Tutorial: Printed-Circuit Boards
--D. Thiebaut 12:37, 20 June 2011 (EDT)
|This tutorial provides the series of steps required to go from schematics to a printed-circuit board (PCB) layout that can be sent away to a fabrication lab for manufacturing. The lab used in this tutorial is pcbexpress.com.
The process illustrated below is certainly not that of an expert, but my recorded first attempt at generating a PCB layout from simple schematics. Feel free to edit or send comments and suggestions to firstname.lastname@example.org . Many thanks to Paul Voss for showing me the whole process first and spending time going over each one in details.
I love these atricles. How many words can a wordsmith smith?
- First create schematics with TinyCAD
- Then route the lines on a 4-layer board with FreePCB
- Check the CAM files generated by FreePCB with ViewMate, and get a direct quote from PCBExpress.
- We'll create a PCB for the following simple circuit taken from seekic.com:
These pieces rellay set a standard in the industry.
Generate the Net-List File
- Using the top menu, click Special, Create PCB Net List, select PADS-PCB for the format, and save to file.
- You should get the following output:
- You are now ready for the second step
- The official manual for FreePCB is a Must-Read and can be found here.
- Open FreePCB
- From the menu, File, New, and create a new project
- Name: oscillator
- Layers: 2 (sufficient for right now)
- accept all the other default value
- Click Ok
- You should be presented with an empty grid:
- Create the outline of your board. This can be any polygone shape you can define by consecutive points.
- From the top menu, click Add, Board Outline, then click points on the grid to create a rectangle. Don't worry about the size yet, all the points can be moved in or out later to create as tight a layout as you wish.
- Make sure your last point coincide with your first point.
Import the Net List file
- From the main menu, browse around your file system and pick the oscillator.net file created by TinyCAD in the steps above.
- FreePCB should show the parts and rat wires connecting the different parts of your circuit:
- Click on each part and use F4 (Move Part) to move the parts in a layout that minimizes rat lines crossings.
Adding New Elements
- Add two mounting holes for connecting the power to the board: from the menu select Add, Part, th_mounting_hole and pick two circular holes, making sure you give a reference to both of them (we use P1 and P2 here, for Power).
- Add the text "+5V" next to one of the just added mounting holes using the Add, Part, and Text menu options.
Converting Rat-Lines to Copper Traces
- For this project we selected only 2 different copper layers. We'll create traces on the top layer, and reserve the bottom layer for Ground.
- In the leftmost column, select the top copper [1*] so that the white arrow points to it.
- Click on a rat-line, highlight it, and press the F4 key, or click on Route Segment to create a trace. The rat line disappears and is replaced by a green trace (top layer traces are green).
- Repeat the process until all the rat-lines have been replaced by traces, as illustrated below.
Adding Power Connections
- We now add traces from the two Power Connecters to the 7404 power pins. For the +5V connection, we add a trace, and for Gnd, we use a copper area on the bottom copper layer.
- Add, Net, pick a net name not already in used (e.g. N00000), then click on the Power Connector next to the +5V silk screen text, then click on Connect Pin; a rat line appears. Connect the rat line to Pin 14 (top-left) of the U1 circuit.
- Deselect the rat line, top silk, and top copper
- Add, Copper Area, pick a net name not already in used (e.g. N00001), and bottom copper
- create a polygon that covers most of the board, and overlaps only Pin 7 of the 7404, and the GND connector.
Real brain power on display. Thanks for that awnser!
Create CAM Files
- Create the files that will be used to generate the PCB using the File, Generate CAM Files menu options.
- These files are available in this tgz archive file.
- This step is to verify the design to ensure that it can be manufactured, and to order boards if necessary.
- Start PentaLogix's ViewMate DFM program
- Import the gerber files into the program: File, Import, gerber and select the CAM files that are very likely stored in the FreePCB project directory, under oscillator or whatever name you used for your project.
- You may get some warnings. Just click Continue to move on to the next step. If you get errors, then you'd better address them and go back to the previous steps of the design!
- You should recognize the PCB layout you created in the previous steps.
- Click on Check your Design using Smart DFM
- A new window opens up.
- Select Manual and US Quick Turn PCBs
- Click Start
- Select 2 Layer PCB Option, and keep the other default values
- Click Next
- Accept the board thickness offered as default
- Identify the different layers as shown below:
- Accept the Positive polarity for all the layers
- Verify that you do not have errors in your layout.
|You should now be almost ready to order the board or boards from the form provided by PentaLogix. Happy soldering!|