automation tasks.
  • SCADA Networking and Communication: Understand SCADA networking protocols and communication techniques, ensuring seamless integration with other industrial systems.
  • SCADA Data Acquisition and Analysis: Gain expertise in SCADA data acquisition, analysis, and visualization techniques for effective process monitoring and optimization.

D. Comprehensive Training in PLC, SCADA, HMI, VFD, and DCS

The course provides comprehensive training in PLC, SCADA, HMI, VFD, and DCS, equipping students with the knowledge and skills to handle diverse industrial automation systems.

  • PLC Programming: Master PLC programming using ladder logic, function blocks, and structured text, enabling students to control industrial equipment and processes.
  • SCADA Systems: Gain expertise in SCADA systems, including architecture, communication protocols, data acquisition, and supervisory control functions.
  • HMI Design and Implementation: Develop proficiency in HMI design and implementation, ensuring effective human-machine interaction in industrial settings.
  • VFD Control: Understand the principles and applications of Variable Frequency Drives (VFDs) for motor speed control and energy efficiency.
  • DCS Overview: Familiarize yourself with the architecture and principles of Distributed Control Systems (DCS) for large-scale industrial automation applications.

E. Emphasis on Industry 4.0 Concepts

The course integrates Industry 4.0 concepts into the curriculum, preparing students for the evolving trends and demands of the manufacturing industry.

  • Industrial Internet of Things (IIoT): Understand the principles and applications of IIoT in industrial automation, enabling data-driven decision-making and enhanced process control.
  • Cybersecurity: Gain knowledge of cybersecurity principles and practices as they apply to industrial automation systems, ensuring the protection of critical infrastructure.
  • Big Data Analytics: Explore the role of big data analytics in industrial automation, enabling predictive maintenance, process optimization, and improved decision-making.

Advantages of PG Diploma in Industrial Automation – Enhanced Quality, Accuracy, and Precision in Industrial Processes


  • Industrial automation eliminates human error and ensures consistent product quality by automating repetitive tasks.
  • Automation facilitates continuous monitoring of production parameters, enabling immediate detection of deviations from set standards and prompt corrective actions.

Increased Productivity through Automation

  • Automation streamlines processes, reducing downtime, and optimizing resource utilization.
  • By automating tasks previously performed manually, factories can operate with fewer workers, lowering labor costs.
  • Automated systems can dynamically adjust production parameters based on real-time feedback, ensuring optimal resource allocation and eliminating wasted energy or material.

Growing Job Opportunities in the Automation Industry

  • The demand for skilled industrial automation professionals is skyrocketing as industries worldwide embrace automation.
  • Ambit Automation’s Industrial Automation Course graduates are in high demand, with a wealth of career opportunities across diverse industries.
  • Their expertise in designing, implementing, and maintaining industrial automation systems is essential for companies seeking to optimize production efficiency, enhance product quality, and reduce costs.

Broad Coverage of Manufacturing and Processing Sector

  • The course’s curriculum covers a broad spectrum of industrial automation principles and technologies, equipping graduates with the knowledge and skills to tackle a wide range of industrial automation applications across diverse manufacturing and processing sectors.
  • From the automotive industry’s intricate assembly lines to the precision manufacturing of medical devices, Ambit Automation’s Industrial Automation Course graduates are prepared to excel in a variety of industrial settings.

Ambit Automation’s Industrial Automation Course offers a comprehensive and industry-relevant education, equipping graduates with the knowledge and skills to thrive in the rapidly expanding field of industrial automation. The course’s emphasis on practical experience, hands-on training, and in-depth coverage of advanced PLC and SCADA brands ensures that graduates are prepared to tackle the challenges and opportunities of modern manufacturing. With its focus on enhancing quality, productivity, and employability, Ambit Automation’s Industrial Automation Course is the gateway to a fulfilling and rewarding career in the dynamic world of industrial automation.

Ambit Automation’s PG Diploma in Industrial Automation Course Overview


A. Basic to Advanced Level Training

Ambit Automation’s PG Diploma in Industrial Automation Course caters to a wide range of learners, from those with no prior experience in industrial automation to experienced professionals seeking to upgrade their skills. The course is designed to provide a comprehensive understanding of industrial automation concepts, encompassing both fundamental principles and advanced applications.

