kalibrierschein/test-ks-KK-2015.tex

-
-%---------------------------
-\listfiles
-\documentclass[ngerman,KK,2015]{kalibrierschein}
-\resultTable{ 6 }{%
-{\(p_{cal}\)}&{\(p_{ind}\)}&{\(p_r\)}&{\(p_{ind} - p_r\)}&{\(e\)}&{\(U(k=2)\)}\\
-mbar&mbar&mbar&mbar&&\\\toprule\endhead
-2.954E-08&3.27E-08&1.66E-09&3.10E-08&5.1E-02&2.6E-02\\
-4.970E-08&5.35E-08&1.65E-09&5.19E-08&4.3E-02&2.4E-02\\
-8.908E-08&9.53E-08&1.63E-09&9.37E-08&5.2E-02&2.4E-02\\
-2.991E-07&3.17E-07&1.68E-09&3.15E-07&5.4E-02&2.4E-02\\
-4.805E-07&5.29E-07&1.80E-09&5.27E-07&9.7E-02&2.4E-02\\
-4.810E-07&5.29E-07&2.00E-09&5.27E-07&9.6E-02&2.4E-02\\
-5.024E-07&5.30E-07&1.80E-09&5.28E-07&5.1E-02&2.4E-02\\
-8.916E-07&9.37E-07&1.52E-09&9.35E-07&4.9E-02&2.2E-02\\
-2.943E-06&3.07E-06&1.77E-09&3.07E-06&4.3E-02&2.2E-02\\
-4.922E-06&5.13E-06&2.02E-09&5.13E-06&4.2E-02&2.2E-02\\
-8.827E-06&9.25E-06&3.20E-09&9.24E-06&4.7E-02&2.2E-02\\
-2.957E-05&3.05E-05&4.10E-09&3.05E-05&3.1E-02&2.2E-02\\
-4.892E-05&5.01E-05&6.70E-09&5.01E-05&2.4E-02&2.2E-02\\
-8.768E-05&8.87E-05&7.70E-09&8.87E-05&1.1E-02&2.2E-02\\
-8.960E-05&8.88E-05&1.20E-08&8.88E-05&-9.1E-03&2.2E-02\\
-8.768E-05&8.88E-05&1.00E-08&8.88E-05&1.3E-02&2.2E-02\\
-}
-\missingEntries{ 16 }
-\object{ Stabil Ion Gauge }
-\manufacturer{ Granville-Phillips }
-\type{ EXT-Y, Stabil Ion Controler 370B }
-\serialNo{ YEA06800, 1449 }
-\applicant{  { BOC EDWARDS }  { Marshall Road }  { EASTBOURNE, EAST SUSSEX }  { BN22 9BA } }
-\refNo{ ? }
-\calibMark{ 75120 PTB 13 }
-\calibDate{ 2013-11-26 }
-\byOrder{ Dr. K. Jousten }
-\examiner{ ? }
-\certificateDate{ 2013-12-18 }
-\begin{document}
-
-\printFirstPage
-   \section{ Description of the calibration device }
-
-   %\num{9.99E-7 +- 9E-9} \par \bigskip
-   \num{9.99 +- 0.09} \par \bigskip
-
-       The device was shipped under atmospheric pressure kept in the producers plastic shell.
-       A memory module belonging to the stabil ion gauge (serial 06800) was provided. It was active during calibration.
-     \section{ Calibration procedure }
-       The device was installed in a vertical orientation. Before calibration the gauge head was baked at \(?\) °C for \(?\) h. During the cool down phase the head was degassed for \(?\) minutes. At room temperature it was exposed for \(?\) h at \(?⋅10^{?}\) mbar argon for sputtering the ion collector.
-       The sensitivity factor was kept at an value of  \(?\) mbar\(^{-1}\) during the calibration. The calibration was carried out with the following device settings:
-       \begin{itemize}\item display: mbar\item filament: F1\item emission: L\item channel: A\end{itemize}
-       Before each calibration point the residual pressure indication \(p_r\)  was checked.
-       The temperature \(θ\)  during the calibration was \(?\) °C and varied from this value within \(\pm?\) °C.
-       The device was calibrated with ? in the pressure range \(?⋅ 10^{?}\) mbar to \(?⋅10^{?}\) mbar by comparing its reading with the calibration pressure that was established by the primary standard CE3 of PTB applying the continuous expansion method.
-     \section{ Relative error of indication }
-       The correction factor \(CF\) given in the table below was calculated from the indicated pressure \(p_{ind}\) as follows:\[CF =\frac{p_{cal}}{p_{ind} - p_{r}}\] where \(p_{cal}\) denotes the calibration pressure as generated in the primary standard and \(p_{r}\) the reading at residual pressure. From this, the corrected pressure \(p\) can be calculated from the residual pressure indication and the indicated pressure by:\[p = CF (p_{ind} - p_{r})\]
-       The uncertainty \(U\) of \(CF\) at the time of calibration is given in the last column of the table below. It includes the repeatability of \(p_{ind}\) for otherwise identical conditions (\(p_{cal}\), \(θ\)).\printResultTable
-     \section{ Uncertainty of Calibration }
-       The uncertainty \(U\) stated is the expanded measurement uncertainty obtained by multiplying the standard measurement uncertainty by the coverage factor \(k = 2\). It has been determined in accordance with the  “Guide to the Expression of Uncertainty in Measurement (GUM)”. The value of the measurand then normally lies, with a probability of approximately \(95\) \%. within the attributed coverage interval.\par \(95\)\,\%  95\,\% 95~\% \(95\) \%  \par
-       95 \% 95 \%
-   \printLastPage
-\end{document}
-%---------------------------
-
-
-\(95\)\,\%  95\,\% 95~\%
-

