Pico Popn - Pop'n Music Controller

Features:

• It's tiny.
• 1000Hz polling rate.
• HID lights (9 button lights and Logo RGB).
• RGB rainbow effects.
• Light brightness control (v1.2+).

overal.mp4

lighting.mp4

Thanks to:

• SpeedyPotato, for his great SDVX pico project which inspired me in the first place. I also got many materials from his repo. Check out his great projects: https://github.com/speedypotato.
• CrazyRedMachine, I got panel arts from his SVG files: https://github.com/CrazyRedMachine/PopnPanel.
• Many respectful guys/companies who made their tools or materials free or open source (KiCad, OpenSCAD, InkScape, Raspberry things).

Notes

For builds v1.1 and earlier, you need to do a small modification and the main PCB to get brightness control with latest firmware. See the bottom of this document.

You can check out my other cool projects.

• IIDX Pico: https://github.com/whowechina/iidx_pico

• IIDX Teeny: https://github.com/whowechina/iidx_teeny

• Chu Pico: https://github.com/whowechina/chu_pico

• Mai Pico: https://github.com/whowechina/mai_pico

HOW TO BUILD

Step 1 - Buy

• Place order at jlcpcb.com for PCB and plate. Gerber zip files are /PRODUCTION/PCB.zip and /PRODUCTION/PLATE.zip. Leave everything default in JLC's ordering page (board thickness is 1.6mm). Choose what ever color you like, I prefer white.
  

• Order 3D printing service for the case, FDM with transparent PETG filament or SLA with half-transparent resin. If you own a 3D printer, do it yourself. The file is /PRODUCTION/pico_popn_case.stl.
  

• Buy other components (get few more for tolerance):

  • 1 * Raspberry Pi Pico (https://www.raspberrypi.com/products/raspberry-pi-pico/)
  • 9 * Gateron Hotswap Sockets (https://www.gateron.co/products/gateron-hot-swap-pcb-socket)
  • 9 * Gateron 3.4mm-travel switches (I prefer Box CJ Switch, https://www.keychron.com/products/gateron-box-cj-switch)
  • 1 * USB Type-C socket (918-418K2023S40001 or KH-TYPE-C-16P)
  • 10 * WS2812B-4020 side-facing RGB LEDs
  • 9 * 2835 white LEDs (0.2W or 0.5W)
  • 10 * 0603 220ohm resistors
  • 2 * 0603 5.1kohm resistors
  • 2 * Tactile Switches (4.5x4.5x6.5mm or 4.5x4.5x7mm or KAN4542-0701C)
  • 4 * set of M3 screws/nuts/spacers (I'll explain later)
  • 9 * Keycaps (many choices I'll explain later)

Step 2 - Solder

• Use the smallest soldering iron tip you have.
• Use solder flux, always keep the pins "wet".
• Soldering iron temperature set to around 300°C.
• Use tweezers to hold components.
• Tricks for Type-C socket and 4020 RGB LEDs.
  • Put flux on all those small pins. Melt a tiny little bit solder (seriously very very little bit) at the iron tip. Then quickly solder the pins. Flux and very little bit solder is the key.
• 2 resistors near USB socket are 5.1k ohm, others are all 220ohm.
• Don't forget to solder 3 "holes" which connects to the Raspberry Pi Pico's USB pins.
  
• 4020 RGB LEDs are side-facing, don't make it "up-facing".
  
• They look like this when finish:
  

Step 3 - Firmware

• Use a USB cable to connect the PCB to a PC/Mac computer while pressing down the small button on Raspberry Pi Pico. An explorer window will pop up. If it doesn't show up, navigate to a disk labeled "RPI-RP2".
  
• Drag the UF2 file (/PRODUCTION/pico_popn.uf2) to the root of this new disk.
• The RGB lights will start rainbow effects.
• If it's not working, go back to Step 2 and fix it.

Step 4 - Assembly

• Insert 9 key switches into the plate, be careful, don't bend the leads.
  
• Put the PCB into the case.
• Gap between the plate and the PCB is about 3.4mm. There're many ways to fix and fasten boards and case. Here's my solution, I reprocessed the screws and spacers as they didn't come with proper length.
  
• Another way is to use a long M3 screw from top side and a nut at the bottom side. Between PCB and plate, use a 3.5mm length M3 spacer with no threads. You can also 3D print some spacers using provided /PRODUCTION/screw_spacer.stl.
• Don't forget get some anti-slip silicone pads.
  
• Almost done.
  

Step 5 - Keycaps

• If you have resin printer, you can make them by yourself.
  • Make half-transparent resin by mixing translucent and white resin (2:1) as the base resin.
  • Mix some drops of UV resin pigment, you can make all Pop'n Music button colors.
    
  • 3D file is /PRODUCTION/popn_keycap.stl or if you're using Chitubox - /PRODUCTION/popn_keycaps.chitubox. Orientation and support should be like this to get perfect button surface.
    
  • These are printed by my Elegoo Mars 3 Pro.
    
• There're many other choices.
  • Homemade bottle cover keycaps
    
  • Homemade coat buttons keycaps
    
  • DSA color keycaps
    
  • DSA transparent keycaps
    
  • MA color keycaps
    
  • XDA 1.5U color keycaps
    
  • About the homemade process.
  • I bought these inexpensive 3gram/5gram distribution bottles just to get the covers (28-30mm diameter).
    
  • Cut the shaft/socket out of regular transparent keycaps.
    
  • Drill some holes on them so later we can apply UV resin better.
    
  • Apply UV resin, glue the socket and the cover together.
    
  • Don't forget alignment.
    
  • After cured by UV light, they look like this:
    

Modification for v1.1 and earlier PCB

In the first version of main PCB (v1.1 and earlier) I chose a wrong GPIO for the button 9 LED which caused a PWM conflict. To support brightness and fading control, that must be fixed.
The idea is to cut the old LED 9 track and wire it to a different pin (GPIO18). The blue * mark in the picture means "to cut the track" and the red * mark means "to solder".
If you don't need brightness and fading control, you don't need make this modification, just use v1.1 firmware. Sorry for the mistakes I made.