B. Focus on Different Modules of Industrial Controllers

The course delves into the intricacies of Programmable Logic Controllers (PLCs), Supervisory Control and Data Acquisition (SCADA) systems, Human-Machine Interfaces (HMIs), Variable Frequency Drives (VFDs), and Distributed Control Systems (DCS). Students gain in-depth knowledge of the architecture, programming languages, communication protocols, and applications of each type of industrial controller.

C. Hands-On Programming of Controllers

Emphasis is placed on practical hands-on training, providing students with ample opportunities to apply theoretical concepts to real-world scenarios. Students engage in programming exercises using industry-standard software and hardware, developing proficiency in PLC programming, SCADA configuration, HMI design, and VFD control.

D. Digital and Analog Addressing

The course covers the intricacies of digital and analog addressing, ensuring students understand how input and output signals are processed and manipulated by industrial controllers. This knowledge is crucial for interfacing PLCs, SCADAs, and HMIs with various sensors and actuators.

E. Troubleshooting and Selection of Controllers

Troubleshooting and fault-finding are essential skills for industrial automation professionals. The course equips students with the techniques and methodologies to identify, diagnose, and rectify faults in industrial automation systems. Additionally, students gain insights into controller selection, enabling them to choose the most appropriate controller for specific applications.

Comprehensive Training for Beginners and Experienced Professionals

  • Caters to a wide range of learners, from those with no prior experience to experienced professionals seeking to upgrade their skills.
  • Provides a comprehensive understanding of industrial automation concepts, encompassing both fundamental principles and advanced applications.

In-Depth Exploration of Industrial Controllers

  • Delves into the intricacies of Programmable Logic Controllers (PLCs), Supervisory Control and Data Acquisition (SCADA) systems, Human-Machine Interfaces (HMIs), Variable Frequency Drives (VFDs), and Distributed Control Systems (DCS).
  • Equips students with in-depth knowledge of the architecture, programming languages, communication protocols, and applications of each type of industrial controller.

Practical Hands-on Training for Real-World Application

  • Emphasizes hands-on training, providing students with ample opportunities to apply theoretical concepts to real-world scenarios.
  • Engages students in programming exercises using industry-standard software and hardware, developing proficiency in PLC programming, SCADA configuration, HMI design, and VFD control.

Mastering Digital and Analog Addressing for Sensor and Actuator Interfacing

  • Covers the intricacies of digital and analog addressing, ensuring students understand how input and output signals are processed and manipulated by industrial controllers.
  • Equips students with the knowledge to interface PLCs, SCADAs, and HMIs with various sensors and actuators.

Troubleshooting and Controller Selection for Effective Fault Management and System Optimization

  • Imparts techniques and methodologies for identifying, diagnosing, and rectifying faults in industrial automation systems.
  • Provides insights into controller selection, enabling students to choose the most appropriate controller for specific applications.

PG Diploma in Industrial Automation Course Topics


A. Advanced PLC Brands and SCADA Brands

The course delves into the intricacies of advanced PLC and SCADA brands, providing students with a comprehensive understanding of their capabilities and applications. This in-depth coverage prepares students for the challenges of modern industrial automation systems.

  • Advanced PLC Programming: Explore advanced PLC programming techniques, such as structured text programming and function block diagrams, enabling students to handle complex automation tasks.
  • SCADA Networking and Communication: Understand SCADA networking protocols and communication techniques, ensuring seamless integration with other industrial systems.
  • SCADA Data Acquisition and Analysis: Gain expertise in SCADA data acquisition, analysis, and visualization techniques for effective process monitoring and optimization.

B. PLC Training and PAC

The course provides comprehensive PLC training, covering the principles, programming languages, and applications of PLCs. Students gain proficiency in programming and operating PLCs from leading brands, such as Siemens, Allen-Bradley, and Mitsubishi.

  • PLC Architecture and Programming Languages: Understand the architecture of PLCs and delve into various programming languages, including ladder logic, function blocks, and structured text.
  • PLC Programming Exercises: Engage in hands-on programming exercises to apply theoretical concepts and develop PLC programming skills.
  • PLC Applications in Industrial Automation: Explore the diverse applications of PLCs in industrial automation, from controlling simple machines to managing complex manufacturing processes.

C. SCADA Training and HMI

The course equips students with the knowledge and skills to design, implement, and maintain SCADA systems. Students gain proficiency in configuring and operating SCADA systems from renowned providers like Wonderware, Siemens, and Citect SCADA.

  • SCADA Architecture and Communication Protocols: Understand the architecture of SCADA systems and explore various communication protocols for seamless data exchange.
  • SCADA System Configuration and Management: Gain hands-on experience in configuring and managing SCADA systems, including data acquisition, visualization, and alarm handling.
  • HMI Design and Implementation: Develop proficiency in HMI design and implementation, ensuring effective human-machine interaction in industrial settings.