kalibrierschein/test-ks-KK.tex

-
-%---------------------------
-\listfiles
-\documentclass[ngerman,KK]{kalibrierschein}
-\resultTable{ 6 }{%
-{\(p_{cal}\)}&{\(p_{ind}\)}&{\(p_r\)}&{\(p_{ind} - p_r\)}&{\(e\)}&{\(U(k=2)\)}\\
-mbar&mbar&mbar&mbar&&\\\toprule\endhead
-2.954E-08&3.27E-08&1.66E-09&3.10E-08&5.1E-02&2.6E-02\\
-4.970E-08&5.35E-08&1.65E-09&5.19E-08&4.3E-02&2.4E-02\\
-8.908E-08&9.53E-08&1.63E-09&9.37E-08&5.2E-02&2.4E-02\\
-2.991E-07&3.17E-07&1.68E-09&3.15E-07&5.4E-02&2.4E-02\\
-4.805E-07&5.29E-07&1.80E-09&5.27E-07&9.7E-02&2.4E-02\\
-4.810E-07&5.29E-07&2.00E-09&5.27E-07&9.6E-02&2.4E-02\\
-5.024E-07&5.30E-07&1.80E-09&5.28E-07&5.1E-02&2.4E-02\\
-8.916E-07&9.37E-07&1.52E-09&9.35E-07&4.9E-02&2.2E-02\\
-2.943E-06&3.07E-06&1.77E-09&3.07E-06&4.3E-02&2.2E-02\\
-4.922E-06&5.13E-06&2.02E-09&5.13E-06&4.2E-02&2.2E-02\\
-8.827E-06&9.25E-06&3.20E-09&9.24E-06&4.7E-02&2.2E-02\\
-2.957E-05&3.05E-05&4.10E-09&3.05E-05&3.1E-02&2.2E-02\\
-4.892E-05&5.01E-05&6.70E-09&5.01E-05&2.4E-02&2.2E-02\\
-8.768E-05&8.87E-05&7.70E-09&8.87E-05&1.1E-02&2.2E-02\\
-8.960E-05&8.88E-05&1.20E-08&8.88E-05&-9.1E-03&2.2E-02\\
-8.768E-05&8.88E-05&1.00E-08&8.88E-05&1.3E-02&2.2E-02\\
-}
-\missingEntries{ 16 }
-\object{ Stabil Ion Gauge }
-\manufacturer{ Granville-Phillips }
-\type{ EXT-Y, Stabil Ion Controler 370B }
-\serialNo{ YEA06800, 1449 }
-\applicant{  { BOC EDWARDS }  { Marshall Road }  { EASTBOURNE, EAST SUSSEX }  { BN22 9BA } }
-\refNo{ ? }
-\calibMark{ 75120 PTB 13 }
-\calibDate{ 2013-11-26 }
-\byOrder{ Dr. K. Jousten }
-\examiner{ ? }
-\certificateDate{ 2013-12-18 }
-\begin{document}
-
-\printFirstPage
-   \section{ Description of the calibration device }
-   
-   %\num{9.99E-7 +- 9E-9} \par \bigskip
-   \num{9.99 +- 0.09} \par \bigskip
-   
-       The device was shipped under atmospheric pressure kept in the producers plastic shell.
-       A memory module belonging to the stabil ion gauge (serial 06800) was provided. It was active during calibration.
-     \section{ Calibration procedure }
-       The device was installed in a vertical orientation. Before calibration the gauge head was baked at \(?\) °C for \(?\) h. During the cool down phase the head was degassed for \(?\) minutes. At room temperature it was exposed for \(?\) h at \(?⋅10^{?}\) mbar argon for sputtering the ion collector.
-       The sensitivity factor was kept at an value of  \(?\) mbar\(^{-1}\) during the calibration. The calibration was carried out with the following device settings:
-       \begin{itemize}\item display: mbar\item filament: F1\item emission: L\item channel: A\end{itemize}
-       Before each calibration point the residual pressure indication \(p_r\)  was checked.
-       The temperature \(θ\)  during the calibration was \(?\) °C and varied from this value within \(\pm?\) °C.
-       The device was calibrated with ? in the pressure range \(?⋅ 10^{?}\) mbar to \(?⋅10^{?}\) mbar by comparing its reading with the calibration pressure that was established by the primary standard CE3 of PTB applying the continuous expansion method.
-     \section{ Relative error of indication }
-       The correction factor \(CF\) given in the table below was calculated from the indicated pressure \(p_{ind}\) as follows:\[CF =\frac{p_{cal}}{p_{ind} - p_{r}}\] where \(p_{cal}\) denotes the calibration pressure as generated in the primary standard and \(p_{r}\) the reading at residual pressure. From this, the corrected pressure \(p\) can be calculated from the residual pressure indication and the indicated pressure by:\[p = CF (p_{ind} - p_{r})\]
-       The uncertainty \(U\) of \(CF\) at the time of calibration is given in the last column of the table below. It includes the repeatability of \(p_{ind}\) for otherwise identical conditions (\(p_{cal}\), \(θ\)).\printResultTable
-     \section{ Uncertainty of Calibration }
-       The uncertainty \(U\) stated is the expanded measurement uncertainty obtained by multiplying the standard measurement uncertainty by the coverage factor \(k = 2\). It has been determined in accordance with the  “Guide to the Expression of Uncertainty in Measurement (GUM)”. The value of the measurand then normally lies, with a probability of approximately \(95\) \%. within the attributed coverage interval.\par \(95\)\,\%  95\,\% 95~\% \(95\) \%  \par
-       95 \% 95 \%
-   \printLastPage
-\end{document}
-%---------------------------
-
-
-\(95\)\,\%  95\,\% 95~\%
-

