Kicad Templates
Revision as of 22:59, 22 January 2022 by U731219879 rc (talk | contribs)
(Updated 1/22/2022)
This wiki document is an example of how to create Kicad Templates.
The steps are the same for Kicad Versions 5 and 6. Any template created in Kicad 5 will not work in Kicad 6 without converting the files. You don’t need to follow the files system structure I used in this this example. I have selected this file system method for personal ease of use on my Raspberry Pi 4 This document was written to support Kicad 5.X but can be used with Kicad 6.X The same process works for other Linux and Windows versions. As of the time of writing this document (January 2022) there was not a Kicad Version 6 for the Raspberry Pi.
Set or Change the Path for User Templates in Kicad Example 1: Using the defaults.
Open Kicad Select: Preferences Tab Select Configure Paths : | Name | Path | Select: | KICAD_USER_TEMPLATE_DIR | /home/pi/kicad/template | Create the needed folders for Version 5: mkdir /home/pi/kicad/template. Windows Note: Kicad 6.0 has already created the folders needed for templates C:\Users\username\Documents\KiCad\6.0\template\ No need to change the path for Windows Versions.
Set or Change the Path for User Templates in Kicad Example 2: Creating your own user path.
In your home directory create a directory named Kicad-projects. mkdir /home/pi/Kicad-projects Then CD to your new directory. cd Kicad-projects In the Kicad-projects directory make another directory named kicad-templates. mkdir kicad-templates or mkdir /home/pi/Kicad-projects/kicad-templates Open Kicad Select: Preferences Tab Select Configure Paths : | Name | Path | Select: | KICAD_USER_TEMPLATE_DIR | /home/pi/kicad/template | Under Path column change to: /home/pi/Kicad-projects/Kicad-templates
Start Project
Open: KiCad Select: File, Click on: New, Click on: Project Select: Kicad-Projects folder Select: Kicad-templates folder Enter project name: 50mmX50mm-Template Click on: Save Select: Schematic Layout Editor New users note Configure Global Symbol Library Table will appear. Select: Copy default global symbol library table (recommended) Click: OK
Setup the Schematic Page layout
Select: File tab: Page Setting or Click on Edit Page settings Icon. Change Paper size to A 8.5 X 11 Update Title Block fields
Configure the Schematic Grid size
Select: View: Grid Settings Note: Kicad Version 6 has changed this to Grid Properties. Set to appropriate size
Start editing in the schematic
Select : Place Symbol Icon on right side tool bar. Click in schematic work sheet area. A window called Choose Symbol will open. In search filter enter mount. Select: MountingHole_Pad Mounting Hole with connection. Place Mounting Hole on schematic work sheet area. Click on Select item icon on right side tool bar. (Looks like mouse cursor) Hover over mounting hole pad and hit the “C” to Copy. Note: ver6.0 use: “Control C” Repeat two more times. You should now have 4 Mounting Holes. Select: Place graphic lines or polygons icon on right side tool bar. Draw square around the 4 mounting holes. Select: Annotate schematic symbol Icon on top tool bar. Click: on Annotate tab then close Click: Save Icon on top tool bar to save drawing.
Assign footprint to schematic symbols
Select: Assign footprint to schematic symbols icon on top tool bar. New users note: Configure Global Footprint Library Table Select: Copy default global footprint library table (recommended) Select: MountingHole From drop down menu Select: MountingHole_3.2mm_M3_Pad_Via Click: Apply, Save Schematic & Continue. Click: OK Select: Generate netlist icon on top tool bar. Select: Generate netlist in Netlist window. Note for Kicad Version 6: The Netlist is created automatically so this part can be skipped. Click Save in file window.
Creating the PCB
Select: Run Pcbnew to layout printed circuit board icon on top tool bar New users note: Enable Graphics Acceleration window popup. Select: Enable Acceleration
Setup the PCB Page layout
Select: File tab: Page Setting or Click on Edit Page settings Icon. Change Paper size to A 8.5 X 11 Update Title Block fields
Configure the PCB Grid size
Select: View: Grid Settings Note: Kicad Version 6 has changed this to Grid Properties. Select under Fast Switching: Grid 1 In the drop down menu Select: Grid: 2.5400 mm (100.00 mils) Select under Fast Switching: Grid 2 In the drop down menu Select: Grid: 1.0000 mm (39.37 mils) Click OK Hold down the alt key and hit the 1 key to change Grid to Grid: 1.0000 mm (39.37 mils)
Start editing the PCB Layout
Select: Load Netlist icon on top tool bar. Click on: Browse icon and select: 50mmX50mm-Template.net. Click: Open Select: Update PCB in Netlist window. Click Save in file window if you want the report file otherwise select Close. Place Mounting Holes in the middle of the worksheet. Select: Grid 1.0000mm 3937(mils) drop down menu on top tools bar Select: Edge.Cuts in the Layers Menu right side. Select: Add Graphics Lines right side tool bar. Click in top left corner of a 10mm square and draw a 50mm X 50mm square. Select: F-Silks in the layer menu right side tool bar. Select: Add Graphics Lines right side tool bar. Draw the 4 Cross-hairs. One in each corner. Select: Edge.Cuts in the Layers Menu right side. Select: Add Graphics arc right side tool bar. Add the Arc to each corner of the board. Move the corner edges back to Arc. Test Board edge cut with ALT 3 3D View. Move Mounting Holes to each corner and align with cross hairs. Add Silk layer graphics to board by selecting: Add text on copper layer or graphics text icon on right side tool bar. Save file
Change the Path for User Templates in Kicad
Open Kicad Select: Preferences Tab Select Configure Paths Select: KICAD_USER_TEMPLATE_DIR /home/pi/kicad/template Under Path column change to: /home/pi/Kicad-projects/Kicad-templates