Electronics, programming and robotics with ARDUINO and ESP32
ARDUINO is a free hardware microcontroller. It is very useful for learning electronics and coding at the same time. It is very estimating thanks to that we can solve problems and look at the results physically. Thanks to the size of its community and the openness of its philosophy, information is widely accessible. Arduino allows us to undertake countless projects of all kinds. In a way, it's a small door through which you can easily access the world of makers. Among others. In the particular case of the arduino, my main goal is to stimulate creativity and curiosity. In addition to allowing my student to acquire a level of competence which allows him to function alone. I am used to working with people of different ages. I believe in segmentation, visualization of progress, objective results and practice. Beyond these general lines, there is no rule or magic method. Some things work with some students and not with others. Adapting to needs is really the goal of private lessons. So I will do my best to find what motivates and helps my student.
Automation Signal Processing MATLAB Electronics VHDL Programming
..................................... (satisfied or refunded)........ ....... Electrical engineering expert PhD student in electrical engineering and renewable energies engineer in electrical engineering and industrial computing I offer home schooling courses to deal with the difficulties encountered by students during their schooling, These courses allow the student to get back to level and regain confidence in all scientific subjects, as well as effectively preparing him for the Baccalaureate, Preparatory Classes or various exams. ===Automatic (Servo-control and automatism regulation (discrete, continuous)======== ===Electrical engineering (electrical machines) and power electronics (inverter rectifier)======= ===Continuous and sampled signal processing================= ===VHDL programming, microcontroller and microprocessor (intel, ARM)============ ===High frequency electronics (transistor, diode, AOP, noise)============ ===Propagation of electromagnetic waves and antennas======== ===Analog and digital electronics (filters, flip-flops, sysml,Grafcet,amplifier)===== === Realization of electrical projects ===MATLAB ARDUINO Proteus ISIS === Renewable energies COURSE OBJECTIVES AND PEDAGOGICAL APPROACH Resumption and deepening of fundamental concepts through exercises with course reminders. Put the student in a situation of questioning and research. Respond to individual issues and questions Exercise training in order to achieve real mastery of the content. Learn to build theoretical reasoning from observable facts or hypotheses. Specific preparation for higher education requirements (in-depth content, increase in work capacity, enrichment of scientific background) This pedagogical approach is effective since it has often led me to interesting results with my students.
Electronics, Control of industrial systems, C/C++ VHDL programming, digital and analog electronics, MATLAB simulation
Hello, I am a doctoral student in electrical engineering and associate professor in engineering sciences, experienced in the field of electrical engineering, I offer support courses in the subjects of engineering sciences (Electronics, automatics, electrical engineering, automation, programming). Digital electronics Analog electronic electromagnetism (propagation of high frequency waves) Automatic (continuous, sampled) electrical engineering (transformers, electrical machines, switching power supply) C / c ++ programming, Assembler, ARM, STM32 renewable energy (wind, PV) engineering Sciences RDM Python,VHDL PIC Microprocessor and Microcontroller Signal processing and data acquisition Engineering Sciences These courses allow the student to get up to speed and regain confidence in all scientific subjects, just as they prepare him effectively for the Baccalaureate, the Preparatory Classes or various examinations of the engineering classes. COURSE OBJECTIVES AND PEDAGOGICAL APPROACH Resumption and deepening of fundamental concepts through exercises with course reminders. Put the student in a situation of questioning and research. Respond to individual issues and questions Exercise training in order to achieve real mastery of the content. Learn to build theoretical reasoning from observable facts or hypotheses. Specific preparation for higher education requirements (in-depth content, increase in work capacity, enrichment of scientific background) This educational approach is effective since it has often led me to interesting results with my students. Associate professor provides support courses in electrical engineering
Electrical and Electronics Engineering, Microcontroller Projects
Teaching electrical and electronic engineering subjects through examples and practical explanations Examples of subjects that I can teach in Arabic and English: Microcontroller - Arduino - Embedded System - Electrical Machine - Power Electronics - Digital System Design - Digital Circuit - Programming in C And some other core subjects for electrical and electronic engineering major I am able to teach the Electrical and Electronics Engineering Subject with practical examples, some courses that I can teach: Microcontroller - Embedded System - Electrical Machine - Power Electronics - Digital System Design - Digital Circuit - Programming in C.
Electronic Power Conversion : Course which deals with converters, inverters and other power electronic components.
EPC could be a nightmare for SET students at the TU Delft, especially those who do not have a background in Electrical Engineering. I am a second year SET student with an Electrical Engineering background. I scored a 9/10 on my first attempt and would be offering classes in TU Campus. In this class , we go through all the concepts taught in the class, have doubts sessions and exam preparation sessions. Even if you are an absolute beginner, there is nothing to worry since I would explain everything in as simple terms as simple terms as possible. Group lessons are also available.
Learn How to use Microcontroller Arm based with Xilinx , mbed and Arduino
I specialize in tutoring Microcontrollers (ARM Based on Xilinx and mbed and Arduino) and I am a teaching assistant in microcontrollers at Concordia university. My goal is to keep students learning this course and recognize how they can use this course in their real life and maybe they can make a startup in the future life based on microcontrollers. I assign homework after every lesson and provide periodic progress reports. If you are an absolute beginner, don't worry. The microcontroller course is one of the great courses that you can enjoy it.