ptbletter/README.md

+## ptbletter
+Das Projekt enthält eine LaTeX-Dokumentenklasse zur Erzeugung eines PTB-konformen Briefes (siehe MS-Word-Vorlage »PTB-Kopfbogen mit Informationsblock«). Näheres siehe [Dokumentation](ptbletter-doc.pdf).
+
+Rolf Niepraschk, 2015-05-26
+
+
+

ptbletter/ptbletter-doc.tex

+
+\documentclass[%
+,ngerman
+,twoside
+%,serif
+,sanserif
+,BLN
+%,BS
+%,head0
+,head1
+%,head2
+%,visualize
+]{ptbletter}
+
+\yourref{4711-0815}
+\yourmail{2015-05-08}
+
+\handledby{Rolf Niepraschk}
+\myref{7.5-1V-15-05}
+\mymail{2015-05-14}
+\myphone{7316}
+\myfax{7777}
+\myemail{Rolf.Niepraschk@ptb.de}
+
+\colorlet{bgTextColor}{red!20}
+\bgText*{ENTWURF}
+
+% Ausblenden des Fußbereiches
+% \setkomavar{firstfoot}{}
+
+\date{2017-01-17}
+
+\begin{document}
+
+\begin{letter}{%
+Ellen Bogen \\
+Dorfstraße 1\\
+12345 Musterhausen
+}
+
+\subject{Die \LaTeX-Dokumentenklasse "`ptbletter"'}
+
+\opening{Sehr geehrte Frau Bogen,}
+
+die neue \LaTeX-Dokumentenklasse "`ptbletter"' ist fertig. Mit ihr können
+Briefe nach den offiziellen Vorgaben der PTB gesetzt werden. Zum Setzen eines
+Briefes muss die Datei "`\texttt{ptbletter.cls}"' dem \TeX"=Compiler zugänglich
+sein, d.\,h.\  sie muss sich im \TeX"=Suchpfad befinden. Näheres dazu ist der
+Dokumentation der benutzten \TeX"=Distribution zu entnehmen.
+
+Die \LaTeX-Dokumentenklasse "`ptbletter"' unterstützt die folgenden
+Klassenoptionen:
+
+\begin{itemize}
+  \item \textbf{BLN}: Wählt die für den Standort Berlin gültigen Angaben
+  (Standard).
+  \item \textbf{BS}: Wählt die für den Standort Braunschweig gültigen Angaben.
+  \item \textbf{serif}: Wählt die Serifenschrift für den Textbereich (Standard).
+  \item \textbf{sanserif}: Wählt die serifenlose Schrift für den Textbereich.
+  \item \textbf{de}, \textbf{german}, \textbf{ngerman}: Trennregeln für die neue
+  deutsche Rechtschreibung werden benutzt (Standard).
+  \item \textbf{en}, \textbf{english}: Trennregeln für die englische Sprache
+  werden benutzt.
+  \item \textbf{head0}, kein Kopf
+  \item \textbf{head1}, PTB-Kopf mit Logo (Standard)
+  \item \textbf{head2}, PTB-Kopf ohne Logo
+  \item \textbf{visualize}, Visualisierung interner Parameter (zu Debug-Zwecken)
+\end{itemize}
+
+\noindent Alle anderen Optionen werden an die intern benutzte Dokumentenklasse
+"`scrlttr2"' weitergeleitet. Das Papierformat ist entsprechend der Vorgabe auf
+"`A4"' festgelegt. Als Eingabe-Kodierung wird ausschließlich "`UTF-8"'
+unterstützt.
+
+Der Text, der dem Makro \verb|\bgText| übergeben wird, erscheint auf jeder 
+Seite auf dem Textbereich als hellgrauer Hintergrunddruck schräg in großer 
+Schrift. Wird die Sternvariante (\verb|\bgText*|) benutzt, erscheint der 
+Hintergrunddruck nur auf der ersten Seite. Die Farbe dieses Textes kann durch Definition der Farbe »bgTextColor« geschehen, z.\,B.\ so: 
+\verb|\definecolor{bgTextColor}{gray}{0.9}|
+
+%\closing{\MHG}
+%\closing{\MFg}
+\closing{\MFG}
+
+\ps PS: Viel Spaß beim \TeX{}en!
+
+\encl{
+  \begin{itemize}
+    \item alter Fahrschein
+    \item Tüte Mottenpulver
+    \item Glückspfennig
+  \end{itemize}
+}
+
+\cc{Präsident\\Fachbereichsleiter\\Arbeitsgruppenleiter}
+
+\end{letter}
+
+\end{document}

