United States
United States
Mastering Siemens PLCs: From Fundamentals to Advanced Programming course is designed to teach students the fundamentals and advanced programming of Siemens Programmable Logic Controllers (PLCs). The course topics include the basics of PLC programming, the use of various programming languages such as Ladder Logic (Ladder Diagram), Structured Text, Statement List, and Position List, as well as more advanced concepts like formulas and navigation steps.
Through the use of case studies and hands-on programming, students will also learn about debugging, troubleshooting, and integration of multiple PLCs and related components in their projects. The course emphasizes practical, industrial-standard programming applications, giving students the confidence they need to be productive in the field. Furthermore, students can use the course to develop projects, thereby developing their hands-on programming skills.
The course is aimed at people who want to learn more about Siemens PLCs and need a comprehensive understanding of Siemens programming to work in the industrial automation field. It also serves as a refresher for existing engineers and technicians who want to expand their knowledge or who need a better understanding of Siemens PLCs. The course is suitable for both experienced and new engineers looking to gain a better understanding of programming for Siemens PLCs.
Get 1-on-1 session with our expert trainers at a date & time of your convenience.
Flexible Dates
Start your session at a date of your choice-weekend & evening slots included, and reschedule if necessary.
4-Hour Sessions
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Destination Training
Attend trainings at some of the most loved cities such as Dubai, London, Delhi(India), Goa, Singapore, New York and Sydney.| Live Online Training (Duration : 40 Hours) | |||
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1. Basic knowledge of electrical engineering theory
2. Knowledge of problem solving and troubleshooting techniques
3. Understanding of process control and automation
4. Understanding of programming concepts, logic and functions
5. Familiarity with the Windows operating system
6. Basic programming experience with a language such as C, C++, and object-oriented languages
7. Working knowledge of PLC hardware and components
8. The ability to use ladder logic and/or structured text programming
9. An understanding of data structures and communications protocols, such as Modbus and Profibus
The target audience for Mastering Siemens PLCs: From Fundamentals to Advanced Programming training would be experienced manufacturing automation engineers and technicians. This course would benefit those in roles such as maintenance technicians, automation engineers, plant engineers or anyone responsible for configuring, programming or troubleshooting Siemens PLCs. The course is designed to provide the participants with the knowledge, techniques and hands-on experience needed to maximize the power and flexibility of Siemens PLCs. Participants will learn the fundamentals of PLCs and how to program, monitor and troubleshoot them. They will be able to program advanced features such as motion control, linear and circular interpolation, and programming VFDs. The learners will also gain knowledge on operating PLC HMI, communication networks like Profibus and ProfiNet, and remote maintenance. The course aims to provide an in-depth understanding of the Siemens PLC controller’s architecture. This training is suitable for those who are new to the Siemens PLC world, as well as intermediate to advanced users who wish to further expand their knowledge.
1. Understand the essentials of Programmable Logic Controllers (PLCs), their purpose and the Siemens brand of PLCs.
2. Identify components that are included in PLC systems, such as input/output units and Human Machine Interfaces.
3. Learn best practices for programming, troubleshooting and operational maintenance of PLCs.
4. Develop fundamental programming skills, such as ladder logic and how to use the Siemens algorithms.
5. Perform intermediate level programming tasks, including creating loops and subroutines.
6. Analyze and diagnose technical malfunctions and discover the cause of equipment failures.
7. Create sophisticated PLC programs with knowledge of different types of math and logic.
8. Develop advanced programming techniques that can be applied to real-world applications.
9. Increase system efficiency and reduce downtime with techniques for PLC-based automation.
10. Fully understand troubleshooting and maintenance techniques for keeping PLCs running seamlessly.