D. Electrical Panel Wiring and Design

The course provides fundamental knowledge of electrical panel wiring and design, essential for industrial automation professionals. Students gain an understanding of electrical components, wiring diagrams, and panel design principles.

  • Electrical Components and Standards: Understand the principles of operation and application of various electrical components, adhering to industry standards.
  • Wiring Diagrams and Schematic Interpretation: Interpret wiring diagrams and schematic drawings, essential for electrical panel installation and maintenance.
  • Electrical Panel Design and Layout: Gain knowledge of electrical panel design principles, including component placement, wire sizing, and safety considerations.

E. Relay Logic System

The course introduces students to relay logic systems, which were the foundation of industrial automation before the advent of PLCs. Students gain an understanding of relay logic concepts, circuit design, and troubleshooting techniques.

  • Relay Logic Principles and Components: Understand the principles of relay logic and familiarize themselves with various relay components, such as electromagnets, timers, and contactors.
  • Relay Logic Circuit Design: Develop proficiency in designing relay logic circuits for various industrial automation applications.
  • Relay Logic Troubleshooting: Learn troubleshooting techniques for identifying and rectifying faults in relay logic circuits.

F. OPC and HMI

The course covers the OPC (OLE for Process Control) standard and its role in industrial automation. Students gain an understanding of OPC data exchange mechanisms and its integration with HMIs.

  • OPC Architecture and Data Exchange: Understand the OPC architecture and various data exchange mechanisms, including OPC UA and OPC DA.
  • OPC Integration with HMI: Learn how to integrate OPC data into HMI systems for real-time process monitoring and control.

G. VFD and Control Panel Designing

The course provides an introduction to Variable Frequency Drives (VFDs) and their applications in industrial automation. Students gain knowledge of VFD principles, control techniques, and control panel design.

  • VFD Principles and Applications: Understand the principles of operation and applications of VFDs in motor speed control and energy efficiency.
  • VFD Programming and Control Techniques: Learn how to program and control VFDs for various industrial applications.
  • VFD Control Panel Design: Gain knowledge of VFD control panel design considerations, including component selection, wiring, and safety measures.

H. DCS Architecture and Industry 4.0 Concepts

The course introduces students to Distributed Control Systems (DCS) and their role in large-scale industrial automation. Additionally, the course integrates Industry 4.0 concepts into the curriculum, preparing students for the evolving trends and demands of the manufacturing industry.

  • DCS Architecture and Components: Understand the architecture and components of DCS, including field devices, controllers, and communication networks.
  • DCS Applications and Implementation: Explore the applications of DCS in various industries and gain insights into DCS implementation strategies.

Why you should choose Ambit Automation for your PG Diploma in Industrial Automation Course


In today’s technology-driven world, industrial automation plays a pivotal role in shaping the future of manufacturing. As industries embrace automation to enhance efficiency, productivity, and quality control, the demand for skilled industrial automation professionals is skyrocketing. Embark on a promising career path by pursuing Ambit Automation’s PG Diploma in Industrial Automation Course, a comprehensive program designed to equip you with the knowledge and skills to excel in this dynamic field.

A. Expertise in Industrial Automation Training

Ambit Automation stands as a leading provider of industrial automation training, with over a decade of experience in imparting industry-relevant education. Our team of highly qualified and experienced trainers possess in-depth knowledge of industrial automation principles and technologies, ensuring that you receive the highest quality education.

B. Focus on Practical Hands-on Experience

Ambit Automation’s PG Diploma in Industrial Automation Course emphasizes practical hands-on experience, providing you with ample opportunities to apply theoretical concepts to real-world scenarios. You will engage in lab sessions, real-world projects, and industry-standard equipment training, gaining the expertise to tackle the challenges faced by industrial automation professionals.

C. Industry-Relevant Curriculum

Our curriculum is carefully designed to align with the latest industry trends and demands, ensuring that you acquire the skills and knowledge that are highly sought after by employers. The course covers a wide range of topics, including PLC programming, SCADA systems, HMIs, VFDs, and Industry 4.0 concepts, preparing you for a diverse range of career opportunities.

D. 100% Placement Support

At Ambit Automation, we are committed to your success, and that extends to helping you secure a rewarding career in industrial automation. Our dedicated placement team will provide you with comprehensive career guidance, resume building assistance, and interview preparation support, ensuring that you are well-equipped to make a strong impression on potential employers.

