PCB design to adapt a 64-pin TQFP part to a standard solderless breadboard.
Warning
Very much a work-in-progress and not tested by making a PCB yet.
Many modern chips are only available in surface-mount packages. Some have the audacity to have 64 pins, and not only that, pins on all four sides. How can we make such a heinous package fit onto a standard solderless breadboard?
This PCB design mounts the SMD part on a vertical board that plugs into a second board that fits on the breadboard. The vertical board has a rounded top, reminiscent of an igloo, hence the name.
This design has been created using the Open Source CAD package KiCad, V6.0.
To install it on Ubuntu Linux:
sudo apt install kicad
To make the snazzy 3D rendering work, install the additional package:
sudo apt install kicad-packages3d
I'm using Ubuntu 22.04 LTS which gives me KiCad V6.0. As I write this, the latest KiCad is V7.0, so I expect I'll upgrade when the next LTS release comes out.
Work-in-progress, showing routed tracks. The main TQFP footprint and the four connectors surrounding it have been rotated by 45 degrees before the tracks were routed to the connectors at the bottom. Those tracks are still a bit uneven, but they all connect correctly. Space at the curved top of the board may be adorned with LEDs, the bigger the better.
KiCad's 3D rendering of the PCB as it is so far. The portion on the right-hand side will be snapped off using mouse-bites and used to connect the main board to the solderless breadboard. Any colour LEDs may be fitted, up to 10mm in diameter. The user may choose to use female headers instead of male ones, or simply not fit headers at all if they're not needed. Brightly coloured headers are also optional.