17-09-2021

Eagle can export the individual files directly or export them as a pre-packed and gift-wrapped zip file. This zip file contains all the necessary manufacturing files and can be uploaded directly to most online interfaces like the Seeed Fusion PCB order page, or handed directly to your chosen manufacturer. Select File » Open » Job, and in your default EAGLE cam folder select the excellon.cam file, then select Open. You’ll now have a single Generate drill data tab available, which will grab the data from layers 44 Drills and 45 Holes, just what you need.

In this Gerber tutorial, I will teach you how to create the files you need for a 2-layer board using Cadsoft Eagle. After you have completed this tutorial you will have all the necessary files needed to send to most PCB manufacturers.

This tutorial is out of date. I have switched to KiCad, so I recommend the updated tutorial How to Create Gerber Files in KiCad.

Step 1: Open the CAM Processor

Open .pcb File In Eagle

In Eagle, open Board view. Click the “CAM” button or choose “File->CAM Processor”. This will open the CAM Processor tool that is used to generate the files.

Here you can define the sections you want to create files for.

But you don’t really need to understand this. Actually I have never really thought about the details of this until I was writing this article. I have just been using ready-made configurations. And that is probably what you want to do as well.

Step 2: Open a predefined job

To simplify creating Gerber files, Eagle comes with a predefined job for this. It is called gerb274x.cam.

(Note: If you want to order PCBs from Seeed Studio’s Fusion PCB service, you should instead download their own CAM-file from the bottom of their submission guidelines page. Be aware that this will give you different file names than the ones listed below in this article.)

To open it in the CAM Processor click “File->Open->Job…”

Browse to your …/eagle/cam/ folder, and you should see a file called gerb274x.cam. Choose it and click “Open”.

You will now see five tabs in the CAM Processor. Each of these tabs will generate a Gerber file.

Step 3: Adding a second silk screen (Optional)

If you look at the tabs, you will see that you don’t have a file for silk screen bottom. For simple boards, the silk screen is usually on the top layer so that you don’t need the bottom. Some of the cheap circuit board manufacturers don’t even allow bottom silk screen.

But if you need silk screen on bottom layer as well, follow these steps:

  • Click “Add”
  • Change Section to something like “Silk Screen SOL”
  • Change File to “%N.pls”
  • Deselect all layers
  • Select layers 20 “Dimension”, 22 “bPlace” and 26 “bNames”

There you go.

Step 4: Create each gerber file

Select where you want to put the Gerber files by clicking on the “File” button and choosing a folder. Do this for all the tabs.

Then click “Process Job”. This creates your Gerber files.

Step 5: Adding file for drill holes

Even though drilling is supported by the Gerber format, manufacturers usually want the Excellon file format for specifying drill holes. Luckily, Eagle also comes with a predefined job for creating a drill file.

(Note: This step is automatically done if you’re using the CAM-file from Seeed Studio that I linked to in step 2.)

Open it in the CAM Processor by clicking “File->Open->Job…”

Browse to your …/eagle/cam/ folder, and open the file named “excellon.cam”.

Select where to put the output file by clicking on the “File” button.

Then click “Process Job” to create your Excellon file.

Step 6: Check output files

You should now have the following files:

  • *.cmp (Copper, component side)
  • *.drd (Drill file)
  • *.dri (Drill Station Info File) – Usually not needed
  • *.gpi (Photoplotter Info File) – Usually not needed
  • *.plc (Silk screen, component side)
  • *.pls (Silk screen, solder side)
  • *.sol (Copper, solder side)
  • *.stc (Solder stop mask, component side)
  • *.sts (Solder stop mask, solder side)

After you have created each gerber file, you should always look at them using a Gerber viewer to make sure everything is ok.

Summary

This Gerber tutorial shows one way of creating the files you need. Even though this should be OK for many PCB manufacturers, you might find that some would want the files created in a slightly different way. If so, don’t worry, they will probably provide you with a Job file you can load directly into Eagle or at least have a good explanation on how to do it on their website.

Check out more articles on PCB design by clicking this link:
Return from Gerber File to PCB Design

Eagle Pcb Viewer

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Introduction

Printed circuit boards (PCBs) are the backbone of every electronic gizmo out there. They're not flashy like those microprocessors, or abundant like resistors, but they're essential to making all components in a circuit connect together just right.

