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109 online electronic circuits teachers

109 online electronic circuits teachers

Ayoub - Rabat, MoroccoC$74
C$74Automotive Communication protocols (CAN/LIN) from Engineering perspective
Trusted teacher: Course Description: CAN/LIN Protocols in Embedded Systems Course Title: Embedded Systems Communication: CAN/LIN Protocols Course Overview: The "Embedded Systems Communication: CAN/LIN Protocols" course is designed to provide students with a comprehensive understanding of the Controller Area Network (CAN) and Local Interconnect Network (LIN) protocols used in embedded systems. The course aims to equip students with the necessary knowledge and skills to design, implement, and troubleshoot communication systems based on these protocols. Through a combination of theoretical lectures, hands-on lab exercises, and practical projects, students will gain a deep understanding of CAN/LIN protocols and their applications in various industries. Course Objectives: 1. Understand the fundamental principles and concepts of CAN/LIN protocols. 2. Learn about the structure and architecture of CAN/LIN networks. 3. Explore the advantages, limitations, and trade-offs of using CAN/LIN in embedded systems. 4. Gain practical experience in designing and implementing CAN/LIN communication systems. 5. Develop skills in troubleshooting and debugging CAN/LIN networks. 6. Explore real-world applications of CAN/LIN protocols in automotive, industrial, and other embedded systems. 7. Understand the integration of CAN/LIN protocols with other communication interfaces. Course Outline: Module 1: Introduction to CAN/LIN Protocols - Overview of embedded systems communication - Evolution and history of CAN and LIN protocols - Comparison of CAN and LIN with other communication protocols - Application areas and industry standards Module 2: CAN Protocol Fundamentals - CAN bus architecture and components - Physical and data link layers of the CAN protocol - Message formats, identifiers, and addressing - Error detection and fault tolerance mechanisms - CAN protocol timing and synchronization Module 3: LIN Protocol Fundamentals - LIN network topology and components - LIN frame structure and message types - Master-slave communication and scheduling - LIN protocol configuration and initialization - Fault detection and handling in LIN networks Module 4: CAN/LIN Network Design and Implementation - Hardware requirements for CAN/LIN communication - CAN/LIN transceivers and controllers - Network topology and node addressing - Bus arbitration and message prioritization - Software development for CAN/LIN systems Module 5: CAN/LIN Network Diagnostics and Troubleshooting - CAN/LIN network analysis tools and techniques - Error detection, fault localization, and error recovery - Diagnostic trouble codes and error reporting - Strategies for debugging and optimizing CAN/LIN systems Module 6: Applications of CAN/LIN Protocols - CAN/LIN in automotive systems: vehicle networks, diagnostics, and control systems - CAN/LIN in industrial automation: process control, sensors, and actuators - CAN/LIN in consumer electronics and home automation - Integration of CAN/LIN with other communication interfaces (e.g., Ethernet, SPI, I2C) Module 7: Project Work - Hands-on projects involving the design and implementation of CAN/LIN communication systems - Real-world case studies and application development - Team-based projects to apply the acquired knowledge and skills Prerequisites: - Basic knowledge of embedded systems and microcontroller programming - Understanding of digital electronics and computer architecture - Familiarity with C or C++ programming language - Passionate about the automotive field Assessment Methods: - Quizzes and exams to assess theoretical knowledge - Assignments to evaluate practical implementation skills - Project work and presentations to assess application and problem-solving abilities By the end of this course, students will have a solid foundation in the theory, implementation, and troubleshooting of CAN/LIN protocols in embedded systems. They will be prepared to work on projects and develop communication systems based on CAN/LIN, enabling them to contribute to various industries where embedded systems play a crucial role.
