|Evangelos Rigas e6b53b9cc1 Update footprint and add 3D model for DRV5032||10 months ago|
|Gnukey.3dshapes||10 months ago|
|Gnukey.pretty||10 months ago|
|datasheet||1 year ago|
|library||1 year ago|
|output||10 months ago|
|.gitignore||10 months ago|
|1-click-bom.tsv||10 months ago|
|LICENCE.txt||1 year ago|
|README.md||10 months ago|
|gpgkey-cache.lib||1 year ago|
|gpgkey.kicad_pcb||10 months ago|
|gpgkey.pro||10 months ago|
|gpgkey.sch||10 months ago|
|kitspace.yml||10 months ago|
Gnukey is a hardware security token. This hardware token uses an STM32F103TB (ARM Cortex M-3 uCU) that can run Gnuk, Neug or u2f-token.
Below is the bill of materials needed for soldering the gnukey pcb. While there is one LED used, the table contains two (one red and one blue). Similarly, for the LED resistor, depending on the resistance more or less current will pass through affecting the brightness.
The bill of materials can be found on Octopart. Additionally, a 1-click-bom is in the root folder of the repository.
As mentioned earlier, the PCB is designed to be used with a case. The case designs can be found at gnukey-ds repo. Below is an image showing how the final Gnukey token will look like using the cases from the gnukey-ds repo.
Copyright Evangelos Rigas 2019.
This documentation describes Open Hardware and is licensed under the CERN OHL v.1.2 or later. You may redistribute and modify this documentation under the terms of the CERN OHL v.1.2 (http://ohwr.org/cernohl). This documentation is distributed WITHOUT ANY EXPRESS OR IMPLIED WARRANTY, INCLUDING OF MERCHANTABILITY, SATISFACTORY QUALITY AND FITNESS FOR A PARTICULAR PURPOSE. Please see the CERN OHL v.1.2 for applicable conditions.