Gaurav Sharma Electronic and communication engineering
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🚀 Unlock Your Potential in Electronics & Communication Engineering with Gaurav Sharma! 🚀
Hello, future achievers! I’m Gaurav Sharma, and with a Bachelor’s and Master’s in Electronic and Communication Engineering, I bring 7+ years of proven teaching success. I know exactly what it’s like to face complex topics and exam stress. But together, we’ll turn every challenge into your strongest asset.

🌟 What Makes My Teaching Stand Out?

Mastery Across EC Subjects – From Digital Electronics, Analog Electronic, Signals and Systems, Circuit, Digital Signal Processing, Control Systems, VLSI & CMOS, Satellite Communication, Microcontrollers, and Analog/Digital Circuit Design—I've got you covered on all fronts!

Results That Speak – My students don’t just pass; they excel. With high scores in Electronic and Communication Engineering Subjects, GATE EC, PSUs, SSC-JE, and B.Tech programs, they’re building strong foundations for future success.

Confidence-First Learning – I’ll make sure you’re not just understanding concepts but owning them. Through hands-on practice, relatable examples, and personalized feedback, we’ll make knowledge stick!

🧑‍🏫 My Approach:

Build the Base – We’ll start by breaking down each concept into simple, digestible parts so you get a rock-solid understanding from the ground up.

Practice, Practice, Practice – Each subject includes specially chosen practice problems that bring concepts to life and make them unforgettable.

Support You Can Count On – I’m here for you every step of the way, ready to help, answer questions, and cheer you on.

📚 Subjects I Teach:
Core EC Mastery: Digital Signal Processing, Control Systems, Analog and Digital Electronics, VLSI & CMOS, Microprocessor & Microcontroller, Information Theory & Coding, Wireless and Satellite Communication, Cryptography, Data Communication Network, and more!

Ready to transform your learning and boost your confidence in Electronics & Communication Engineering?
Let’s team up to make it happen. Your success starts here!

Subjects

  • Digital Signal Processing Bachelors/Undergraduate

  • Control Systems Bachelors/Undergraduate

  • Analog Electronics Bachelors/Undergraduate

  • Digital Electronics Bachelors/Undergraduate

  • VHDL Bachelors/Undergraduate

  • Network analysis Bachelors/Undergraduate

  • Electronics and Communication Engineering Bachelors/Undergraduate

  • Signals and Systems Bachelors/Undergraduate

  • VLSI and CMOS Bachelors/Undergraduate

  • Cryptography Bachelors/Undergraduate

  • Digital system design Bachelors/Undergraduate

  • Fourier Analysis / Signals and Systems Bachelors/Undergraduate

  • Electronic devices and circuits Bachelors/Undergraduate

  • Basic circuit analysis Bachelors/Undergraduate

  • Information theory and coding Bachelors/Undergraduate

  • Microprocessor and Microcontroller Bachelors/Undergraduate

  • Analog Electronic Circuits Bachelors/Undergraduate

  • Wireless Communication Bachelors/Undergraduate

  • Analog filter design Bachelors/Undergraduate

  • Digital Electronics and Analog Electronics Bachelors/Undergraduate

  • Electrical Technology Bachelors/Undergraduate

  • STLD (Switching Theory and Logic Design) Bachelors/Undergraduate

  • Linear Integrated Circuit Bachelors/Undergraduate

  • Digital Circuit Design Bachelors/Undergraduate

  • Analog and Digital communication Bachelors/Undergraduate

  • Data Communication Network Bachelors/Undergraduate

  • Satellite Communication Bachelors/Undergraduate

Experience

  • Faculty (Mar, 2019Present) at Modulation Academy
    I teach the B,Tech and M,Tech Electronics and communication engineering subjects Online and Offline.
  • Faculty (Feb, 2017Feb, 2019) at Raj Engineering Academy Delhi
    I conduct the regular classes for the GATE, PSUs, SSC-JE, and B.TECH in Raj Engineering Academy.
    I have been working in Raj Engineering Academy for February, 2017.

Education

  • M.TECH (Aug, 2019May, 2021) from Maharishi Dayanand University, Rohtak
  • Electronics and Communication Engineering (Aug, 2012Jul, 2016) from Mizoram Universityscored 85.5%

Fee details

    1,5003,500/hour (US$17.6941.27/hour)

    For Diploma students the minimum fee is 1000-2000 rupees per hour.

Courses offered

  • Digital Electronics

    • US$100
    • Duration: 40 Hours
    • Delivery mode: Online
    • Group size: 11 - 20
    • Instruction language: English
    • Certificate provided: No
    A course in Digital Electronics typically covers the fundamentals of digital circuits and systems, which form the basis for modern electronic devices and computer systems. This course introduces students to the concepts, principles, and techniques used in designing, analyzing, and troubleshooting digital circuits. Here's a general overview of what a Digital Electronics course might cover:

    Course Title: Digital Electronics

    Course Description:
    Digital Electronics is an introductory course that explores the fundamental concepts underlying digital circuits and systems. The course focuses on understanding the building blocks of digital circuits, their applications, and the design methodologies used in modern electronics. Students will learn how to design, analyze.