Choosing Ambit Automation for Your Industrial Automation Education

By choosing Ambit Automation’s PG Diploma in Industrial Automation Course, you are making a strategic decision to invest in your future. Our comprehensive training, industry-aligned curriculum, and unwavering commitment to student success will empower you to become a highly sought-after industrial automation professional, ready to make a significant impact in the ever-evolving manufacturing landscape.

Placement Assistance Offered by Ambit Automation


Ambit Automation’s comprehensive placement assistance program extends up to three years, ensuring that graduates have ample opportunities to secure rewarding careers in the industrial automation industry. The placement team actively collaborates with employers and job providers to identify relevant openings that align with students’ skills and career aspirations. Additionally, the team provides personalized career guidance, resume building assistance, and interview preparation support, empowering graduates to make a strong impression on potential employers.

Industrial Automation Course Job Opportunities: A Promising Future Awaits


The ever-evolving landscape of manufacturing has witnessed a surge in the demand for skilled industrial automation professionals. As industries across the globe embrace automation to enhance efficiency, productivity, and quality control, the need for individuals equipped with the knowledge and skills to design, implement, and maintain industrial automation systems has become paramount. Pursuing Ambit Automation’s PG Diploma in Industrial Automation Course opens doors to a plethora of rewarding career opportunities in this dynamic field.

Diverse Career Paths in Industrial Automation

Upon completion of the PG Diploma in Industrial Automation Course, graduates are well-positioned to pursue a variety of exciting and lucrative career paths in the industrial automation industry. Here’s a glimpse into the diverse range of job roles that await:

  1. PLC Programmer: PLC programmers are the backbone of industrial automation, responsible for developing and maintaining the software that controls PLCs, the brains of automated machinery.
  2. SCADA Technician: SCADA technicians specialize in configuring, monitoring, and troubleshooting SCADA systems, the supervisory systems that oversee and control industrial processes.
  3. HMI Designer: HMI designers create human-machine interfaces, the touchscreens or panels that allow operators to interact with and control automated systems.
  4. VFD Engineer: VFD engineers specialize in the design, installation, and maintenance of Variable Frequency Drives, which control the speed and torque of electric motors.
  5. Industrial Automation Engineer: Industrial automation engineers oversee the entire automation process, from design and implementation to maintenance and optimization.
  6. Control Systems Engineer: Control systems engineers design, analyze, and implement control systems that regulate industrial processes to maintain desired parameters.
  7. Automation Technician: Automation technicians provide technical support and maintenance for industrial automation systems, ensuring their optimal performance.
  8. Instrumentation Technician: Instrumentation technicians install, calibrate, and maintain instruments used in industrial automation systems to measure and monitor process variables.
  9. Field Service Engineer: Field service engineers travel to customer sites to troubleshoot, repair, and maintain industrial automation systems.
  10. Technical Sales Engineer: Technical sales engineers provide technical expertise to customers, advising them on the selection and implementation of industrial automation solutions.

A Rewarding and Lucrative Career Choice

The industrial automation industry offers not only diverse career paths but also promising remuneration packages. According to the U.S. Bureau of Labor Statistics, the median annual salary for industrial automation technicians was $64,770 in 2020, while the median annual salary for industrial automation engineers was $96,380.

Embrace a Thriving Future with Ambit Automation

By pursuing Ambit Automation’s PG Diploma in Industrial Automation Course, you are making a strategic investment in a fulfilling and lucrative career in the dynamic world of industrial automation. Our comprehensive training, industry-aligned curriculum, and unwavering commitment to student success will empower you to become a highly sought-after industrial automation professional, ready to make a significant impact in the ever-evolving manufacturing landscape.

Industrial Automation Course Trends


As technology advances and industries seek new ways to streamline operations, the field of industrial automation is constantly evolving. Here’s a look at some of the emerging trends in industrial automation that are shaping the future of manufacturing:

1. Artificial Intelligence (AI) and Machine Learning (ML) : AI and ML are revolutionizing industrial automation by enabling machines to learn from data, make decisions autonomously, and optimize processes in real-time. AI-powered systems can predict equipment failures, prevent downtime, and improve product quality.

2. Edge Computing : Edge computing brings data processing and analysis closer to the source, reducing latency and enabling faster decision-making. This is particularly important for industrial automation applications where real-time responses are crucial.