Electronic circuits · Computer programming · Automotive engineering
Mohamed - New Cairo, EgyptC$16
C$16Electrical circuits for Engineering and technological students
Trusted teacher: Course Title: Electrical Circuits (Circuit Theory: DC and AC) Course Description: Welcome to Electrical Circuits, also known as Circuit Theory! This course is your gateway to mastering the essential concepts of DC and AC circuit analysis, forming the backbone of electrical engineering. Whether you're attending online or onsite, we’ll explore topics like Ohm’s Law, Kirchhoff’s Laws, circuit theorems, transient and steady-state behavior, and power analysis in AC circuits. Key areas of focus include: Understanding and applying circuit laws and theorems Analyzing resistive, capacitive, and inductive circuits Investigating transient response and AC frequency behavior Exploring practical circuit design and real-world applications This course combines theoretical learning with hands-on problem-solving to prepare you for advanced studies and practical engineering challenges. I am passionate about creating an engaging and supportive learning environment for you. If you have questions, need clarification, or want to discuss circuit concepts, please don’t hesitate to reach out. I’m here to help you succeed and make the most of this course! هذا المقرر يقدم أساسيات تحليل الدوائر الكهربائية وهو حجر الأساس في هندسة الكهرباء. سنتناول قوانين أوم وكيرشوف، النظريات المختلفة مثل ثيفينين ونورتون، وتحليل استجابة الدوائر في الحالات العابرة والمستقرة. سواء كنت تحضر المحاضرات حضوريًا أو عبر الإنترنت، سأكون دائمًا متاحًا لدعمك والإجابة على استفساراتك. لا تتردد في التواصل معي إذا احتجت لأي مساعدة. هدفي هو مساعدتك على فهم المادة وتحقيق النجاح!
Electrical circuits · Electronic circuits · Electrical engineering
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(2 reviews)
Abdallah - Rabat, MoroccoC$75
C$75Learn Analog Electronics With an Engineer and Graduate Professor.
Trusted teacher: By being an engineer who has experienced all the possibilities of stress that a student can encounter when understanding it, a teacher who has encumbered an experience for years, I have developed teaching and efficient methods in order to better explain to my students. For me, a student needs a logical explanation of things and a personalized follow-up in order to be able to better advance and develop their own skills. Distance courses: ----------------------------------- I can give distance lessons perfectly since I have a tablet on which I can work in the same way as if it were a notebook. The student can see everything I do live through screen sharing, and all they need is to use a computer. At the end of the course, I send him a copy of all the work done, which allows me to make sure that he has kept a clean record of the course spent together. Domains : -------------------------------------------------- ------------------ * Analog electronic: ------------------------------------------- - Semiconductor and PNP Junction - Diodes and transistors - Bipolar transistors and JFET (Static and dynamic analysis) - Operational amplifier in linear and non-linear mode - Frequency analysis (Bode, Nichols, Nyquist diagram ...) - Analog filtering - Analog Oscillator - Converters: CAN and CNA - Modulation - Differential amplifier - ... * Electrical engineering: -------------------------------- - Single-phase network - Three-phase network - Coil and magnetic circuit - Single-phase and three-phase transformers - Direct current machine (MCC) - Asynchronous Machine (MAS) - Synchronous Machine (MS) - Speed variators -.... * Power electronics: ---------------------------------------------- - Choppers - Rectifiers - Inverters - Dimmers - Speed variator -.... * Digital Electronics: ------------------------------------------- - Boolean algebra - Combinatorial systems - Sequential systems - Counters and decounters - Registers and memories - .... * Industrial Automation: ---------------------------------------- - Grafcet and GEMMA - State graph / state diagram - Programmable controllers (Siemens, Schnieder ...) - Programmable circuits (Microcontrollers, arduino ...) -.... * Linear automatic - Servo-control and regulation: -------------------------------------------------- ----------------------------------- - Laplace transformation - Transfer function - Functional diagrams - Dynamic performance of linear systems: Speed, Precision and Stability - The correctors: P, PI, PID, phase advance, phase delay, ... - Regulation and servoing - Digital servo -.... -------------------------------------------------- --------------- Additional Information Zoom or Google meet Whiteboard Anyway, I'll be there to help you move forward and love this area more. Are you ready to experience this learning adventure with me?