    Course Topics:

    Introduction to Digital Systems:
    Digital vs. Analog signals
    Binary representation and number systems
    Basic logic gates and truth tables

    Combinational Logic:
    Boolean algebra and logic simplification
    Karnaugh maps (K-maps) for logic minimization
    Combinational circuit design using logic gates
    Multiplexers and demultiplexers
    Adders and subtractors

    Sequential Logic:
    Flip-flops: SR, D, JK, and T flip-flops
    Latches and flip-flop applications
    Sequential circuit analysis and design
    Counters and shift registers

    Memory and Storage:
    Introduction to memory elements
    Read-only Memory (ROM) and Random Access Memory (RAM)
    Memory organization and address decoding
    Programmable Logic Devices (PLDs)

    State Machines and Digital Logic Families:
    State diagrams and state tables
    Designing finite state machines
    Introduction to digital logic families (TTL, CMOS, etc.)

    Digital Integrated Circuits:
    Basic characteristics of digital ICs
    Design considerations and fan-out
    Timing diagrams and propagation delay

    Digital System Design:
    Introduction to digital system design methodologies
    Combinational and sequential system design
    Synchronous vs. asynchronous systems

    Course Objectives:
    By the end of the course, students should be able to:

    Understand the basic principles of digital electronics and binary representation.
    Design and analyze combinational and sequential logic circuits.
    Apply Boolean algebra and logic minimization techniques to simplify logic expressions.
    Design and implement simple finite state machines.
    Demonstrate knowledge of various digital logic families and their characteristics.

    Assessment:
    Assessment methods may include assignments, quizzes, laboratory experiments involving circuit construction and testing, mid-term exams, and a final project that requires students to design and implement a more complex digital circuit.

    Please note that the specific topics covered and the depth of each topic may vary depending on the institution offering the course and the level of the course (e.g., introductory, intermediate, advanced).

  • Analog Electronics

    • US$120
    • Duration: 45 Hours
    • Delivery mode: Online
    • Group size: 11 - 20
    • Instruction language: English
    • Certificate provided: No
    Course Description:

    The Analog Electronics course provides students with a comprehensive understanding of the fundamental principles, theories, and practical applications of analog electronic circuits. This course is designed to equip students with the knowledge and skills necessary to analyze, and design analog electronic circuits commonly used in various industries including telecommunications, instrumentation, power systems, and consumer electronics.

    Course Outline:

    Module 1: Introduction to Analog Electronics

    Historical development and significance of analog electronics.
    Comparison between analog and digital systems.
    Basic components: resistors, capacitors, inductors, and operational amplifiers (Op-Amps).

    Module 2: Semiconductor Physics and Diodes

    Semiconductor materials: intrinsic and extrinsic semiconductors.
    Diode operation and characteristics.
    Diode applications: rectification, clipping, clamping, and voltage regulation.

    Module 3: Bipolar Junction Transistors (BJTs)

    BJT operation modes: active, cut-off, saturation.
    BJT configurations: common emitter, common base, common collector.
    Small-signal model and analysis.
    BJT amplifier circuits.

    Module 4: Field-Effect Transistors (FETs)

    FET operation: enhancement mode and depletion mode.
    FET types: JFET (Junction Field-Effect Transistor), MOSFET (Metal-Oxide-Semiconductor FET).
    FET characteristics and applications.

    Module 5: Amplifiers and Feedback

    Amplifier classifications: voltage, current, and transconductance amplifiers.
    Amplifier frequency response and bandwidth.
    Negative feedback and its advantages.

    Module 6: Operational Amplifiers (Op-Amps)

    Ideal Op-Amp characteristics.
    Inverting and non-inverting amplifier configurations.
    Op-Amp applications: summing amplifier, difference amplifier, integrator, differentiator.

    Module 7: Power Amplifiers

    Class A, B, AB, and C amplifier configurations.
    Efficiency, distortion, and linearity in power amplifiers.
    Push-pull and complementary symmetry amplifiers.

    Module 8: Oscillators and Waveform Generators

    Oscillator principles and types: RC oscillators, LC oscillators, crystal oscillators.
    Voltage-controlled oscillators (VCOs).
    Function generators and their applications.

    Module 9: Filters and Signal Processing

    Passive and active filters: low-pass, high-pass, band-pass, and band-stop.
    Frequency response and filter design.
    Signal shaping and modulation.

    Assessment Methods:

    Assessment in the Analog Electronics course will be conducted through a combination of quizzes, assignments, laboratory reports, midterm exams, and a final project. The project will involve designing, building, and testing an analog electronic circuit with practical applications.

    Prerequisites:

    A solid understanding of basic electrical concepts, including voltage, current, resistance, and Ohm's law, is recommended. Basic algebra and calculus knowledge will be beneficial for understanding certain topics, but the course will provide necessary mathematical background as needed.

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