We LOVE designing PCBs here at SparkFun. It's a love that we want to spread. It's a skill that benefits electronics enthusiasts of every caliber. Through this and a series of tutorials, we'll explain how to design a PCB using EAGLE -- the same software we use to design all of our PCBs.

This first tutorial goes over how to install the software, and tailor-fit its interface and support files.

Why EAGLE?

Pcb File Types

EAGLE is one of many PCB CAD softwares out there. So you might ask: 'What makes EAGLE so special?' We're fond of EAGLE for a few reasons in particular:

  • Cross-platform -- EAGLE can run on anything: Windows, Mac, even Linux. This is a feature not too many other PCB design softwares can boast.
  • Lightweight -- EAGLE is about as svelte as PCB design software gets. It requires anywhere from 50-200MB of disk space (compared to the 10+GB more advanced tools might require). The installer is about 25MB. So you can go from download to install to making a PCB in minutes.
  • Free/Low-Cost -- The freeware version of EAGLE provides enough utility to design almost any PCB in the SparkFun catalog. An upgrade to the next license tier (if you want to make a profit off your design) costs at least two orders of magnitude less than most high-end tools.
  • Community support -- For those reasons, and others, EAGLE has become one of the go-to tools for PCB design in the hobbyist community. Whether you want to study the design of an Arduino board or import a popular sensor into your design, somebody has probably already made it in EAGLE and shared it.

Of course, EAGLE has its drawbacks too. More powerful PCB design tools out there might have a better autorouter, or nifty tools like simulators, programmers, and 3D viewers. For us though, EAGLE has everything we need to design simple-to-intermediate PCBs. It's an excellent place to start if you've never designed a PCB before.

Recommended Reading

Here are a few tutorial and concepts you may want to familiarize yourself with before dropping down into this rabbit hole:

Download, Install, Run

EAGLE is available on Cadsoft's (the developer company) download page. Grab the most recent version that matches your operating system (the software is available for Windows, Mac and Linux). It's a relatively light download -- about 45MB.

EAGLE installs just like any old program, it'll self extract and then present you with a series of dialogs to configure the installation.

Licensing EAGLE

On the last screen of the installation process, you should be presented with a window like this:

Open Pcb File In Powerpoint

One of our favorite things about EAGLE is that it can be used for free! There are a few limitations to be aware of when using the free version:

  • Your PCB design is limited to a maximum size of 100 x 80mm (3.94 x 3.15in). 12.4 in2 of PCB real estate, which is still pretty darn big. Even if you're designing a big 'ol Arduino shield, you'll still be well under the maximum size.
  • Only two signal layers allowed. If you need more layers check into the Hobbyist or Standard licenses.
  • Can't make multiple sheets in your schematic editor.
  • Limited to email or forum support.
  • For non-profit use only. If you're going to go out and sell your design, maybe check into the 'Light' version of the software.

Those limitations still make EAGLE an amazing piece of software. Engineers here at SparkFun could design 99% of our boards using the freeware version, if not for that pesky non-profit stipulation. You still have access to all phases of the EAGLE software, including the Autorouter.

If you need to upgrade your license there are a few versions available. Most licenses are still incredibly low priced (in comparing to the other stuff out there).

Exploring the Control Panel

The first time you open up EAGLE, you should be presented with the Control Panel view. The Control Panel is the 'homebase' for Eagle, it links together all of the other modules in the software.

You can explore the six separate trees in the control panel, which highlight separate functions of the software:

  • Libraries -- Libraries store parts, which are a combination of schematic symbol and PCB footprint. Libraries usually contain a group of related parts, e.g. the atmel.lbr stores a good amount of Atmel AVR devices, while the 74xx-us.lbr library has just about every TTL 74xx series IC there is.
  • Design Rules (DRU) -- Design rules are a set of rules your board design must meet before you can send it off to the fab house. In this tree you'll find DRU files, which are a a pre-defined set of rules.
  • User Language Programs (ULPs) -- ULPs are scripts written in EAGLE's User Language. They can be used to automate processes like generating bill of materials (bom.ulp), or importing a graphic (import-bmp.ulp).
  • Scripts (SCR) -- Script files can be used to customize the EAGLE user interface. In one click you can set the color scheme and assign key bindings.
  • CAM Jobs (CAM) -- CAM jobs can be opened up by the CAM processor to aid in the creation of gerber files.
  • Projects -- This is where each of your projects are organized into a single project folder. Projects will include schematic, board design, and possibly gerber files.