Electronic circuits · Electrical engineering · Electrical circuits
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(7 reviews)
Mohssine - Montreal, 10, CanadaC$70
C$70Associate Professor gives courses in Electrical Engineering: Electricity - Electrotechnics - Electronics - Automation - Automation...
Trusted teacher: Doctoral researcher, associate professor and state engineer with extensive experience in academic support. I offer private lessons in electrical engineering (see the fields below) adapted to the profile of each student whatever their difficulties. ---------------------------------------------------------- ---------------------------------------------------------- -------------- Working method: -------------------------------- I have an effective method applied as follows: - Course review and writing of a summary sheet including all the important elements, formulas, tips which will allow the student to revise quickly. - Typical and application exercises, in-depth exercises, summary exercises. - Best preparation method for tests, assessments, exams and competitions. ---------------------------------------------------------- ---------------------------------------------------------- -------------- Distance learning courses: ----------------------------------- I can give distance lessons perfectly since I have a tablet on which I can work in the same way as if it were a notebook. The student can see everything I do live through screen sharing, and all they need is to use a computer. At the end of the course, I send him a copy of all the work done, which allows me to make sure that he has kept a clean record of the course spent together. ----------------------------------------------------------------------------------------------------------------- The areas: -------------------------------------------------- ------------------ * Electrostatics and Electromagnetism -------------------------------------------------- ------------------ * Electrical engineering: - Single-phase distribution systems - Three-phase distribution systems - Transformers - The direct current machine - The asynchronous machine - The synchronous machine and the alternators - Speed variators - Energy sources - Energy storage -.... -------------------------------------------------- -------------- * Power electronics: - Choppers - Rectifiers - Inverters - Dimmers -.... -------------------------------------------------- ------------- * Electronics: - Sensors: logic, analog and digital - Operational amplifiers - Analog and digital filters - Converters: CAN and CNA - Digital circuits: combinational logic and sequential logic - Semiconductors: diodes, bipolar transistors, etc. - Analog modulation and digital modulation (ASK, FSK, PSK, QAM) -.... -------------------------------------------------------------- *Automation: - Grafcet and GEMMA - State graph / state diagram - Programmable automatons - Programmable circuits (Microcontrollers, arduino ...) -.... -------------------------------------------------- ------------- *Servo and regulation: - Laplace transform - Transfer function - Functional diagrams - Dynamic performance of linear systems: Speed, Precision and Stability - The correctors: P, PI, PID, phase advance, phase delay, ... - Regulation and servoing - Digital servo -....
Electrical circuits · Electronic circuits · Electrical engineering
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Abdullah - Cairo, EgyptC$26
C$26Electrical engineering fundamentals basic circuits
Trusted teacher: 1. Introduction to Electrical Circuits • Basic concepts: charge, current, voltage, and power • Passive and active circuit elements (resistors, capacitors, inductors, sources) • Ohm’s Law and Kirchhoff’s Laws (KVL and KCL) 2. Circuit Analysis Techniques • Series and parallel circuits • Voltage and current division rules • Node voltage method • Mesh current method • Source transformation • Superposition theorem • Thevenin’s and Norton’s theorems 3. Capacitors and Inductors • Capacitance and inductance fundamentals • Energy storage and release in capacitors and inductors • Transient response in RC, RL, and RLC circuits • Initial and final value theorems 4. First and Second-Order Circuits • Natural and forced responses • Step response analysis • Time constants • Overdamped, underdamped, and critically damped systems 5. Sinusoidal Steady-State Analysis • AC sources and phasor representation • Impedance and admittance • AC circuit analysis using phasors • Power in AC circuits: real, reactive, apparent power, and power factor 6. Frequency Response and Resonance • Resonance in series and parallel RLC circuits • Bandwidth and quality factor • Bode plots (optional or advanced) 7. Three-Phase Circuits (Introductory Level) • Star and Delta configurations • Line and phase quantities • Balanced three-phase power calculations 8. Circuit Simulation and Practical Applications • Use of simulation tools such as PSPICE, Multisim, or MATLAB/Simulink • Real-world applications and circuit design examples
Electrical engineering · Electronic circuits · Circus arts
Humberto - Santo Domingo, Dominican RepublicC$37
C$37Digital Electronics from Scratch. PLUS!!!! ALL SIMULATED EXERCISES in PROTEUS.
