working

4459.tex

@@ -0,0 +1,68 @@
+\input{preamble.tex}
+\graphicspath{{images/4459}, {images}}
+
+\title{4459 PDH Lock Generator Pounder}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}
+
+\maketitle
+
+\section{Features}
+
+    \begin{itemize}
+        \item{features}
+    \end{itemize}
+
+\section{Applications}
+
+    \begin{itemize}
+        \item{applications}
+    \end{itemize}
+
+\section{General Description}
+
+    Stabilizer with Pounder daughter card.
+    2-channel Pound Drever Hall (PDH) lock generator.
+    AD9959 DDS (500MSPS, 10-bit).
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2.5in]{photo4459.jpg}
+    \caption{Pounder + Stabilizer cards}
+    \includegraphics[height=3in, angle=90]{fp4459.pdf} 
+    \caption{Pounder + Stabilizer front panel}
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesectiond{4459 PDH Lock Generator Pounder}{Stabilizer}{https://github.com/sinara-hw/Pounder}{https://github.com/sinara-hw/Stabilizer}
+
+\section{Specifications}
+
+\ordersection{4459 Pounder + Stabilizer}
+
+\finalfootnote
+
+\end{document}

4624.tex

@@ -0,0 +1,195 @@
+\input{preamble.tex}
+\graphicspath{{images}, {images/4624}}
+
+\title{4624 AWG Phaser}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}
+\maketitle
+
+\section{Features}
+
+\begin{itemize}
+    \item{4 channels of 1.25 GSPS 16-bit DAC}
+    \item{2 channels of 5 MSPS ADC}
+    \item{dual IQ mixer + 0.3 GHz to 4.8 GHz VCO + PLL}
+    \item{31.5 dB range DDS}
+    \item{Xilinx Artix-7 FPGA core} 
+    \item{DDR3 SDRAM}
+\end{itemize}
+
+\section{Applications}
+
+\begin{itemize}
+    % placeholders/guessing. STFT requires alternate gateware? 
+    \item{? phase control for quantum gates?}
+    \item{? laser modulation?}
+    \item{?? STFT pulse generator?}
+\end{itemize}
+
+\section{General Description}
+
+    4624 AWG Phaser is an 8hp EEM form factor module, part of the ARTIQ/Sinara family. It adds versatile arbitrary wave generation (AWG) capabilities to carrier cards such as Kasli 2.0 and Kasli-SoC, with quadrature modulation compensation and interpolation features. It is available in two variants: Upconverter, which includes integrated RF upconversion, and Baseband, without it. 
+
+    Each card supplies four channels of digital-to-analog conversion (DAC) at 1.25 GSPS and two channels of analog-to-digital conversion (ADC) at 5 MSPS. The Upconverter variant features dual IQ (Quadrature) mixers with voltage-controlled oscillators for precise frequency generation and modulation. %  Input channels can be terminated at 50 Ω, individually controllable using DIP switches. Output channels can be attenuated from 0 to -31.5 dB by a digital attenuator.
+
+    Multiple gateware variants exist for 4624 AWG Phaser, including MIQRO, available separately from QUARTIQ, which is capable of generating up to 16 dynamic tones.
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2.25in]{photo4624.jpg}
+    \caption{Phaser card}
+    \includegraphics[height=3in, angle=90]{fp4624.pdf} 
+    \caption{Phaser front panel}
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesection{4624 AWG Phaser}{https://github.com/sinara-hw/Phaser/}
+
+\section{Specifications}
+
+% DAC: https://www.ti.com/lit/ds/symlink/dac34h84.pdf?ts=1743366540161&ref_url=https%253A%252F%252Fwww.ti.com%252Fproduct%252FDAC34H84
+% ADC: https://www.analog.com/media/en/technical-documentation/data-sheets/232316fc.pdf
+% si510: https://www.mouser.com/datasheet/2/368/si510-11-767375.pdf
+% IQ mixer: https://www.ti.com/lit/gpn/trf372017
+% FPGA: Artix-7 XC7A100T  
+
+\begin{table}[hbt!]
+    \centering
+    \begin{threeparttable}
+    \caption{Component Specifications}
+    \begin{tabularx}{\textwidth}{l | c c c | c | X}
+        \thickhline
+        \textbf{Parameter} & \textbf{Min.} & \textbf{Typ.} & \textbf{Max.} &
+        \textbf{Unit} & \textbf{Conditions} \\
+        \hline
+        DAC & & & & & \\
+        \hspace{3mm} Resolution & & 16 & & bits & \\
+        \hspace{3mm} Sample rate & & 1.25 & & GSPS & \\
+        % \hspace{3mm} DDS frequency & -500 & & 500 & MHz \\ ? from sftf paper 
+        \hline 
+        Output voltage & & ? & & & \\ 
+        \hline 
+        Output digital attenuation & -31.5 & & 0 & dB & \\
+        \hline 
+        ADC & & & & & \\ 
+        \hspace{3mm} Resolution & & 16 & & bits & \\
+        \hspace{3mm} Throughput rate & & 5 & & MSPS & \\  
+        \hspace{3mm} Input voltage & & ? & & & \\    
+        \hline 
+        Interpolater & & & & & \\ % is this STFT gateware specific? 