If you select a file in a tree, information about it will appear in the right-hand portion of the window. This is a great way to explore libraries, project designs (EAGLE comes with some fun examples), or to get a good overview of what a script's purpose is.

Using the SparkFun Libraries

Included with EAGLE is an impressive list of part libraries, which you can explore in the Control Panel view. There are hundreds of libraries in here, some devoted to specific parts like resistors, or NPN transistors, others are devoted to specific manufacturers. This is an amazing resource! But it can also be a bit overwhelming. Even if you just want to add a simple through-hole electrolytic capacitor, there are dozens of libraries and parts to sort through to find the right thing.

Instead of using the hundreds of default libraries, you can use the SparkFun EAGLE Libraries, which are filtered down to only include the parts that we've used in designs ourselves. And they're constantly updated with new parts we've discovered.

Here's how you can install and use the SparkFun libraries instead of (or in addition to) the default ones:

Step 1: Download the SparkFun Libraries

The most recent version of the libraries can always be found in the GitHub repository. For help using GitHub, check out our Using GitHub tutorial. Basically, all you'll need to do from the main repository page is click 'Download ZIP'.

Save the ZIP file somewhere handy. Then extract the folder -- don't forget where it is!

Step 2: Updating the Directories Window

Back to the EAGLE Control Panel window now. Go to the 'Options' menu and then select 'Directories'. This is a list of computer directories where EAGLE looks when it populates all six objects in the tree view...including libraries.

In the 'Libraries' box is where we'll add a link to the directory where the SparkFun EAGLE libraries are stored. There are a few options here. If you'd like to keep the default libraries and add the SparkFun library, add a semicolon (;) after '$EAGLEDIRlbr', and paste the SparkFun EAGLE Libraries directory location after that.

Note: Mac and Linux users should place a colon (:) between directories instead of the semicolon.

Step 3: 'Using' Libraries

Now, when you go back and look at the 'Libraries' tree, there should be two folders included, one of which should be our SparkFun Eagle Libraries. The last step is to tell EAGLE that, for now at least, we don't want to use the default libraries. To do this, right click on the 'lbr' folder, and select 'Use none'.

Then, right-click on the 'SparkFun-Eagle-Libraries-master' folder, and select 'Use all'. Then check the libraries in each of the two folders. Next to them should be either a grey or green dot. A green dot next to a library means it's in use, a grey dot means it's not. Your libraries tree should look a little something like this:

If you've created library parts that you would like to share with SparkFun to include in our Eagle library, visit this tutorial to see how.

Opening a Project and Explore

EAGLE is packaged with a handful of nifty example PCB designs. Open one up by expanding the 'Projects' tree. From there, under the 'examples' folder open up the 'arduino' project by double-clicking the red folder (or right-clicking and selecting 'Open project'). Note that, in this view, project folders are red and regular folders are the standard yellow.

Opening the project should cause two more EAGLE windows to spawn: the board and schematic editors. These are the yin and the yang of EAGLE. They should be used together to create the finished product that is a functional PCB design.

Schematic (left) and board editors both open. Click to embiggen.

The schematic editor (on the left above) is a collection of red circuit symbols which are interconnected with green nets (or wires). A project's schematic is like the comments in a program's code. It helps tell the story of what the board design actually does, but it doesn't have much influence on the end product. Parts in a schematic aren't precisely measured, they're laid out and connected in a way that's easy to read, to help you and others understand what's going on with the board design.

The board editor is where the real magic happens. Here colorful layers overlap and intersect to create a precisely measured PCB design. Two copper layers -- red on top, blue on the bottom -- are strategically routed to make sure different signals don't intersect and short out. Yellow circles (on this design, but they're more often green) called 'vias' pass a signal from one side to the other. Bigger vias allow for through-hole parts to be inserted and soldered to the board. Other, currently hidden, layers expose copper so components can be soldered to it.

Keep Both Windows Open!

Both of these windows work hand-in-hand. Any changes made to the schematic are automatically reflected in the board editor. Whenever you're modifying a design it's important to keep both windows open at all times.