Trusted teacher: Proteus Software! Topic 1 Fundamentals of Digital Electronics Introduction - What does Digital Electronics study? - Binary and hexadecimal number systems - Introduction to switching algebra (logical operators, fundamental theorems) Combinational logic circuits (Logic level of abstraction) - Structural description: Logic gates - Functional description: Truth tables, logical expressions, logical expressions in canonical forms - Simplification of logical functions using the Karnaugh map method - Optional combinations. Design criteria: minimum cost and minimum risk. - Application of De Morgan's theorem in the design of combinational logic circuits with logic gates Topic 2 Regular Functional Logic Blocks (RTL level of abstraction) - Definition and classification (combinatorial and sequential) - Hierarchical approach in digital design Regular combinatorial functional logic blocks - Arithmetic (adders, comparators, ALU) - Data selectors (multiplexers) Code converters (binary decoder, BCD-7 segment, binary encoder) - Structural (gate design) and functional description of the functional logic blocks (truth tables, functional tables, logical expressions, timing diagrams) - Application examples - Hierarchical design in Proteus Topic 3 Synchronous State Machines Synchronous State Machines (MES) Method for CSS Analysis and Design. - Designing non-regular CSS using the synchronous state machine method.
Electronic circuits · Telecommunications
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Dounya - Sceaux, FranceC$55
C$55As an engineer in electronics and radiofrequency technologies, I support you in mastering complex concepts.
Trusted teacher: As an electronics engineer specializing in radio frequencies (RF), microwaves, and printed circuit board (PCB) design, I offer personalized courses to help you master advanced electronic technologies. My expertise covers a wide range of skills, including: - Design of RF and analog circuits. - Design of multilayer PCBs integrating complex functionalities (microstrip, stripline, etc.). - Simulation and optimization with tools like Altium Designer, KiCad, LTspice, CST Studio, and ADS (Advanced Design System). - Electromagnetic compatibility (EMC) and compliance testing. - Design of IoT (Internet of Things) systems and integration of wireless modules (Wi-Fi, Bluetooth, LoRa, ZigBee). - Signal analysis and digital processing (FFT, digital filtering). With a strong background in R&D, I combine theory and practical applications to teach complex concepts such as: - RF amplifiers and active/passive filters. - Switching power supplies (SMPS) and linear regulators. - Microcontrollers and embedded systems (STM32, Arduino, ESP32). - Electronic manufacturing: creation of Gerber files, production monitoring, assembly and testing. I have already successfully supported more than 50 students, helping them master key concepts such as computer-aided design (EDA), circuit debugging, and functional prototypes. Recognized for my teaching skills, my patience, and my ability to make electronics intuitive, I adapt to the needs of each student, whether it is to succeed in an academic project, launch a prototype, or perfect professional skills. Methodology My courses are suitable for all levels, with a progressive and personalized approach: 1) Theoretical bases: exploration of fundamental principles (Kirchhoff’s laws, Thévenin and Norton’s theorems, circuit analysis). 2) Concrete applications: simulation of electronic circuits, design of multilayer PCBs, optimization for RF performances, and manufacturing of prototypes. 3) Practical projects: realization of complete systems, from idea to design, integrating microcontrollers, RF modules, and laboratory tests. I rely on professional tools and offer additional resources: 1) Interactive simulations (CST Studio, LTspice). 2) Guides on electronic manufacturing (creating Gerber files, assembly). 3) Technical support for advanced tools: ADS, HFSS, MATLAB, Python. Contact Feel free to contact me to learn more or book a session. Together, we will explore advanced electronic technologies, and I will help you achieve your academic, professional, or personal goals.
