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-rw-r--r-- | fabrication-and-operation-instructions/wpp-fabrication-operation.tex | 52 |
2 files changed, 34 insertions, 18 deletions
diff --git a/fabrication-and-operation-instructions/wpp-fabrication-operation.pdf b/fabrication-and-operation-instructions/wpp-fabrication-operation.pdf Binary files differindex ad8666b..83b016f 100644 --- a/fabrication-and-operation-instructions/wpp-fabrication-operation.pdf +++ b/fabrication-and-operation-instructions/wpp-fabrication-operation.pdf diff --git a/fabrication-and-operation-instructions/wpp-fabrication-operation.tex b/fabrication-and-operation-instructions/wpp-fabrication-operation.tex index 5f3e4dd..b2545cf 100644 --- a/fabrication-and-operation-instructions/wpp-fabrication-operation.tex +++ b/fabrication-and-operation-instructions/wpp-fabrication-operation.tex @@ -523,35 +523,47 @@ Once finished, the WPP apparatus can be switched off by simply unplugging it and \section{Documentation} +WPP devices are trivial to document. +Suggested below are the aspects of a WPP device that one should documented whenever a WPP device is used in an investigation. +Documenting each of these aspects will allow for precise reproduction of the exact WPP device used within a study. + \subsection{Base and Photon Source} \label{SEC:doc-photon-source} -Users should report the following for each photon source used: +Users should report the following for each based and photon source used: - (1) Max emission wavelength for LEDs. - (2) Manufacturer and part number for LEDs. - (3) Supplier and part number for LED star (if commercial). +\begin{itemize} + \item Max emission wavelength for LEDs. + \item Manufacturer and part number for LEDs. + \item Supplier and part number for LED star (if commercial). +\end{itemize} -This information enables precise reproduction of WPP photon sources. Characterization of a photon source’s emission profile using a spectrometer is recommended but not required for reproduction. Emission profiles for commercial LEDs are supplied in part datasheets provided by manufacturers. A list of WPP-compatible LED stars exhibiting emission profiles across the visible range is provided in the project repository. +This information enables precise reproduction of WPP photon sources. Characterization of a photon source’s emission profile using a spectrometer is recommended but not required for reproduction. Emission profiles for commercial LEDs are supplied in part datasheets provided by manufacturers. \subsection{Reaction Module} \label{SEC:doc-reaction modules} -Users should provide and report the following for each module used: +Users should provide and report the following for each reaction module used: - (1) Original CAD designs for both module parts. - (2) 3D-printable models for both module parts. - (3) Photos of each reaction vessel placement configuration. - (4) Manufacturer and part number for reaction vessel. +\begin{itemize} + \item Original CAD designs for both module parts. + \item 3D-printable models for both module parts. + \item Photos of each reaction vessel placement configuration. + \item Manufacturer and part number for reaction vessel. +\end{itemize} These provisions enable precise reproduction of reaction modules. Documenting the height a vessel is held above the photon source is recommended but not required for reaction module reproduction. All reaction modules provided in the project repository hold vessels a standardized 7 mm above the photon source. -\subsection{Reactor Drivers} \label{SEC:doc-reactor-drivers} +\subsection{Reactor Driver Electronics} \label{SEC:doc-reactor-drivers} + +As each reactor driver offers different configurational abilities, each requires documentation of different aspects for full reproduction. \subsubsection{Analog Driver Board } \label{SEC:doc-analog-driver} Users should report the following when an analog driver board is used: - (1) Measured test point voltage. - (2) Relative intensity at which LEDs are driven (0 to 100%). +\begin{itemize} + \item Measured test point voltage. + \item Relative intensity at which LEDs are driven (0 to 100\%). +\end{itemize} These provisions enable precise reproduction of reaction conditions for transformations carried out using WPP devices fitted with analog driver boards. @@ -559,17 +571,21 @@ These provisions enable precise reproduction of reaction conditions for transfor Users should provide and document the following when a digital driver board is used: - (1) Software used to operate the digital driver board, control unit and any other peripherals. - (2) Relative intensity at which LEDs are driven (0 to 100%). - (3) Relative fan speed (0 to 100%). +\begin{itemize} + \item Software used to operate the digital driver board, control unit and any other peripherals. + \item Relative intensity at which LEDs are driven (0 to 100\%). + \item Relative fan speed (0 to 100\%). +\end{itemize} -These provisions enable precise reproduction of reaction conditions for transformations carried out using WPP devices fitted with digital driver boards +These provisions enable precise reproduction of reaction conditions for transformations carried out using WPP devices fitted with digital driver boards. \subsubsection{Simple Driver Circuit} \label{SEC:doc-simple-driver} Users should report the following when a simple LED driver circuit is used: - (1) Manufacturer and part number for LED driver. +\begin{itemize} + \item Manufacturer and part number for LED driver. +\end{itemize} This information enables reproduction WPP devices fitted with the simple LED driver circuit. |