If, for instance, you closed the board window of a design, but continued to modify a schematic. The changes you made to the schematic wouldn't be reflected in the board design. This is bad. The schematic and board design should always be consistent. It's really painful to backtrack any changes in an effort to reattain consistency. Always keep both windows open!

There are a few ways to tell if you don't have consistency between windows. First, there's a 'dot' in the lower-right hand corner of both windows. If the dot is green, everything is groovy. If the dot is magenta, a window's probably closed that shouldn't be. Second, and more obvious, if you close either of the two windows a big, huge warning should pop up in the other:

If you see that warning STOP doing anything, and get the other window back open. The easy way to get either a board or schematic window back open is by clicking the 'Switch to board/schematic' icon -- / (also found under the 'File' menu).

Navigating the View

This is a subject that's usually glazed over, but it's important to know how to navigate around both of these windows.

To move around within an editor window, a mouse with a scroll wheel comes in very handy. You can zoom in and out by rotating the wheel forward and backward. Pressing the wheel down, and moving the mouse allows you to drag the screen around.

If you're stuck without a three-button mouse, you'll have to resort to the view options to move around the editor views. All of these tools are located near the middle of the top toolbar, or under the 'View' menu. The zoom in -- -- and zoom out -- -- tools are obviously handy. So is the 'Zoom select' tool -- -- which alters the view to your selection. But really, if you're serious about using EAGLE...get a mouse!

Configuring the UI

EAGLE's user interface is highly customizable. Anything from the background color, to layer colors, to key bindings can be modified to fit your preference. Better tailoring your interface can make designing a PCB much easier. On this page we'll talk about how we at SparkFun prefer to customize our UI. None of these steps are required. Customize your UI as you see fit. These are just the settings that we've grown accustomed to.

Setting the Background Color

The first adjustment we always make to the UI is the background color of the board editor. The standard white background doesn't always meld very well with the array of colored layers required for board design. Instead, we usually opt for a black background.

To change the background color, go up to the 'Options' menu and select 'User interface'.

Inside the 'Layout' box you can set the background to black, white, or a specific color.

There are other options in this box to be explored, but you may want to hold off on adjusting most until you have more experience with the software.

Open

Adjusting the Grid

Another UI improvement we like to make in the board editor is turning the grid on. Dimensions and sizes are so important to the design of your PCB, having some visible reminders of size can be very helpful. To turn the grid view on, click the icon near the top-left corner of the board window (or go to the 'View' menu and select 'Grid').

Switch the 'Display' radio button over to 'On'. We'll also make the grid a bit less fine by setting the 'Size' to 100 mil (0.1') and 'Alt' to 50 mil (0.05').

Running Scripts

Scripts are a much more streamlined way to quickly configure your interface. With one click of the button, you can automatically set up all of your colors and key binds. Script files can also be shared, and run by anyone. Running the SparkFun EAGLE script will get your UI to exactly match ours.

First, click here to download the script (in a zip folder). Unzip the 'spk.scr' file to a location you'll remember.

Then you'll need to run the script. In the board window click on the Script icon -- (or go to 'File' then 'Execute Script'). In the file browser, select the 'spk.scr' file you just downloaded and unzipped.

This should automatically set up your color scheme to look a little something like this:

Eagle Pcb Download

This UI setup presents a nice logical view of the layers. The important copper layers are very visible, but distinct (red on top, blue on bottom, green for vias), and the silkscreen is white as it is on most PCB designs.

All of these colored layers will make more sense as you continue to use and explore EAGLE.

SparkFun Custom Eagle Settings

To find SparkFun's most up-to-date script, and other useful files, check out our EAGLE settings repository hosted on GitHub!

Resources and Going Further

If you've got EAGLE set up, and you're chomping at the bit to start designing a PCB, your next step should be over to our 2-part Using EAGLE tutorials: Using EAGLE: Schematic and Using EAGLE: Board Layout. That pair of tutorials will explain how to go from a schematic design, to laying out and routing a PCB, to generating gerber files and sending them to a fab house.

Or here are some other tutorials in our EAGLE series:

  • How to Create SMD PCBs -- This should logically follow the PTH EAGLE tutorial. It's a bit more advanced and fast-paced.
  • How to Create SMD Footprints -- If you want to create unique parts in a library, check out this tutorial.
  • Making Custom Footprints in EAGLE -- Another footprint-making tutorial. This one details a unique process for making a custom 1:1 footprint.