automation technology
Set of technologies that make a process, system, or apparatus operate automatically through the use of control systems.
Industrial robot controllers operate and monitor industrial robots used in automation processes to perform various manufacturing activities such as lifting, welding and assembling. They ensure that the machines are working correctly and in sync with other industrial robots, maintain and repair defective parts, assess risks and perform tests.
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Set of technologies that make a process, system, or apparatus operate automatically through the use of control systems.
Materials and techniques required in the production and distribution processes.
The components that can be found in robotic systems, such as microprocessors, electronics, sensors, circuit boards, encoders, servomotors, controllers, pneumatics or hydraulics.
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Check, maintain and repair electrical and electronic elements. Check and update software of automated equipment.
Diagnose and detect malfunctions in robotic components and systems and remove, replace, or repair these components when necessary. Execute preventative equipment maintenance tasks, such as storing robotic components in clean, dust-free, and non-humid spaces.
Regulate and monitor the manufacturing equipment settings and process parameters, such as its temperature and power level. Review the manufacturing process and equipment and suggest improvements.
Continuously check up on the automated machine's set-up and execution or make regular control rounds. If necessary, record and interpret data on the operating conditions of installations and equipment in order to identify abnormalities.
Perform regular maintenance, possibly including corrections and alterations, on a machine or machine tool to ensure it remains in a proper productive state.
Identify and assess factors that may jeopardise the success of a project or threaten the organisation's functioning. Implement procedures to avoid or minimise their impact.
Set up or adjust machine controls to regulate conditions such as material flow, temperature, or pressure.
Set up and give commands to a machine by dispatching the appropriate data and input into the (computer) controller corresponding with the desired processed product.
Wear relevant and necessary protective gear, such as protective goggles or other eye protection, hard hats, safety gloves.
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Different tools for computer-aided manufacturing (CAM) to control machinery and machine tools in the creation, modification, analysis, or optimisation as part of the manufacturing processes of workpieces.
The process of planning, monitoring and adjusting the expenses and revenues of a business in order to achieve cost efficiency and capability.
The computer-aided design (CAD) software for creating, modifying, analysing or optimising a design.
The computer-aided design and drafting (CADD) is the use of computer technology for design and design documentation. CAD software replaces manual drafting with an automated process.
The software to perform computer-aided engineering (CAE) analysis tasks such as Finite Element Analysis and Computional Fluid Dynamics.
Theoretical and practical applications of the science studying the action of displacements and forces on physical bodies to the development of machinery and mechanical devices.
The branch of engineering that involves the design, operation, manufacture, and application of robots. Robotics is part of mechanical engineering, electrical engineering, and computer science and overlaps with mechatronics and automation engineering.
Sensors are transducers that can detect or sense characteristics in their environment. They detect changes in the apparatus or environment and provide a corresponding optical or electrical signal. Sensors are commonly divided in six classes: mechanical, electronic, thermal, magnetic, electrochemical, and optical sensors.
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Assemble robotic machines, devices, and components according to engineering drawings. Program and install the necessary components of robotic systems, such as robot controllers, conveyors, and end-of-arm tools.
Mount chips on a sensor substrate and attach them using soldering or wafer bumping techniques.
Analyse and identify the strengths and weaknesses of solutions, conclusions or approaches to problems; formulate and plan alternatives.
Use various techniques to ensure the product quality is respecting the quality standards and specifications. Oversee defects, packaging and sendbacks of products to different production departments.
Install machine-readable instructions, such as computer programs, in order to direct the computer's processor to perform a certain set of actions.
Maintain records of the progress of the work including time, defects, malfunctions, etc.
Direct and coordinate the organisation's financial operations and budget activities, in order to optimise financial performance.
Record data which has been identified specifically during preceding tests in order to verify that outputs of the test produce specific results or to review the reaction of the subject under exceptional or unusual input.
Evaluate when to invest in replacing machines or machine tools and take the necessary actions.
Set up and programme an automotive robot working on machine processes and substituting or collaboratively supporting human labour, such as the six-axis automotive robot.
Identify technical problems when operating devices and using digital environments, and solve them (from trouble-shooting to solving more complex problems).
Supply the machine with the necessary tools and items for a particular production purpose. Monitor the stock and replenish when needed.
Make use of various types of communication channels such as verbal, handwritten, digital and telephonic communication with the purpose of constructing and sharing ideas or information.