Electronic circuits · Engineering · Electromagnetism
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Dr:Mohamed Hany Mahmoud - EgyptC$8
C$8Electronic circuits basics and DC Electronic circuits analysis
Objectives 1- Verification of Kirchhoff’s current and voltage laws. 2- Verification Voltage Dividers 3- Verification of Thevenin’s Theorem Kirchhoff’s Current Law At any point (junction) in an electric circuit, the sum of currents flowing into that node is equal to the sum of currents flowing out of it. Kirchhoff’s Voltage Law In any closed circuit, the summation of voltage sources (EMF) equals the summation of voltage drops Voltage drop is the voltage difference across a resistor’s terminals Common DC Circuit Terms: • Circuit – a circuit is a closed loop conducting path in which an electrical current flows. • Path – a single line of connecting elements or sources. • Node – a node is a junction, connection or terminal within a circuit were two or more circuit elements are connected or joined together giving a connection point between two or more branches. A node is indicated by a dot. • Branch – a branch is a single or group of components such as resistors or a source which are connected between two nodes. • Loop – a loop is a simple closed path in a circuit in which no circuit element or node is encountered more than once. Voltage Dividers • An electronic circuit that accepts a certain voltage input and produces a fraction of that input voltage as the output • The same current I flows through R1 and R2 Thevenin’s Theorem • Thevenin theorem is an analytical method used to change a complex circuit into a simple equivalent circuit consisting of a single resistance in series with a voltage source.
Physics · Electronic circuits · Biophysics
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Nasser - FranceC$100
C$100FPGA, SoC, Embedded Systems, HDL, VHDL, C, & Computer Architecture (ARM, RISC-V)
Trusted teacher: New Private Courses: VHDL, FPGA, C Programming & Embedded Systems Discover our intensive program designed for technology enthusiasts. Powered by experts, this course is your key to becoming a professional in VHDL, FPGA, C programming, and embedded systems. Why Choose Us? • Deep Expertise: Gain direct access to expert instructors, with courses that blend theory and practice. • Personalized Approach: Our courses adapt to your level and pace, offering a tailored experience. • Hands-on Projects: Apply your knowledge on real projects for in-depth understanding. • Network and Opportunities: Join a dynamic community and create valuable professional connections. Program: • VHDL: Learn to design and implement complex digital circuits. • FPGA: Explore FPGA programming for highly customized solutions. • C Programming: Master the C language, essential for software and embedded system development. • Embedded Systems: Understand the operation and programming of microcontrollers to interact with the external world. Registration: Spots are limited to ensure optimal learning quality. For more information or to enroll, contact us at [contact]. Don't miss this unique opportunity to boost your skills and open doors in the high-tech industry. Turn your passion into expertise. Join us and become a change-maker in the technological world.
Computer engineering · Electronic circuits
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Our students evaluate their Electronic Circuits teacher.

To ensure the quality of our Electronic Circuits teachers, we ask our students to review them.
Only reviews of students are published and they are guaranteed by Apprentus. Rated 4.8 out of 5 based on 32 reviews.

As a student you are trained to become an electronic engineer in product design. Designing has an intrinsically multidisciplinary character. (Eindhoven)
Ansh
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Ansh is a very friendly teacher that helps you understand what you are missing and reassured you how he can help. Including is vast amounts of experience with his background, he knows what he is talking about and what he’s doing. I highly recommend asking him for his help.
Review by HASSAN
PRIVATE LESSONS ELECTRONICS MATHEMATICS PHYSICAL (lessons, exercises, corrected exams) (Brussels)
Sam
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rating green star
great enthusiasm and effort
Review by MARTINA
Associate Professor gives courses in Electrical Engineering: Electricity - Electrotechnics - Electronics - Automation - Automation... (Lyon)
Mohssine
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rating green star
Très bon.
Review by PABLO

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