Plan, developed, tested, deployed, extended, and maintained enterprise apps with Siemens Mendix’s industry-leading low-code capabilities and unmatched digital transformation expertise. Low code supports all phases of the app development lifecycle with tools to streamline project management, requirements management, version control, testing, deployment, and more. Holistic low-code platforms incorporate Agile development practices and DevOps tools. Low-code development combines the best of both worlds in a single platform where both nontechnical users and professional developers can apply their skill sets, collaborate, and co-develop solutions.
Through hands-on training, the Siemens Mechatronic System Certification Program (SMSCP) creates highly talented professionals who can easily meet the challenges of high-tech automation industries. In addition to expanding technical knowledge and troubleshooting skills, participants will receive extensive training on state-of-the-art industrial equipment to develop technical expertise with various components of complex mechatronic systems including electrical and mechanical components; sensors and actuators; hydraulics and pneumatics; and programmable logic controllers (PLCs).
The Simatic Manager S7 Service course provides students with comprehensive training on advanced diagnostics and troubleshooting of the SIMATIC Manager S7 automation system. They will learn about the latest advancements in processing power, memory capacity, communication speed, and other advanced features that contribute to enhanced system performance. They will gain knowledge of fault diagnosis, error handling, and repair strategies to ensure proper system functionality. Students will delve into how to analyze system behavior, interpret error codes, perform root cause analysis, and implement effective troubleshooting strategies. They will gain proficiency in identifying and resolving complex issues that may arise in the automation system.
The course will cover the control signal and signal interconnections involved in low-voltage drives. Students will learn about the different control signals used for speed control, torque control, and braking, as well as the signal interconnections between the drive system, control panel, and external devices. Students will have the opportunity to work with real or simulated low-voltage drive systems, perform parameterization and configuration tasks, and troubleshoot common issues.
This course covers the hardware components and architecture of Simatic S7 PLCs which includes I/O modules, communication modules, and peripheral devices. They will understand the syntax, structure, and application of each language and develop the ability to write and modify PLC programs using these languages. Students will delve into advanced programming techniques using Simatic Manager. They will learn how to use timers, counters, data manipulation instructions, and other advanced functions to create complex control algorithms and handle sophisticated automation tasks.
Gain expertise on the ins and outs of the SIMATIC S7 system family, including its various models and capabilities. Students will develop proficiency in routine maintenance tasks for PLC systems, including backup and restore procedures, firmware and software updates, and system optimization. They will also gain skills in troubleshooting PLC systems using diagnostic tools and techniques provided by the TIA Portal software. Students will learn the importance of documentation and compliance with industry standards during service and maintenance tasks. They will be able to create and maintain comprehensive documentation, follow maintenance schedules, and adhere to standard procedures to ensure the proper functioning of PLC systems.
This course is the first in a three-part series that builds basic programming skills with Siemens TIA Portal software. Students will learn TIA Portal project management, program design, and application development. This is an aggressively paced curriculum covering the S7 programming editor with Ladder, Function Block Diagram, and Statement List programming languages, as well as key TIA Portal software tools. This course takes a systems approach using the S7- 1500 PLC, basic connectivity, and functionality of a KP700 HMI and ET200SP PROFINET I/O. Throughout the course, students will build a TIA Portal project from the beginning, learning proper program structure and documenting. Software diagnostic tools will be used for debugging both hardware and code. Various instruction sets, memory areas, program blocks, and libraries will be introduced to provide the students with solid concepts of structured programming. The course format consists of instruction and hands-on exercises. model for realistic demonstrations and exercises
This first component of the SIMATIC TIA Portal PLC course teaches the basic knowledge of the design of automation systems, the configuration and parameterization of the hardware, handling with the STEP 7 Basis Software, and the fundamentals of programming. Learners also gain an overview of human-machine interfacing and PROFINET. Learners will reinforce their theoretical knowledge in numerous practical exercises on a TIA plant model. This consists of an S7-1500 automation system and a conveyor model. What learners learn about Totally Integrated Automation (TIA) will teach how to take a holistic view of plant and to understand the relationships between components. On completion of the course, learners will thus be able to diagnose simple hardware faults or replace modules, coordinate components optimally, carry out safe fault diagnostics, and thus reduce downtimes.
Objectives:
Overview and significant performance of the SIMATICS & system family, SIMATIC system family & overview. Characteristics of the SIMATIC S7 system software (TIA portal, SIMATIC S7). TIA portal basic programming and TIA portal system overview.