A repository for Neo900 hardware development. Made from houkime/layout branch. http://www.neo900.org
Houkime 7b7a2f3eda stylus sensor orifice fp and its preliminary placement | 5 éve | |
---|---|---|
cvt | 8 éve | |
eagle | 8 éve | |
hw | 5 éve | |
scripts | 7 éve | |
.gitignore | 5 éve | |
.gitmodules | 7 éve | |
LICENSE | 5 éve | |
MANUFACTURING.md | 5 éve | |
Makefile | 8 éve | |
README.md | 5 éve | |
README_qi.sh | 8 éve |
Open-source mobile phone in the chassis of Nokia N900.
V2 contains full BoB and LOWER and a half-rudimentary UPPER. Detailed description PDF is here
This is the quickest way to clone the repository, set up the submodule, and generate scripted symbols:
git clone http://neo900.org/git/ee
cd ee
make pull
Then you can access the schematics with
cd hw
make sch
If the above doesn't work for some reason, please read the next section.
We use items from the Qi-Hardware libraries, through a git submodule. There are two ways to initialize the submodules:
1) when cloning:
git clone --recursive http://neo900.org/git/ee
2) in a separate step, after cloning or if already cloned:
git clone http://neo900.org/git/ee
cd ee
git submodule update --init
cd ..
To generate scripted components (schematics symbols), you need to run
cd ee
make -C hw/kicad-libs/components
make -C hw/modules
make -C hw/kicad-libs/modules
To generate PDF schematics with a table of contents, we also use the "misc" repository of the Neo900 project. It should be at the same level as "ee". E.g.,
cd neo900
git clone http://neo900.org/git/misc
Thus, we get the following hierarchy:
neo900 "top-level" directory
ee "neo900/ee" repository
hw subdirectory
kicad-libs submodule, for "qi-hw/kicad-libs" repository
misc "neo900/misc" repository
Submodules are updated to their "pinned" versions, which may be behind the latest commit in the corresponding repo.
cd ee
git pull
git submodule update
make -C hw/modules
In case the scripts in kicad-libs/components changes, also run
make -C hw/kicad-libs/components
make -C hw/kicad-libs/modules
A shortcut for all the above is available as (if in ee/
or ee/hw/
):
make pull
In general, kicad-libs tries to be backward-compatible, such that new changes - except for critical bug fixes - will not affect designs based on an older version of the repository.
However, if the exact state of kicad-libs at some point in the history of "ee" is needed, it can be obtained as follows:
cd ee
git checkout <desired_commit_of_neo900-ee>
make sync
To return to the present,
git checkout master
make sync
There is more than one way to do this. A fairly generic one goes like this:
cd ee/hw
cd kicad-libs
git pull
make -C components
make -C modules
cd ..
# apply any other changes needed in this commit, if any
git commit .
Using eeshow, many data sheets can be accessed directly when viewing schematics. This is set up as follows:
Install eeshow, as described on https://neo900.org/stuff/eeshow/
Create the cache directory ($HOME/.eeshow-viewer-cache
) with
eeshow-viewer -m
From ee/hw/, run
make view
This will first download a number of data sheets (which are cached, so subsequent invocations will be faster) and then start eeshow. To view a part's data sheet, hover over the schematics symbol. A pop-up will appear, showing the component reference and the documentation available. Clicking on a documentation item will start xpdf as external viewer (see below for other choices).
For all non-trivial components, there should be the data sheet. In some cases, there are also other documents, such as technical reference manuals. In cases where the footprint / land pattern or mechanical drawing is not trivial to find, a direct link to the footprint is also provided.
A different viewer than xpdf can be selected by setting the environment variable EESHOW_PDF_VIEWER. Note that direct links to pages inside a document are currently only supported when using xpdf and evince.