Thanks to many respectful guys/companies who made their tools or materials free or open source (KiCad, OnShape, InkScape, Raspberry things).
And thanks to community developers that inspired me and helped me: CrazyRedMachine (https://github.com/CrazyRedMachine), SpeedyPotato (https://github.com/speedypotato).
## Notes
This one is relatively easy to build compared with my other projects like IIDX Pico or Teeny. You can check out my other cool projects.
I made this project in my personal time with no financial benefit or sponsorship. I will continue to improve the project. I have done my best to ensure that everything is accurate and functional, there's always a chance that mistakes may occur. I cannot be held responsible for any loss of your time or money that may result from using this open source project. Thank you for your understanding.
Many DIY enthusiasts commonly make certain mistakes during the building process. Please proceed with extra caution to avoid these.
* **MISTAKE: Soldering everything together without conducting intermediate testing.**
Remember, even professional engineers can make mistakes. It becomes significantly harder to identify the root cause of a problem when all components are already assembled or soldered. Therefore, it's advisable to solder and test in stages. The firmware is designed to function correctly even with some components missing, which is good for testing.
* **MISTAKE: Neglecting to cut the ADDR pin trace on the MPR121 module.**
The MPR121 module in the market has the ADDR pin pre-connected to ground. But the board expects a floating ADDR pin, otherwise the ADDR pin will short the circuit. Please verify your "CUT" using a multimeter.
* **MISTAKE: Rushing to replace components when something fails.**
Be aware that desoldering and soldering large SMD components is a challenging task. It carries the risk of damaging the component or the PCB board. Patience and caution are crucial. Look at the schematics and PCB design files and ask help from community first.
* **MISTAKE: Prematurely assuming that the Raspberry Pi Pico or other modules are faulty.**
While it's possible that these components could be defective, more often than not, the issue lies in the soldering. Therefore, questioning the integrity of these components should be your last resort.
* **MISTAKE: Failing to properly solder the 3 USB pins of the Raspberry Pi Pico.**
These pins are at the bottom side of the PCB. It's a common oversight to either forget to solder them or to leave air bubbles during the process. To avoid this, solder slowly from one side of the hole, using minimal solder wire and a generous amount of flux.
* Go JLCPCB and make order with the gerber zip file (latest `Production\PCB\chu_main_xxx.zip`), regular FR-4 board, black color, thickness is **1.6mm**.
* Find a service to cut a light guide panel using DXF or DWG file `Production\CAD\chu_pico_lgp.*`, the size is 256mm*60mm, 1.8mm to 2.0mm thickness, thinner is better for sensitivity. 2.0mm is easy to find, 1.8mm is rare. I used 1.8mm for my build.
* A self-adhesive **textured**/**frosted** film sheet, it is applied on top surface of the light guide panel. It improves touch feel. You can use window sticker film. It **MUST** be self-adhesive ones, **NOT** static cling ones. They're usually very cheap.
* It's for good looking, as it hides 5 ToF sensors.
<imgsrc="doc/ir_cover_1.png"width="60%">
* IR lights can go through.
<imgsrc="doc/ir_cover_2.png"width="60%">
* Find a service to cut an IR cover using the DXF or DWG file `Production\CAD\chu_pico_ir_cover.*`, the size is 293.2mm*63.5mm, 1mm thickness. The material must be "Infrared Transmitting Acrylic Sheet" which can block visible lights (so it looks black) while letting IR lights go through.
* If you're using the VL53L0x ToF sensor, please add padding beneath the sensor. This brings it closer to the acrylic cover, which can prevent acrosstalk error.
* For the new build, hold the BOOTSEL button while connect the USB to a PC, there will be a disk named "RPI-RP2" showed up. Drag the UF2 firmware binary file into it. That's it. There's a small hole at the bottom side of the Chu Pico, it is facing right to the BOOTSEL button.
* It works on CrazyRedMachine's RedBoard protocol. For more information, please check out CrazyRedMachine's project (Don't forget to give him a star and drop by his GitHub for other cool projects):
* It has a command line to do configuration. You can use this Web Serial Terminal to connect to the USB serial port of the Chu Pico. (Note: "?" is for help)
I'm using OnShape free subscription. It's powerful but it can't archive original designs to local, so I can only share the link here. STL/DXF/DWG files are exported from this online document.