Electronic Components, Devices and Circuits - Full Guide

Lean about what electronics is and how it looks. Understand that electronics is made of various components, devices and integrated circuits to form an electronics system that is assembled on printed circuit board

Lets have a look at the printed circuit board (PCB) and undertand how various components, devices and integrated circuit, (ICs) are mounted together to form a electronics system.

Lets have a look at the printed circuit board (PCB) and undertand how various components, devices and integrated circuit, (ICs) are mounted together to form a electronics system.

Lets have a look at the PCB of a modern electronics and see various electronics components in the surface mount  devices (SMD) form.

Understand what breadboard is and how to use it for electronics prototyping

In this video, we explore two fundamental electrical properties in physics and electronics—Resistance and Conductance. These concepts are crucial for understanding how electric currents behave in circuits. We'll cover their definitions, units of measurement, and the mathematical relationships between them. You'll also learn how resistances and conductances behave in series circuits through detailed examples and formulas. ? What is resistance? (measured in Ohms) ? What is conductance? (measured in Siemens) ? How are resistance and conductance related? ? Series connection of resistances and conductances ? Practical applications in circuit design

Understand what resistor is and its use in electronics. Know what colours on the body of resistor indicates.

Lets understand resistor and its relation with voltage and current in the circuit. Also have a look at the resistor symbol.

Learn how to use a colour code chart to determine the value of a resistors. Example given.

Example given to determine the value of a resistor from the colours printed on its body. Use the colour code again.

Understand the power dissipation in resistors. Know what size of a resistor to choose for electronics design.

Ohm's law explained with a example circuit. Lets do a basic analysis. Good for freshers.

Know the relation between voltage, current and resistance and how to calculate one from the other. Example given.

Variable resistor allows us to vary its resistance. A real electronic part is shown and explained how to vary its resistance and understand different pins of potentiometer.

Learn how to add resistance in series and in parallel .

An example is given to calculate effective resistance of this network.

An example is given to calculate effective resistance of this network.

This module shows you a giant 1 giga ohm resistor.

we dive deep into the concept of Electrical Resistivity and how it differs from Resistance. Using practical examples, we'll explore: ? The formula for resistivity and how it's calculated ? The difference between resistivity and resistance ? How materials like copper, rubber, and semiconductors behave under different conditions ? The relationship between resistivity, temperature, and material types (metals, semiconductors, insulators) ? Practical tips on understanding resistivity's impact on real-world applications By the end of this video, you’ll have a solid understanding of how resistivity affects the flow of current through different materials!

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How to decode the marking on capacitor ? | capacitor value capacitor data sheet capacitance value marking of capacitor capacitor code and tolerance how to read capacitor value How to decode the marking on capacitor ? | how to read capacitor value

Know about- Ideal capacitor, Practical model of a capacitor, voltage rating, temperature coeficient of a capacitor, effective series resistance, ESR,  effective series inducatance, ESL,  RP practical leakage resistance of capacitor

See how inductors work and produces magnetic field and voltages across the coil in which the current flows and it changes. This principle is called as faradays inducation law. unit of inductance is Henry, H. Property of inductor is an inducatnce.

See how charges flow into the circuit. The current flow is shown via animation. Positive and negative charge concepts are explained. The charge equation is given.

In this circuit via animation, we see the application of voltage source across the resistor causes current flow in the circuit. When the switch position is changed, a current source is applied across the resistor, and voltage is the result.

The key characteristics of series and parallel circuits. How current and voltage behave in each type of circuit. How to calculate equivalent resistance for series and parallel networks. Practical examples to help you apply these concepts in real-world situations. Whether you're a student, hobbyist, or professional in microelectronics, this video will enhance your understanding of essential electrical networks. Watch now to discover: Why current is the same in series circuits and voltage varies. Why voltage is the same in parallel circuits, but current is divided. Easy calculations for determining total resistance in both series and parallel circuits. Stay tuned for more engaging content in electronics, microchips, and nanotechnology. If you found this helpful, don’t forget to like, comment, and subscribe for more educational videos!

In this circuit, via animation, we understand kirchoff voltage law, commonly called KVL. We analyse this circuit through voltage drops across the loop and calculate all voltages and currents in the circuit.

We talk about the two most popular semiconductor materials - the Germanium and Silicon atomic models. We explain the concept of valence electrons, atomic number, orbits, and energy needed to librate electrons from the outermost shell of each of Ge and Si atoms.

We talk about the following in the context of semiconductor diode Ideal Diode I-V Curve Concept of Open and Short Circuit Forward and Reverse Resistance Forward and Reverse Bias

How to build circuits using breadboard, power supply and electronics components | prototyping Get verified ohm's lawa test and measure voltage, current and resistance in the circuits. Breadboard power supply 5V and 3.3V power supply regulated and resistor circuit calculate voltage, current, resistance and power in the circuit www.vpachkawade.com

Regulated power supply module | test and measurement - part 1 See how to inspect 3.3v and 5v regulated power supply pcb for your Breadboard hardware circuits and systems test and troubleshoot electronic components and devices Multimeter

Regulated power supply module | test and measurement - part 2 See how to inspect 3.3v and 5v regulated power supply pcb for your Breadboard hardware circuits and systems test and troubleshoot electronic components and devices Multimeter

Lets understand the components mounted on the PCB as shown.