Example of a CircuiTikz subcircuit configurable as a PTC or NTC thermistor.
This tutorial demonstrates utilizing the CircuiTikz package of LaTeX to create reusable circuits intended to be incorporated as part of a larger document (for example, a paper, poster, or system diagram) or as a standalone vector graphics asset for use in other documentation formats.
Note that a multi-page output is produced since each example is its own figure
environment via the standalone multi package option.
For broad compatibility, all tools utilized are constrained to those included
in a standard TeX Live distribution. Therefore, texlive (linux), MacTeX (macOS), MikTex (Windows) or Container thereof is required.
Additionally, it's worth making sure that dvisvgm successfully locates the GhostScript dynamic library on your system via
dvisvgm -V1.
The included Makefile contains all commands to render the graphics assets.
Use the tex target to generate the PDF output and the svg target to
generate the SVG output. Note that the later command is dependent on the
former. For convenience, the all target runs both sequential. Additionally,
the clean removes the TeX artifacts while distclean removes both artifacts
and outputs.
After considering various options, the most straightforward approach seemed
to be to use latexmk to delegate latex to generate DVI->PDF and dvisvgm
to convert DVI->SVG using a Makefile. As a more modern alternative, it's
also possible to use xelatex to generate XDV->PDF and dvisvgm to convert
XDV->SVG.
- Add GitHub Action for continuous integration
- Avoid specifying GhostScript dynamic library path via environmental variable
- Add alternative latexmk configuration for using
xelatex - Try
dvisvgmTikZ package option