Supervision of electrical engineering projects: PFE, PFA, PER ...
Doctor of state and also engineer in electrical systems offers project supervision (PFE, PFA, PER ...) with achievement in the following areas: Industrial automation Industrial supervision Electronics-home automation Programmable cards: Arduino, DSP, FPGA ... Design and production of models Renewable energies ....
Solar system # Battery and storage system # electrical inverters
Learn the fundamentals of energy conversion. Discuss the solar system different topologies. Battery and storage system as per system requirements. Learn how to design your solar system. What are the requirements for my system maintenance. Our sessions require virtual attendance, from an applied science background, the methodology is purely discussion based on scientific theories.
Electrical Engineering Courses for Students :: Beginner and Advanced Levels
Electrical Engineer with more than 6 years of experience, offers personalized training support for future graduates, technicians and engineers: Module expertise: - LV/MV Distribution System - Electrical Network Engineering - Electrical engineering - Analog and digital electronics - Power electronics & VFD Applications, - Digital Transmission, - Software Training: Caneco BT, Etap V12.6, ISIS Proteus, Dialux, Rapsody .... As well, the supervision of students during the end-of-study internships You're welcome
Photonic Circuit Design I: Basic Methods and Applications
Photonic Circuit Design is currently surfacing as the most prominent candidate for beyond-Moore circuit design paradigms. In this course, we will cover the basic laws of Electromagnetics, Optics, Optical Resonators, Waveguide analyses, Effective Index Method (EIM), Coupled Mode Theory (CMT), and Eigenmode Expansion Method (EME). In light of these methods, we will cover Y-branches and Mach-Zehnder Interferometers (MZM).
Electrical Engineering and Electric Circuits Courses For Students
Electrical Engineer with more than 20 years of teaching experience as well as oil & gas engineering experience, offers one to one support & homework support for the following: - LV/MV Distribution System - Electrical Circuits - Electrical Machines - Power Systems - Electric Drives - Power electronics & VFD Applications You're welcome
Private lessons in Electronics, Computer Sciences, Physics and Programming
I am graduated in Electrical Engineering, and I am doing my masters at UPEC, Creteil in computer vision and Artificial intelligence. I have 4 years of teaching experience from collage to preparatory classes. I am living in Fontainebleau, and I can provide you the online or home tutoring.
Let's learn how to solve electrical circuits. DC and AC.
Learn Electrical Circuit Troubleshooting: DC analysis -Ac analysis -Bode diagrams -Power calculations. -Power factor and power factor correction -phasor analysis -Nodal and Mesh analysis -Source transformation _Thevenin and Norton equivalent circuits -
Tutoring in Electrical Engineering, Circuit Theory, Analogue and Digital Electronics
I graduated in Electrical Engineering and Electronics and Telecommunications at the University of Science and Technology(AGH). I will give tutoring in the theory of electrical circuits, electrical engineering and analog and digital systems. I provide additional materials. Welcome. Scope of assistance: - Electronic semiconductor components - Bipolar transistor - working point setting, small signal description, common collector, common emitter, common base - Differential amplifier - transition zone, polarization methods - Operational amplifier - circuits with an operational amplifier, negative feedback, non-linear amplifier application - Linear and pulse stabilizers - Analog electronic circuits - Digital electronic circuits - ADC / DAC converters - Current, voltage and magnetism issues - Non-isolated converters (boost, buck and buck-boost, SEPIC) - Non-isolated converters (flyback, forward, full-bridge, half-bridge, Push-Pull, Ćuk) - Resonant and ferroresonant converters - selective amplifiers - power amplifiers -stabilizers with continuous work - PLL phase coupling loop - network rectifiers - switching power supplies -high frequency technique and fast switching - Kirchoff's laws, delta-star / star-delta transform - Thevenin's theorem - loop potential method - the method of nodal potentials - methods of solving DC and sinusoidal current circuits, - crosses and filters - circuits containing magnetically coupled coils - operational amplifiers - transmission properties of linear systems - three-phase, - the phenomenon of resonance, - vector (phasor) charts of currents and voltages, - transient states - classical method I also provide assistance in the field of: - matlaba / simulinka, scilab, LTSpice, PSpice, Spice, Tina-TI, Falstad Simulator - Interfaces: CAN, I2C, SPI, UART - ADC converter - designing electronic diagrams in EAGLE, Altium. If you have any questions, write to me - I will answer up to 24 hours To facilitate cooperation, please include in the e-mail: - topics that I am supposed to help with, if you have tasks, you can attach them in the e-mail - since when you need help and for how long
Prof. of Mathematics and Physics, Ph.D in Electromagnetics., I offer courses and private lessons in Electrodynamics.
COURSES: Mathematics, Physics, Geometry, Calculus 1, Calculus 2, Algebra 1, Algebra 2, Applied Mechanics, Rational Mechanics, Electrodynamics and Electrical Engineering. TEACHING: A mainly practical, applicative approach, based on carrying out exercises, exams and tests through the use of graphic tablets, interactive calculation software and multiphysics simulations that allow the student a 360 ° understanding of the subject. All the scientific material, such as written tests, exercises, electronic handouts, forms and demonstration software will be provided by the teacher himself to the students. All the material used in class will be provided to students at the end of the lesson. Each student will have access to a digital folder from which they can retrieve all the material used in class.