Inhalt: La automatización industrial consiste en utilizar computadoras y robots para controlar los procesos industriales, como la fabricación, sin la intervención humana. Si se efectúa correctamente, la automatización puede mejorar la calidad, la seguridad y la precisión de los procesos. Entonces, los empleados de la automatización industrial serán los responsables de diseñar los sistemas, configurar los controladores y supervisar los procesos. Este curso te presenta el tema. Está diseñado para que cualquier profesional se introduzca en esta área, en funciones como ingeniero eléctrico o mecánico, técnico de automatización o gestor de diseño. Aprende cuáles son los componentes y las redes involucradas en todos los niveles de la automatización: el nivel de campo, el nivel de control y el nivel de gestión. Explora los distintos dispositivos, desde los controladores lógicos programables de la planta de producción, hasta los programas informáticos OPC que les dan a los técnicos información sobre las operaciones. La formadora Zahraa Khalil, ingeniera y profesora, también describe SCADA, un sistema de control industrial que permite la supervisión a grandes distancias y en muchos lugares. Umfang: 00:40:03
Inhalt: The continuous development of IoT ecosystems promises a future in which our homes, cars, and cities are more connected. But as this technology evolves, it has become increasingly important to tackle the communication and compatibility challenges facing the billions of connected devices already out in the world. In this course, learn about IoT standards and ecosystems. Instructor Zahraa Khalil provides a high-level look at the IoT ecosystem, discussing IoT markets, technology, and standards. She also goes over the challenges facing the development of IoT-including security, privacy, and legal issues-the IoT standards development process, and IoT protocols for device management. Plus, she shares examples of IoT ecosystems in action by exploring case studies of smart cities. Umfang: 01:34:32.00
Inhalt: Industrial automation is the use of computers and robots to control industrial processes, like manufacturing, without significant human intervention. Used correctly, automation can increase the quality, safety, and accuracy of these processes. It's the job of the people in industrial automation to design the systems, configure the controllers, and monitor the processes. This course provides an overview of the topic, designed to help anyone hoping to enter the field in a role such as electrical or mechanical engineer, automation technician, or design manager. Learn about the components and networks involved at each level of automation: field level, control level, and management level. Explore the different devices involved, from the programmable logic controllers (PLCs) on the factory floor, to OPC software that give technicians insights into operations. Instructor Zahraa Khalil, an engineer and educator, also provides an overview of SCADA (supervisory control and data acquisition), an industrial control system architecture that enables supervision over large distances and multiple sites. Umfang: 00:40:13.00
Inhalt: Arduino, the family of open-source single-board microcontrollers, can power a variety of complex projects, from robots to wearable tech. That said, the technology is relatively easy to pick up, even for those without an electronics background. In this course, Zahraa Khalil covers the basic features and capabilities of an Arduino board, equipping beginners with the knowledge they need to start programming their own projects. Zahraa goes over fundamental concepts, such as how to set up the Arduino board with the Arduino IDE. She also shows how to wire up an LED to your Arduino board and write a program to blink the LED lights. Plus, she goes over pushbuttons, explaining why they are considered inputs to the Arduino board, as well as how to activate an LED with a pushbutton. Umfang: 01:05:44.00
Inhalt: Arduino helps engineers and DIY enthusiasts build functional, interactive prototypes and electronics projects. Integrating analog devices allows you to take your Arduino projects to the next level, bridging the digital and physical worlds. With analog components, you can collect data from sensors, make motors run, and display information to users. This course teaches you the basics you need to get started. Zahraa Khalil shows how to connect real devices-temperature sensors, LEDs, LDR circuits, joysticks, and stepper motors-to your Arduino board. She explains the wiring and coding you need to get them up and running and showcases the possibilities of Arduino-driven hardware in three mini projects. Umfang: 01:35:04.00
