PLC based Kinematic Systems

This course focuses on developing skills to program and control PLC-based kinematic systems, as well as troubleshooting motion-related issues and optimising system performance.

Overview

Duration

2 Full Days

Classroom Based

Day 1: 9am-4.15pm

Day 2: 9am-4.15pm

Location

CELTEC

Unit 12A

M4 Business Park

Celbridge, Co. Kildare

W23 HCK2

Google Maps Link

Prior Knowledge

Experience in related industrial sectors would be beneficial for the learner. Learners on this programme will should wish to reactivate their career to upskill and reskill from non-related disciplines as well as upskilling those already in employment in related industrial sectors. There is an expectation that candidates will have obtained a minimum of Junior Certificate Level (NFQ Level 3)

Certification

KWETB Certificate of Completion.

Cost

This course is fully funded to those currently in employment under the Skills To Advance initiative.

Skills to Advance Initiative

This course is only available to those currently in employment and fully funded under the Skills to Advance initiative.

Skills to Advance is a national initiative that provides upskilling and reskilling opportunities to employees in jobs undergoing change and to those currently employed in vulnerable sectors. Skills to Advance aims to equip employees with the skills they need to progress in their current role or to adapt to the changing job market. Working closely with small and medium-sized enterprises, Skills to Advance helps employers identify skills needs and invest in their workforce by providing subsidised education and training to staff.

Expression of Interest

We currently don't have this course scheduled, but if you are interested in undertaking this course, please complete the form below and a member of our Recruitment Team will be in contact to discuss your needs. Please note this course is only for those currently in employment.

Course Aim

Kinematics-based automation involves the control of motion systems, where precise movement and positioning of objects, machinery, or materials are crucial. This is commonly achieved using PLC systems integrated with motion control components such as motors, actuators, sensors, and feedback devices. These systems are deployed in various industries, including manufacturing, robotics, packaging, and assembly, where the accurate control of motion and positioning is essential for optimized production processes. The course focuses on developing skills to program and control PLC-based kinematic systems, as well as troubleshooting motion-related issues and optimising system performance.

This course is 10% theory and 90% hands-on exercises, delivered over 2 days, ensuring participants learn through practical application in real-world scenarios.

Areas covered include:

Principles of operation for PLCs in kinematic systems
Fundamentals of motion control and kinematics
Integration of motors, actuators, and sensors with PLCs for precise motion control
PLC programming for controlling kinematic systems (e.g., conveyors, robotic arms)
Troubleshooting motion control and feedback devices
Techniques for system optimization and performance enhancement
Real-time monitoring and diagnostics for motion-based automation
Fault simulation and resolution in PLC-controlled kinematic systems

The course uses Siemens TIA (Totally Integrated Automation) software and Siemens PLC hardware to demonstrate practical kinematics applications. Learners will be engaged with real-life industry scenarios that they can tailor to their specific areas of employment.

Learning Outcomes

Learn how to:

Develop core competency in programming PLCs for controlling kinematic systems
Set up and deploy motion control systems, including the integration of motors, actuators, and sensors with PLCs
Troubleshoot and resolve issues related to motion control systems and feedback devices
Optimize system performance for motion applications, enhancing precision and reliability
Write PLC programs for controlling complex motion tasks, such as robotic arms, automated conveyors, and sorting systems

Understand how:

PLCs and motion control components work together to control kinematic systems
To configure and calibrate sensors and actuators for accurate motion and positioning
To troubleshoot common faults and issues in kinematic systems controlled by PLCs

Know how to:

Set up motion control systems using PLCs and integrate essential components such as motors and feedback devices
Perform system diagnostics and troubleshooting to resolve performance issues in motion control systems
Implement strategies to reduce faults and optimize motion system operations

CELTEC (Celbridge Engineering Lab Training and Education Centre) in Co. Kildare is a facility focused on advanced manufacturing and technical education. It offers specialised training in areas like robotics, industrial systems, additive manufacturing, and Industry 4.0 technologies.

The center emphasises hands-on learning through state-of-the-art equipment, including robotics, cobotics, and virtual reality systems, and fosters expertise in areas like precision engineering and pharmaceutical processes.

The facility includes modern classrooms equipped with multimedia learning tools and advanced laboratories for engineering and industrial training. CELTEC is part of the Kildare Wicklow Education and Training Board's initiatives and provides traineeships and skill development programs tailored for employment in technical and manufacturing roles. Courses often integrate classroom instruction with online, blended, and immersive learning technologies