The Mechatronic lab with industry 4.0 unites four branches of designing, to be specific Mechanical, Electrical, Electronics and Communication and Software engineering. This permit understudies to deal with a smaller than normal processing plant like arrangement and on area, for example, Pneumatics and Power through pressure, Sensors, Communication Protocol, PLC programming, PLC Systems administration utilizing profibus and profinet.
The Industry 4.0 and Internet of Things, or IoT, is rising as the following innovation uber pattern, with repercussions over the business range. Industry 4.0 brings the fourth industrial upset. By associating with the billions of ordinary gadgets – running from fitness bracelets to industrial equipment – the IoT combines the physical and virtual world, opening up a large group of new chances and difficulties for organizations, governments and buyers.
This lab imparts skill and knowledge on Industrial automation with an exclusive training on hardware and software components to automate industrial and commercial applications. Candidates are trained on automation products like PLC, HMI and SCADA to control and monitor the plant and machine. Labs are equipped with Modular Controllers with Technology functions and advanced configurations. Programmes were developed to enhance the skill set of the participants on Hardware & Programming basics and servicing.
This course is a great fit for TIA Portal Development Environment. This course supports the participants to unlock their potential for increased productivity by building foundational concepts and showing how they can apply the STEP 7 Professional (TIA Portal). Access to fully functional STEP 7 Professional software is provided. Participants are encouraged to complete assigned lab exercises during and after each session to reinforce the learning modules throughout the subject course.
This course is directed and focused on personnel involved in project engineering tasks who would like to become proficient with the extended programming possibilities of SIMATIC S7 (300/400). After the course, the participants will be competent to structure and design advanced S7 programs, making it possible to efficiently work with STEP 7 and thus reduce the engineering phase. The course uses a ‘hands-on’ practical methodology to reinforce the theoretical aspects of the training.
A systems method to the integration of efficiently programming the S7300/400 PLCs. The core issues of efficient and effective use of CPU resources, establishing communications, passing information, and managing integrated diagnostics are included. Skills in error management and extended diagnostics are reinforced and strengthened throughout the course.
How to load programs on S7 300/400 PLC? This hands-on, extremely engaging training course builds on the basic programming skills using Siemens STEP7 software. Participants will get to practice and learn S7 project management, program design & application development. This is an aggressively regulated curriculum covering S7 programming with Ladder logic. The basics and fundamentals of programming with Function Block Diagram (FBD) and Statement List (STL) languages are also covered. Key software tools and best practices techniques taught.
What is covered in Simatic S7 Course? Participants employ and use the Totally Integrated Automation concept by integrating an S7300-400 PLC and ET200S remote I/O station. Throughout the duration of this course, the participants will build and run a STEP7 project from beginning to end, learning proper program structure and documenting.
An Industrial IoT, Gateway integrates all PLCs and makes them ready for the connected industry. An Industrial IoT gateway can bridge the gap between OT and IT, allowing the integration of PLCs to the IT, SCADA, or ICS network. An Industrial IoT gateway provides an interface to the brownfield PLCs. It allows easier data collection, Internet connection, access to cloud-based applications, storage, and more. The sensors collect data (for example, PLC tags) from the brownfield PLC and forward it to the IoT gateway. The IoT gateway transfers the data reliably and securely to a cloud platform or an on-premises management or monitoring system. The data collected can be used for machinery status tracking, asset utilization, fault detection, machine performance, and per-unite maintenance costs.
Siemens WinCC is the verified, proven and powerful SCADA system in the automation environment. Want to modernize, develop or perform maintenance on your SCADA system or create a completely new SCADA system? Attend this training program, which is designed to assist you to learn the basic functions. Using a model application, this course provides a system overview of Siemens WinCC with emphasis on its capabilities and special features. Complete and detailed configuration procedures will be studied in an order compatible with the typical development of an industrial application.
Participants will learn the precise and correct development process beginning with creating a project and concluding with reporting and printing. Examples of programs that can be written to take advantage of Siemens WinCC open architecture are considered and discussed.