+        \hspace{3mm} Image rejection & 89.5 & & & dB & \\
+        \hline
+        \hspace{3mm} Passband droop & \multicolumn{4}{c|}{ 0.9 dB/10\%} & \\ 
+        \hspace{3mm} Input cutoff frequency & \multicolumn{4}{c|} {80\% of Nyquist} & \\ % can this be a number 
+        \hspace{3mm} Interpolation rate & & ? & & & \\
+        \hline 
+        Upconverter & & & & & \\ 
+        \hspace{3mm} Resolution & & 58 & & mHz & \\
+        \hspace{3mm} Range & -250 & & 250 & MHz & \\
+        \hspace{3mm} Signal to noise ratio & 83 & & & dB & \\
+        \hspace{3mm} Spur-free dynamic range & & 84 & & dB & \\
+        \hline 
+        DC Input signal impedance & \multicolumn{4}{c|}{100 k$\Omega$} & Termination off\\
+        & \multicolumn{4}{c|}{50 $\Omega$} & Termination on \\ 
+        \hline 
+        PLL/VCO & & & & & \\ 
+        \hspace{3mm} LO frequency & 0.3 & & 4.8 & GHz & \\ 
+        \thickhline
+    \end{tabularx}
+    \end{threeparttable}
+\end{table}
+
+Clock input may be supplied to 4624 AWG Phaser using either the internal MMCX connector or the external SMA connector in the front panel. % Are these both actually usable with current gateware/ARTIQ? 
+
+\section{FPGA}
+
+    4624 AWG Phaser features a XC7A100T Xilinx Artix-7 FPGA to to facilitate reconfigurable high-speed control of wave generation, sampling, and servo capabilities. Phaser was designed as a flexible hardware platform for many different signal generation schemes; multiple gateware configurations exist, and more could be written, covering different use-cases.
+    
+    M-Labs normally provides the Phaser "classic" configuration, which hosts fixed interpolators and subsequent digital upconverters for two RF output channels. A notable alternative configuration is MIQRO, available separately from QUARTIQ, which supports up to four dynamic tones per output channel.
+
+\section{Phaser I/O}
+
+    \begin{multicols}{2}
+
+    The front panel of 4624 AWG Phaser features a total of five SMA connectors, individually labeled. The dual ADC channels are respectively exposed on \texttt{ADC IN0} and \texttt{ADC IN1}, with input termination by DIP switch (see below). Depending on configuration, the four DAC outputs are either available directly (Baseband variant) or fed in pairs to the two quadrature upconverters (Upconverter variant).  
+
+    In the Upconverter variant, outputs from the upconverters are passed through the 31.5 dB range step attenuattor and exposed in the front panel at \texttt{RF0} and \texttt{RF1}. 
+
+    \columnbreak
+    \begin{center}
+        \centering
+        \includegraphics[height=1.7in]{phaser_mmcx.jpg}
+        \captionof{figure}{Position of MMCX DAC outputs}
+    \end{center}
+    \end{multicols}
+    \vspace{-1em}
+
+    In the Baseband variant, two of four channels, the in-phase or even outputs, are available on \texttt{RF0} and \texttt{RF1}. Respective odd outputs are exposed by labeled MMCX connectors at back of board. 
+
+\subsection{LEDs}
+
+    4624 AWG Phaser provides six user LEDs, which are located in the front panel. % Which? There seem to be at least 9, but the control function is six-bit.
+    These are directly accessible in ARTIQ gateware and can be used for testing or feedback. 
+
+    \begin{multicols}{2}
+
+\section{Configuring Termination}
+
+    The input termination must be configured by setting physical switches on the board. The termination switches are found at the middle left part of the card and are by-channel. Setting these switches to \texttt{on} adds a 50\textOmega~termination between the differential input signals.
+
+    \vspace*{\fill}
+    \columnbreak
+    \begin{center}
+        \centering
+        \includegraphics[height=1.7in]{phaser_dip_switches.jpg}
+        \captionof{figure}{Position of switches}
+    \end{center}
+    \end{multicols}
+
+\newpage
+
+\sysdescsection 
+
+    4624 AWG Phaser should be entered in the \texttt{peripherals} list of the corresponding core device in the following format:
+
+    \begin{tcolorbox}[colback=white]
+        \begin{minted}{json}
+            {
+                "type": "phaser",
+                "ports": [0]
+            }
+        \end{minted}
+    \end{tcolorbox}
+
+    Replace 0 with the EEM port number used on the core device. Any port can be used. On Phaser's side, two EEM ports are present, but only one is necessary; this should always be \texttt{EEM0}. 
+
+\codesection{4624 AWG Phaser}
+
+\ordersection{4624 AWG Phaser}
+
+\finalfootnote
+
+\end{document}

