How to use Fritzing Software

Fritzing is a free tool that allows users to create clean and professional images of electronics projects for teaching or sharing. Fritzing is used in all of our intern-created projects, and I’m working closely with Fritzing.

As promised a couple of weeks ago, I’ve created a tutorial for designing circuits in Fritzing!

Step 1: Core Parts

The first step in creating a Fritzing image is to find the parts you want to use. Fritzing comes with core parts bin, a “my parts” bin, and many other parts bins from specific manufacturers.

The core parts bin is filled with many useful and generic parts. Here you can find things like LEDs, breadboards, connectors, and anything you might need other than manufacturer-specific boards.


Step 2: My Parts

The original my parts bin will be empty, but mine is full of Digilent parts I or other Digilent employees have created.

Step 3: Import Parts

If you would like to import Digilent or other user-created parts click on the drop down menu on the right side of the bar that says My Parts, and select import. Find the file on your computer and it will be in the bin ready for use. You can download many parts, including Digilent parts, from the User Parts Repository.

You can find all Digilent parts in the Github Repository. Feel free to follow theFritzing- Creating Your Own Parts Tutorial I’ve made and contribute the repository.


Step 4: BreadBoard View – Drag Parts

If you drag the any part onto the breadboard, Fritzing will automatically show you all the pins that are connected to that part in green. The blue and white LEDs in my sketch show this nifty feature. If you just place the LED on the grid, it will not be connected to anything, but don’t fret. We can always connect them with wires.

Step 5: Connect Parts

To connect a wire, click on the first pin you want to connect and drag it to the second one.

Step 6: Parts Inspector

Now our LED is connected to the breadboard! On the bottom right you can see the part inspector. This allows you to change certain features, such as wire color. The features will be different based on the specific part.

Step 7: Completed Circuit

Before we switch views, I’ll make a completed circuit. In breadboard view, it looks like this.

Notice that I have two separate circuits here, one using the Uno32 from Digilent and one using a battery pack. Using the Uno32 allows more control over the LED as can be seen here. Now we’ll shift to the schematic view. To change views, select the appropriate tab on the top of the sketch.



Step 8:

If you enjoyed this tutorial and want to get more information about this check out this link: