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Insert a type 1N4148 diode in series with the LED+resistor circuit for our signal wire, as shown. We'll go over why this addition to the basic LED circuit needed. The 1N4148 is found under the “diode” library category in the “add part” dialog.

Add another LED and resistor, from the +5v power to ground (or copy those parts from the ones already on the schematic for the signal wire). This LED will light up whenever the power is on, which is another useful debugging tool. Note that there's no extra diode here.

Add two more generic 1×3 connectors over on the right side. their pin connections are all the same as the one that's already there. Either draw the wire connections, or use new power symbols for each one, your choice.

Use the menu “Tools → annotate schematic.” look over the default settings, but just hit OK. Notice that instead of “R?” and “D?” we now have R1, R2, D1, D2, J1, J2, etc.

Resistors: edit component, then change R_US to the value “2.2K” which means 2.2 kilo-ohms or 2200 ohms.

When we placed our LEDs, we picked one that looked good, but had a part number and footprint that isn't quite what we want. Its still an LED, but we need to fix it up too.

Change the value of the LED for the signal wire to “5mm_RED”. Change the value of the LED for power to “5mm_YELLOW”.

Continue by assigning fooprints on the kicad cvpcb page.

After doing footprint assignment, don't forget to save!

The last step do be done in the schematic editor is creating the netlist. Push the green Create Netlist (“Net”) button, and accept the default name. that's it! you should be able open up the pcb editor, hit “read netlist”, and see all of your parts.