5518-5528.tex

@@ -31,7 +31,7 @@
 \end{itemize}
 
 \section{General Description}
-The 5518 BNC-IDC card is a 8hp EEM module; the 5528 SMA-IDC card is a 4hp EEM module. Both adapter cards break out analog signals from IDC connectors to BNC (5518) or SMA (5528). IDC connectors can be found on 5108 Sampler, 5432 DAC Zotino, 5632 DAC Fastino and 5568 HD68-IDC.
+The 5518 BNC-IDC card is an 8hp EEM module; the 5528 SMA-IDC card is a 4hp EEM module. Both adapter cards break out analog signals from IDC connectors to BNC (5518) or SMA (5528). IDC connectors can be found on 5108 Sampler, 5432 DAC Zotino, 5632 DAC Fastino and 5568 HD68-IDC.
 
 Each card provides 8 channels, with respectively BNC or SMA connectors. Breaking out all 32 channels of 5432 DAC Zotino, 5632 DAC Fastino or 5568 HD68-IDC requires four BNC/SMA-IDC cards. Breaking out all 8 ADC channels of 5108 Sampler requires only one BNC/SMA-IDC card.
 

5538.tex

@@ -0,0 +1,89 @@
+\input{preamble.tex}
+\graphicspath{{images/5538}{images}}
+
+\title{5538 MCX-TTL}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}
+\maketitle
+
+\section{Features}
+
+\begin{itemize}
+    \item{32 channels}
+    \item{Internal IDC connector}
+    \item{External MCX connectors}
+\end{itemize}
+
+\section{Applications}
+
+\begin{itemize}
+    \item{Break out analog signals}
+    \item{MCX adapter for: \begin{itemize}
+        \item{5432 DAC Zotino}
+        \item{5632 DAC Fastino}
+    \end{itemize}}
+    \item{Convert from/to HD68 with 5568 HD68-IDC}
+    
+\end{itemize}
+
+\section{General Description}
+The 5538 MCX-IDC card is an 8hp EEM Module, part of the ARTIQ/Sinara family. It is capable of breaking out analog signals from IDC connectors to MCX connectors. IDC connectors can be found on 5432 DAC Zotino, 5632 DAC Fastino and 5568 HD68-IDC. 
+
+One card provides 32 channels, enough to break out all channels of 5432 DAC Zotino, 5632 DAC Fastino or 5568 HD68-IDC.
+
+% Switch to next column
+\vfill\break
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    %\includegraphics[height=2.5in]{photo5538.jpg}
+    \caption{MCX-IDC card}
+    %\includegraphics[height=2.5in, angle=90]{fp5538.pdf} 
+    \caption{MCX-IDC front panel}
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesection{5538 MCX-IDC}{https://github.com/sinara-hw/IDC_MCX_Adapter}
+
+\section{Electrical Specifications}
+
+    \begin{table}[h]
+        \centering
+        \begin{threeparttable}
+        \caption{Electrical Specifications}
+        \begin{tabularx}{0.65\textwidth}{l | c | c | X}
+            \thickhline
+            \textbf{Parameter} & \textbf{Max. Value} & \textbf{Unit} & \textbf{Conditions} \\
+            \thickhline
+        \end{tabularx}
+        \end{threeparttable}
+    \end{table}
+
+\section{Channel Mapping}
+
+% ? 
+
+\ordersection{5538 MCX-IDC}
+
+\finalfootnote
+
+\end{document}