3. Industrial Internet of Things (IIoT) : The IIoT connects sensors, devices, and machines across industrial networks, generating vast amounts of data that can be used to monitor processes, identify anomalies, and optimize operations.

4. Collaborative Robotics : Collaborative robots, also known as cobots, are working alongside human operators in factories, performing tasks that are dangerous, repetitive, or require precision. Cobots are designed to be safe and cooperative, allowing humans to focus on higher-level tasks.

5. Predictive Maintenance : Predictive maintenance uses data analytics to predict equipment failures before they occur, preventing downtime and reducing maintenance costs. This approach is becoming increasingly important as industrial equipment becomes more complex and interconnected.

6. Digital Twins : Digital twins are virtual replicas of physical assets, such as machines, factories, or entire production lines. These digital twins can be used to simulate processes, test new configurations, and optimize performance.

7. Cybersecurity : As industrial automation systems become more interconnected and reliant on data, cybersecurity is becoming increasingly critical. Organizations must implement robust cybersecurity measures to protect their systems from cyberattacks.

8. Sustainability and Energy Efficiency : Industrial automation is playing a key role in reducing energy consumption and improving sustainability in manufacturing. Automated systems can optimize resource utilization, reduce waste, and minimize environmental impact.

9. Human-Machine Interface (HMI) Innovations : HMIs are becoming more user-friendly and intuitive, with augmented reality and gesture recognition technologies enhancing human-machine interaction. This is making it easier for operators to interact with complex automation systems.

10. Industry 4.0 Convergence : Industry 4.0 is the convergence of digital, physical, and biological technologies. Industrial automation is a key enabler of Industry 4.0, as it provides the infrastructure and tools to connect and manage these technologies.

These emerging trends are transforming the industrial automation landscape and opening up new possibilities for innovation and efficiency. As these technologies continue to develop, we can expect to see even more groundbreaking advancements in the future of industrial automation.

Benefits of Pursuing the PG Diploma in Industrial Automation Course


  1. High-demand career opportunities: The industrial automation industry is experiencing rapid growth, with a strong demand for skilled professionals. Graduates of the PG Diploma in Industrial Automation Course will be well-positioned to take advantage of these opportunities and secure rewarding careers in this dynamic field.
  2. Lucrative salary potential: Industrial automation professionals are among the highest-paid in the manufacturing industry. The median annual salary for industrial automation engineers was $96,380 in 2020, according to the U.S. Bureau of Labor Statistics.
  3. Diverse career paths: The industrial automation industry offers a wide range of career paths, from PLC programmers and SCADA technicians to control systems engineers and field service engineers. This means that graduates will have the flexibility to choose a career that aligns with their interests and skills.
  4. Job security: Industrial automation is an essential part of modern manufacturing, and automation systems are becoming increasingly complex and sophisticated. This means that there is a strong demand for skilled professionals to maintain and upgrade these systems, providing graduates with a high degree of job security.
  5. Continuous learning and growth: The field of industrial automation is constantly evolving, with new technologies and trends emerging all the time. This means that graduates will have the opportunity to continue learning and growing throughout their careers.
  6. Real-world skills and experience: The PG Diploma in Industrial Automation Course is designed to provide graduates with the skills and experience they need to succeed in the industry. Students will gain hands-on experience with a variety of industrial automation technologies, including PLCs, SCADAs, HMIs, and VFDs.
  7. Industry-recognized certification: Upon completion of the course, graduates will receive an industry-recognized certification that will demonstrate their expertise to potential employers.
  8. Global career opportunities: Industrial automation is a global industry, and there is a demand for skilled professionals all over the world. Graduates of the PG Diploma in Industrial Automation Course will have the opportunity to work in a variety of countries and cultures.
  9. Make a significant impact: Industrial automation is transforming the manufacturing industry, and graduates of the PG Diploma in Industrial Automation Course will have the opportunity to be a part of this transformation. They will be able to help companies improve efficiency, productivity, and quality control, and make a real difference in the world.

About Ambit Automation


Ambit Automation, a leading training center in Kochi, Kerala, offers a comprehensive PG Diploma in Industrial Automation Course, equipping individuals with the skills and knowledge to excel in this dynamic field. The course covers a wide range of topics, including PLC programming, SCADA systems, HMIs, VFDs, and Industry 4.0 concepts, preparing graduates for diverse career opportunities. With its focus on practical hands-on experience, Ambit Automation’s PG Diploma in Industrial Automation Course is the gateway to a fulfilling and rewarding career in industrial automation.