Understanding Basic Electronics is Easy

Yes, basic electronics is easy. As long as you don’t make it complicated (which many unfortunately do).

An electrical current is the flow of electrons in a wire. Electrons flow when you have a “closed loop” – a path from the negative to the positive terminal of a battery.

Basic electronics - current flow

For example, if you connect a small light bulb to the positive and the negative side of a battery, you will get a closed loop where electrons can flow and make the lamp shine.

“Electronics” control electrical currents by combining different components.

What is Basic Electronics?

Many think that basic electronics has to do with the physics of how electrons move. But that’s particle physics, not electronics!

You can learn the basics of electronics by learning this:

  • The basics of current and voltage
  • How the most common basic components work
  • How electronic schematics work
  • How to build circuits from schematics
Ohms law cartoon

The Basics of Current and Voltage

The biggest misunderstanding about electric current is that current can be “used up”. Current is never “used up”! The current flowing out of the battery is exactly the same as the current flowing back into the battery!

Check out our article What Is Electric Current? to learn more.

As for voltage, it’s important to know that voltage is always measured between two points. Yes, sometimes we say that the voltage at this point is X, but it’s always implied that it’s compared to a reference, such as the minus terminal of the battery.

The second point about voltage is that the applied voltage to a circuit is always the same as the sum of the voltage drops. So if you have a circuit with a 9V battery that connects to a resistor and a Light-Emitting Diode (LED), and you know that the voltage across the LED is 2V, then the remaining 7V WILL drop across the resistor.

If you know this about current and voltage, then you know the basics. This is the basis of Kirchhoff’s Laws of Voltage and Current.

Basic Electronics Components

There are many basic electronic components available to enable different types of functions in your circuit.

Three of the most important components are the resistor, the transistor, and the capacitor.

Illustration of basic electronics components: transistor, capacitor, and resistor

A resistor doesn’t “do” anything actively. But you use it to set the right current or voltage level.

With a transistor, you can amplify your signal, invert your signal, or lots of other stuff. Transistors make up logic gates which make up all digital electronics such as a processor in a computer.

Capacitors are like tiny batteries. They are often used to introduce time delays into a circuit.

Practice building simple circuits with all the basic electronic components, and learn how voltages and current behave with them. Then you have this step nailed down.

How Schematic Diagrams Work

To make any electronic circuit, you start with a schematic diagram. A schematic is a drawing of a circuit. It tells you which components are needed and how to connect these components.

Example of a schematic diagram

You can either design your own schematics or find free schematics available online.

The lines between the components tell where you need to make connections to build this circuit. Here’s a quick video about how schematics work:

Understanding and Designing Your Own Schematics

To understand what a specific schematic does, and eventually be able to design your own, it’s good to expand your knowledge with additional electronics theory.

You should at least know how to work with series and parallel circuits.

And it’s really useful to know the basic electronics formulas:

Knowing this will let you do things like calculate resistor values for different parts of your circuit, simplify complicated circuits, and be able to “see” what a circuit does much quicker, without doing a lot of analysis.

How to Build Circuits From Schematics

To build a circuit from a schematic, you have to create the same connections that are on the schematic in real life. You can do this with wires, using a breadboard, a perfboard, a stripboard, or create your own printed circuit board.

Basic electronics skills: Building circuits from schematic
Schematic on the left, real circuit on the right

The first step to getting started building circuits is to get a breadboard and just build lots of circuits on it for practice. It’s a lot of fun, and it helps a lot in understanding circuits as well.

Designing Your Own Circuit Boards

From the schematics, you can also design a printed circuit board if you want. You do this by drawing the wires from the schematics and placeholders for the different components.

PCB design layout of a stereo amplifier board

Then you create your circuit board by one of the following methods:

  • Manufacturer
  • Etching
  • CNC milling

When your circuit board is created, you solder your components onto the board. Voila! Your electronic circuit is complete.

Basic Electronics Summary

In this guide, I’ve covered the essentials of basic electronics, and it comes down to:

  • Understanding current and voltage.
  • Understanding key components like resistors, transistors, and capacitors.
  • Knowing how to read and design schematic diagrams.
  • Knowing how to build circuits from schematics.

By focusing on these concepts and practicing building circuits, you’ll quickly build a good foundation in electronics. And you’ll be ready to begin designing and building your own electronic projects in no time!

More Basic Electronics Tutorials

16 thoughts on “Understanding Basic Electronics is Easy”

  1. Electrons flow when you have a “closed loop” – a path from the positive to the negative terminal of a battery.

    should be

    Electrons flow when you have a “closed loop” – a path from the negative to the positive terminal of a battery.

    Reply
    • Edit:
      Thanks for your input!

      You are right that the electrons (negative charges) flow from the negative to the positive side. But current can also flow as positive charges and in this case they flow the other way. The conventional current flow is defined from positive to negative (ref: http://en.wikipedia.org/wiki/Electric_current#Conventions)

      But in the end it doesn’t matter as long as you choose one for your calculations.

      Reply
  2. when using resistors, lets say i have a positive wire and negative ran to a battery do i need to to put a resistor on both the + and the – or just one.

    Reply
  3. Thank you for the time and effort you freely give of yourself to maintain this informative web site. I believe there are certain educational misconceptions whereby a person may not have access to particular courses of their desire based on substandard communicative abilities. There exist antiquated guidelines and perceptions in the educational system in the US. Children and young adults are demeaned and labeled, ie; “learning DISABILITY”, Attention DEFICIT DISORDER”…etcetera”. I don’t know of any benefit there is by calling a child disabled especially when it’s not a disability yet rather an ability, an ability to learn in an uncommon manner. Personally, I have found many of the children labeled as such exhibit remarkable hand I coordination and have many natural skills or abilities far exceeding those who are not labeled as learning disabled. Therefore, I recognise and commend your ability to explain basic electronics in a “plain english” style. Thank you, again!
    P.S. Although it is essential to correct any errors or misstatements when referring to an electronic function, it is not so vital your grammar be judged so harshly by others ;/ they should probably cut you a little slack huh?
    p.p.s. look forward to perusing more of your helpful site

    CHAZ III 66

    Reply
    • It’s important to diagnose people with learning impairments to get them the services they need to compete like everyone else, not to make them “different.”

      I would have very likely benefitted from extra services in school for attention defecit issues even though I have ended up with a professional career, and things still panned out for me. I’d be a lot more successful at this point if people knew how to diagnose these issues when I was growing up.

      Reply
  4. does that your text book Getting Started With Electronics have a hard copy of it, if so how can I get it.
    Glad to hear from u.
    Anointing.

    Reply
  5. Are there places that sell complete training course (in home) and give you projects to assemble such as o scopes, multi meters, etc.
    I have an associates in electronic I got about 37 yrs ago and never used it. I am now retired and would like to pursue it as a hobby.

    Reply

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