8451-8453.tex

@@ -0,0 +1,116 @@
+\input{preamble.tex}
+\input{shared/thermostat.tex}
+\graphicspath{{images/8451-8453}, {images}}
+
+\title{8451 Thermostat/ 8453 Thermostat EEM}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}    
+\maketitle
+
+\section{Features}
+
+    \begin{itemize}
+        \item{2 or 4 thermoelectric control (TEC) channels}
+        \item{Up to 8 W (+/-2 A with 4 V compliance) TEC drive}
+        \item{Up to 16W (+/-4 A with 4 V compliance) with MAX1969 drivers (EEM only)}
+        \item{100Base-T Ethernet with PoE}
+        \item{Compatibility with a wide range of external sensors}
+    \end{itemize}
+
+\section{Applications}
+
+    \begin{itemize}
+        \item{8541 Thermostat only \begin{itemize}
+            \item{Temperature stabilizer for external devices containing TEC/thermistor}
+            \item{Compatible with Sinara 5432 Zotino or 5632 Fastino}\end{itemize}}
+        \item{8543 Thermostat EEM only\begin{itemize}
+            \item{?}
+        \end{itemize}}
+    \end{itemize}
+
+\section{General Description}
+
+The 8451 Thermostat and 8453 Thermostat EEM are multichannel temperature controllers, part of the Sinara open hardware family. 8453 Thermostat EEM is a 4hp form factor EEM module featuring four thermoelectric control (TEC) channels, whereas 8451 is housed in a standalone enclosure (Hammond 1455C1202\footnote{\url{https://www.hammfg.com/part/1455C1202}}) and features two TEC channels.
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2in]{photo8451.jpg}
+    \caption{Thermostat}
+    \includegraphics[height=2in]{photo8453.jpg}
+    \caption{Thermostat EEM}
+    \includegraphics[angle=90, height=0.6in]{fp8453.pdf}
+    \caption{Thermostat EEM front panel}%
+    \label{fig:example}%
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesectiond{8451 Thermostat}{8453 Thermostat EEM}{https://github.com/sinara-hw/Thermostat}{https://github.com/sinara-hw/Thermostat_EEM}
+
+\section{Specifications}
+
+ADC datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/AD7172-2.pdf
+TEC module: https://www.analog.com/media/en/technical-documentation/data-sheets/MAX1968-MAX1969.pdf 
+
+    \begin{table}[h]
+        \begin{threeparttable}
+        \caption{Electrical Characteristics}
+        \begin{tabularx}{\textwidth}{l | c c c | c | X}
+            \thickhline
+            \textbf{Parameter} & \textbf{Min.} & \textbf{Typ.} & \textbf{Max.} &
+            \textbf{Unit} & \textbf{Conditions} \\
+            TEC drive (MAX1968) & & & 8 & W & \\
+            \hspace{3mm} Current & -2 & & 2 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            \hline
+            TEC drive (MAX1969) & & & 16 & W & 8453 EEM only. \\
+            \hspace{3mm} Current & -4 & & 4 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            Thermistor 
+            \thickhline
+        \end{tabularx}
+        \end{threeparttable}
+        \end{table}
+
+Input power should be 12V DC, maximum 4A. Both 8451 Thermostat and 8453 Thermostat EEM support Power-over-Ethernet (though TEC driver maximum sum power capability on 8453 Thermostat EEM cannot be achieved with PoE supply alone). Alternatively, power may be supplied via internal 100mils pin-header. 8453 Thermostat EEM can also be powered via Molex connector at back of board.
+
+\section{Thermostat IO}
+
+    \subsection{8451 Thermostat}
+
+    8451 Thermostat accepts 
+
+
+2 TEC channels.
+Parallel output 10 pin IDC 2.54mm and 5 pin 3.81mm connectors per channel.
+Up to 8W (+/-2A with 4V compliance) heater/TEC drive from MAX1968 drivers.
+100Base-T Ethernet with PoE.
+Can stabilize temperature of Sinara 5432 DAC or external devices containing TEC and thermistor.
+
+\ordersection{8451 Thermostat or 8453 Thermostat EEM}
+
+\finalfootnote
+
+\end{document}

