Open source HHKB Pro2 Controller and mainboard.
Project soon to be deprecated in favor of the EC Pro X.
This project is a continuation of my development of open source EC boards.
The supported layout options are the following:
- Layout size: HHKB Pro2 ANSI and some additions
- Compatible switches: EC switches (Topre and NIZ)
- Microcontroller: STM32F401
- Connector: JST connector for controller board
- Firmware compatibility: QMK (with VIA/VIAL support)
- Protection hardware (present on both the mainboard and both controller versions):
- Fused
- ESD protection
The Lite controller board is a slimmed down version of the controller board, featuring only protection hardware and a JST connector for the mainboard.
This is cost effective choice in case the user doesn't need the USB hub feature or the aftermarket case doesn't take advantage of it.
The Normal Controller instead is a full featured controller board, featuring a USB hub, a JST connector for the mainboard and a USB Type-C connector for the PC.
The USB hub is a USB 2.0 hub, featuring 3 USB-A 2.0 ports, one of which is internal, to be used for dongles or small USB drives.
Key features of the Normal Controller are:
- USB 2.0 hub based on the FE1.1 IC
- 2x USB-A 2.0 ports in the same position as the original HHKB Pro 2
- 1x internal USB-A 2.0 port
- Per port current limit on each downstream port using MIC2026-2 for the 2 externally accessible USB ports.
NOTES
-
The internal USB port is intended only for low power devices, such as dongles and small usb drives as previously mentioned. It is not intended for high power devices. Furthermore it is not ESD protected nor current limited and shares the power rail with the rest of the controller.
-
The main USB-C port, as well as the 2x externally accessible USB-A downstream ports are ESD protected and current limited.
Keep in mind the the USB 2.0 power budget sets a typical current limit of 500mA, therefore that is the total budget available to the entire board (controller + mainboard + devices connected to the hub).
Mainboard:
Mainboard:
This revision implements all the main features of the mainboard ad controllers mentioned in the specifications.
The Revision 1 (Rev1) implements a USB hub based on the FE1.1 USB HUB IC.
Connection to the PC is achieved through a USB-C connector while devices downstream will use USB-A ports.
Mind that the USB-C connector is wider than the original USB mini connector used, therefore modifications to enlarge the port cutout on the case will be needed. In case you will use this board in an aftermarket case already designed with USB-C in mind n o further modifications are needed.
The mainboard features an RGB header for connecting +5V addressable RGB strips. THe properties of the lihting can be controlled through Vial or by assigning RGB control keycodes on the board itself.
On the bottom right corner of the PCB, near the bootloader instructions, a pinout diagram shows how to connect the strip to the header:
To access the DFU mode of the mainboard you can perform one of the following actions:
- press the key to which the
QK_BOOT
keycode is assigned (if available) - while plugging in the board keep the
ESC
(top left corner key) pressed - while plugging in the board short the
Boot0
pins on the mainboard
In order to have me highers compatibility possible with PCB manufacturers, I decided to design the board around the JLC7628 Stackup from JLCPCB.
The rational behind this is that the JCPCB stackup is relatively cheap and if the board worked with the stackup, it would be easier to get the board to work with pretty much any other many that offer an equivalent stackup and higher prices.
Both the Lite
and Normal
controllers can be instead be ordered with standard 2 layer stackup.
The production can be found in the Production folder.
As usual the *.zip
files are the gerber files, BOM-*.csv
are the BOM (Bill Of Material) files and POS-*.csv
are the POS/CPL (Footprint POSition/Component Placement List) files.
As mentioned above, the mainboard is designed around the JLCPCB stackup. The mainboard is a 4 layer board.
Here are the options to select when ordering the mainboard:
- PCB thickness: 1.6mm
- Impedance: NO
- Layer stackup:
- L1(Top layer):
EC_Pro2_Mainboard-F_Cu.gbr
- L2(Inner layer1):
EC_Pro2_Mainboard-In1_Cu.gbr
- L3(Inner layer2):
EC_Pro2_Mainboard-In2_Cu.gbr
- L4(Bottom layer):
EC_Pro2_Mainboard-B_Cu.gbr
- L1(Top layer):
- PCB Color: whatever you like
- Surface Finish: whatever you like
- Material Type:
FR-4 TG155
All the other options can be left as default.
Here follows the options to be used for assembly:
- Assembly Side: Bottom
- Tooling holes:
Added by JLCPCB
- Confirm Parts Placement:
yes
USB-A connector
An alternative part that has been tested and works is the JINJIA USB-SMT-04F-S1-B1-R11
from LCSC.
As a general rule of thumb the USB-A connectors are interchangeable if they meet the following requirmemnts:
-
fits the PCB outline
-
has the same number of pins and mounting
-
has the following receptor configuration
To be more specific, the plastic part of the connector should be on the top and not the bottom.
BEWARE that some USB-A connectors have the plastic part on the bottom, in this case the connector will have the pinout reversed, therefore causing inverse polarity on the USB lines. The following picture shows the correct orientation of the USB-A connector on the top board while the incorrect one on the bottom board:
-
Once you upload the gerber files wait for the system to automatically recognize the board outline and layers. It will take a while, be patient.
-
PCB thickness
has been tested on both 1.6mm and 1.2mm so it's your call on which one to use. -
For
Material Type
I strongly suggest to useFR-4 TG155
, using the standardFR4-Standard TG130-140
material might result in the board delamination and generally is not advised on 4 layer boards.
The EC Pro2 project is intended as a full replacement kit for the OEM HHKB Pro2 controller and main PCB. Therefore it IS NOT compatible with the OEM PCBs (both controller and mainboard).
This project is not endorse nor sponsored in any way by Topre Corporation and PFU Limited. The HHKB Logo and Topre logo are trademarks of their respective owners.
This project is released under the MIT License. For the license, please refer to the LICENSE.md file.