This document explores the interactions between a microprocessor (or microcontroller) and the outside world via peripherals and input/output (I/O) interfaces. It details the types of peripherals (keyboard, screen, CAN/CNA converters, timers, etc.), their role in data processing and communication, and the controllers used to interface them with the processor. Concepts are illustrated with examples such as the PIC 16F877 microcontroller and various communication buses (USB, Ethernet, etc.)
- Enseignant: Djillali HAMRI
Moyens de production centralisé et décentralisé Les termes centralisé et décentralisé rendent compte du niveau de dissémination d’un parc de production d’énergie. Sans qu’il y ait de distinction univoque entre les deux catégories, on parlera de moyens centralisés lorsque la production énergétique est concentrée en quelques points du réseau (centrale nucléaire, centrale thermique à flamme, etc.) et de moyens décentralisés lorsqu’il existe une multitude de points d’injection avec des systèmes de tailles unitaires réduites (éolienne, panneau solaire, etc.).
- Enseignant: Imen BENAOUDA
This document provides an overview of microprocessors, detailing their functions, architecture, and components. It defines the microprocessor as a VLSI integrated circuit capable of performing arithmetic and logical operations, managing data transfer, and processing external inputs. The architecture includes a control unit for sequencing instructions, a processing unit containing an ALU for calculations, and internal buses for communication. Additionally, registers store temporary data and addresses to facilitate operations. Lastly, the document describes buses—data, address, and control—which enable communication between the microprocessor and external peripherals.
- Enseignant: Djillali HAMRI
This course provides a comprehensive overview of the Sizing and Design of Industrial Motor Systems, focusing on selecting and optimizing motors for a wide range of industrial applications. The course covers both theoretical principles and practical approaches, enabling students to make informed decisions about motor selection, sizing, and system integration to meet performance, efficiency, and reliability requirements.
- Enseignant: Dr. Mohamed Miloudi
This course covers two critical aspects of electrical systems—Power Quality (PQ) and Electromagnetic Compatibility (EMC). Power Quality addresses the stability and reliability of power supply, focusing on minimizing disturbances like voltage sags, swells, and harmonics that can affect equipment performance. Electromagnetic Compatibility, on the other hand, examines how electrical and electronic systems coexist without interference, ensuring that devices operate efficiently and safely within their electromagnetic environment. Together, these topics are essential for developing robust and reliable electrical systems, particularly in modern, technology-driven environments.
- Enseignant: Dr. Mohamed Miloudi
Fault Diagnosis, or fault isolation, refers to the system monitoring and identifying faults when they occur, and pinpointing the type of fault and its location, along with one or more root causes of problems, to the point where corrective action can be taken.
- Enseignant: Mostefa Rahli
Industrial computing is crucial because it enables automation, precision, and efficiency in modern industries. By integrating computers into industrial processes, companies can optimize production, reduce human error, and enhance quality control.
- Enseignant: Djillali HAMRI
This course is aimed at Master 2 students in electrical engineering, industrial electrical engineering options, who are about to prepare their final project. Indeed, all Master 2 students are concerned and need to acquire a good methodology to prepare their final projects.
The content of this course is in line with the official program issued by the French Ministry of Higher Education and Scientific Research. Through the various chapters, the reader will be introduced to documentary research and learn about the stages, methodology and ways of writing and presenting a dissertation.
In short, this course is a tool designed to help students prepare their dissertation from start to finish, and to give them the right approach to follow.
- Enseignant: Imen BENAOUDA
Electrical transients cover a wide range of interference and have the potential to impact the operation of electrical systems and equipment. These occurrences can be brought on by lightning, abrupt disconnections or connections, power grid switching, and electrical device malfunctions. They frequently affect electrical systems and equipment in the commercial, automotive, and military sectors and are frequently conveyed over power and data lines. These potentially high voltage and current events typically have failures categorized by hard and soft failures, with complete degradation of function being considered a hard failure. A soft failure can be remedied by recycling the power to the equipment. It is crucial that the design of electrical systems be sufficiently immune, having no impact on the operation, to ensure both product reliability and compliance to underlying standards.
- Enseignant: Hakim Ait Said