ptbletter/ptbletter-new-engines.clo

+% Rolf Niepraschk, Rolf.Niepraschk@ptb.de
+
+\ProvidesFile{ptbletter-new-engines.clo}%
+  [2017/12/05 v0.1b PTB-Brief -- new engines (RN)]
+  
+\RequirePackage{fontspec}
+\RequirePackage{unicode-math}
+\setromanfont{texgyrepagella}[
+  Ligatures=TeX,
+  Scale=MatchUppercase,
+  Extension=.otf,
+  UprightFont=*-regular,
+  BoldFont=*-bold,
+  ItalicFont=*-italic,
+  BoldItalicFont=*-bolditalic]
+\setsansfont{texgyreheros}[
+  Ligatures=TeX,
+  Extension=.otf,
+  UprightFont=*-regular,
+  BoldFont=*-bold,
+  ItalicFont=*-italic,
+  BoldItalicFont=*-bolditalic]
+\setmonofont{DejaVuSansMono}[%
+  Scale=0.9,
+  UprightFont = *,
+  ItalicFont=*-Oblique,
+  BoldFont=*-Bold,
+  BoldItalicFont=*-BoldOblique,
+  Extension = .ttf]
+\RequirePackage{newunicodechar}
+\newunicodechar{^^^^20ac}{\officialeuro}
+
+\endinput

ptbletter/ptbletter-old-engines.clo

+% Rolf Niepraschk, Rolf.Niepraschk@ptb.de
+
+\ProvidesFile{ptbletter-old-engines.clo}%
+  [2017/12/05 v0.1b PTB-Brief -- old engines (RN)]
+
+\RequirePackage[utf8]{inputenc}
+\RequirePackage[T1]{fontenc}
+\usepackage[scaled=0.9]{DejaVuSansMono}
+\RequirePackage{textcomp}
+\RequirePackage{mathpazo}
+\RequirePackage{tgpagella}
+\RequirePackage{tgheros}
+
+\endinput

ptbposter/README.md

+## ptbposter
+
+LaTeX-Dokumentenklasse und andere Komponenten zur
+Erzeugung eines PTB-konformen Posters. Näheres siehe Dokumentation [Teil
+1](ptbposter-doc-1.pdf) und [Teil 2](ptbposter-doc-2.pdf) sowie die
+Beispiele, die die Verwendung positionierbarer Boxen
+[(tcolobox)](https://www.ctan.org/pkg/tcolorbox) sowie die Einbeziehung des
+Grafikpakets [TikZ](https://www.ctan.org/pkg/pgf) zeigen:
+[tcb-example1](tcb-example1.pdf) und [tcb-example2](tcb-example2.pdf).
+
+Rolf Niepraschk, 2025-03-13
+
+
+