Inhalt: Arduino enables programmers to experiment with hardware and build interactive, digital projects connected to lights, sensors, and motors. This training course introduces you to the Arduino microcontroller, showing how to interface with three common components: an LCD screen, a seven-segment LED, and a keypad. Instructor Zahraa Khalil shows how to wire and program the interfaces and perform basic tasks: displaying randomized numbers, looping through an LED pattern, and accepting input from the keypad. The course is filled with zoomed-in, hands-on demonstrations that show how to complete the physical wiring, as well as tutorials that take you through high-level Arduino concepts and practical coding techniques. Follow along to learn how to create your own electronics with this popular maker tech platform. Umfang: 01:40:10.00
Inhalt: Industrial automation technologies have made manufacturing processes increasingly more efficient. Programmable logic controllers (PLCs) are commonly used in industrial automation, and many of these industrial computer control systems use ladder logic as their main programming language. In this course, engineer and educator Zahraa Khalil covers the basics of PLC ladder logic programming. Explore fundamental concepts such as rung operation, timer and counter instruction, and the main types of input and output instructions used in ladder logic programming. Along the way, Zahraa shares case studies that can help you grasp the real-world application of these concepts. Umfang: 02:04:06.00
Inhalt: Programmable logic controllers (PLCs) are essential to the industrial automation industry-and ladder logic is one of the most popular languages for programming major PLC devices, including Allen Bradley, Siemens, and OMRON. This course introduces you to the essentials of PLC programming with ladder logic. Learn how to convert data for input and output, perform calculations with math instructions, compare and test data with comparison instructions, and transfer data with MOV instructions. Instructor Zahraa Khalil also provides an introduction to sequence logic, which allows you to apply order, conditions, and repetition to your processes, and state diagrams. Each chapter is full of step-by-step solutions and examples in popular simulation software like LogixPro. Umfang: 01:35:47.00
Inhalt: You've made PLCs do simple things, but now you need to optimize processes based on data you're collecting. Where does the data go? How can you access that data from memory efficiently? In this course, instructor Zahraa Khalil explains the details of data storage, how it interacts with input and output (I/O), and how you can approach memory structures. Zahraa introduces you to the different software and PLC controllers from Rockwell automation, as well as two different memory structures: rack based systems and tag based systems. She goes into more detail on rack based systems, including details on how these systems handle data files, a demo of LogixPro, and information on I/O address format. Zahraa concludes with more detailed information on tag based systems, including global and local tags, the address format you need to use in tag based systems, base and alias tags, and more. Umfang: 00:43:44
Inhalt: Ladder logic is a common programming language used in industrial and manufacturing processes. The controller, using a programmable logic controller (PLC) program, specifies what action each device needs to perform. Many PLC operations follow linear sequences, but as you develop more complex applications, you also need to build more sophisticated logic into your projects. In this course, explore advanced PLC ladder logic programming instructions, including bit shift left, bit shift right, word shift operations, program flow control instructions, and subroutine instructions. Learn about first in, first out (FIFO) and last in, first out (LIFO) word shifting instructions, as well as other options (and how to choose from among them). Umfang: 00:41:56
Inhalt: Sequence processes are common in manufacturing and used often in ladder logic, the popular language for programming major PLC devices. In this practical course, instructor Zahraa Khalil demonstrates how to use sequencer instructions in PLC ladder logic programming. To help lend each concept a real-world context, Zahraa shares practical examples involving everything from traffic lights to dishwashers. She shines a spotlight on three key sequencer instructions: sequencer output instruction (SQO), sequencer compare instruction (SQC), and sequencer load instruction (SQL). Along the way, she includes challenges that help you solidify your understanding of each concept. Umfang: 01:26:39.00
Programm Findus Internet-OPAC findus.pl V20.235/8 auf Server windhund2.findus-internet-opac.de,
letztes Datenbankupdate: 09.05.2024, 14:13 Uhr. 964 Zugriffe im Mai 2024. Insgesamt 511.194 Zugriffe seit Januar 2009
Mobil - Impressum - Datenschutz - CO2-Neutral