8451.tex

@@ -0,0 +1,115 @@
+\input{preamble.tex}
+\input{shared/thermostat.tex}
+\graphicspath{{images/8451}, {images}}
+
+\title{8453 Thermostat EEM}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}    
+\maketitle
+
+\section{Features}
+
+    \begin{itemize}
+        \item{2 thermoelectric control (TEC) channels}
+        \item{Up to 8 W (+/-2 A with 4 V compliance) TEC drive}
+        \item{10kΩ NTC thermosistors}
+        \item{100Base-T Ethernet with PoE}
+        \item{Standalone enclosure }
+    \end{itemize}
+
+\section{Applications}
+
+    \begin{itemize}
+        \item{?}
+    \end{itemize}
+
+\section{General Description}
+
+The 8451 Thermostat is a multichannel temperature controller, part of the Sinara open hardware family. It is housed in a standalone enclosure (Hammond 1455C1202\footnote{\url{https://www.hammfg.com/part/1455C1202}}) and features two TEC channels. 8451 Thermostat is closely related to Sinara 8453 Thermostat EEM, a four-channel temperature controller with which it shares internal hardware; 8453 Thermostat EEM has a different form factor, different firmware, and is designed for use with cards 
+
+It is closely related to Sinara 8432 Thermostat EEM, which is in 
+
+and 8453 Thermostat EEM are multichannel temperature controllers, part of the Sinara open hardware family. 8453 Thermostat EEM is a 4hp form factor EEM module featuring four thermoelectric control (TEC) channels, whereas 8451 is housed in a standalone enclosure (Hammond 1455C1202\footnote{\url{https://www.hammfg.com/part/1455C1202}}) and features two TEC channels.
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2in]{photo8451.jpg}
+    \caption{Thermostat}
+    \includegraphics[height=2in]{photo8453.jpg}
+    \caption{Thermostat EEM}
+    \includegraphics[angle=90, height=0.6in]{fp8453.pdf}
+    \caption{Thermostat EEM front panel}%
+    \label{fig:example}%
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesectiond{8451 Thermostat}{8453 Thermostat EEM}{https://github.com/sinara-hw/Thermostat}{https://github.com/sinara-hw/Thermostat_EEM}
+
+\section{Specifications}
+
+ADC datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/AD7172-2.pdf
+TEC module: https://www.analog.com/media/en/technical-documentation/data-sheets/MAX1968-MAX1969.pdf 
+
+    \begin{table}[h]
+        \begin{threeparttable}
+        \caption{Electrical Characteristics}
+        \begin{tabularx}{\textwidth}{l | c c c | c | X}
+            \thickhline
+            \textbf{Parameter} & \textbf{Min.} & \textbf{Typ.} & \textbf{Max.} &
+            \textbf{Unit} & \textbf{Conditions} \\
+            TEC drive (MAX1968) & & & 8 & W & \\
+            \hspace{3mm} Current & -2 & & 2 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            \hline
+            TEC drive (MAX1969) & & & 16 & W & 8453 EEM only. \\
+            \hspace{3mm} Current & -4 & & 4 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            Thermistor 
+            \thickhline
+        \end{tabularx}
+        \end{threeparttable}
+        \end{table}
+
+Input power should be 12V DC, maximum 4A. Both 8451 Thermostat and 8453 Thermostat EEM support Power-over-Ethernet (though TEC driver maximum sum power capability on 8453 Thermostat EEM cannot be achieved with PoE supply alone). Alternatively, power may be supplied via internal 100mils pin-header. 8453 Thermostat EEM can also be powered via Molex connector at back of board.
+
+\section{Thermostat IO}
+
+    \subsection{8451 Thermostat}
+
+    8451 Thermostat accepts 
+
+
+2 TEC channels.
+Parallel output 10 pin IDC 2.54mm and 5 pin 3.81mm connectors per channel.
+Up to 8W (+/-2A with 4V compliance) heater/TEC drive from MAX1968 drivers.
+100Base-T Ethernet with PoE.
+Can stabilize temperature of Sinara 5432 DAC or external devices containing TEC and thermistor.
+
+\ordersection{8451 Thermostat or 8453 Thermostat EEM}
+
+\finalfootnote
+
+\end{document}

8452-8462.tex

@@ -0,0 +1,81 @@
+\input{preamble.tex}
+\graphicspath{{images/8452-8462}, {images}}
+
+\title{8452 DSP Stabilizer / 8462 DSP Fast Servo}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}
+\maketitle
+
+\section{Features}
+
+    \begin{itemize}
+        \item{features}
+    \end{itemize}
+
+\section{Applications}
+
+    \begin{itemize}
+        \item{applications}
+    \end{itemize}
+
+\section{General Description}
+
+CPU-based dual-channel fast servo.
+400MHz STM32H743ZIT6.
+Dual 16bit ADC with x2, x5, x10 PGA (2MS/s).
+16bit AD5542A DAC (1us settling time).
+100Base-T Ethernet.
+Can be controlled by Kasli or work stand-alone with PoE supply.
+
+High-speed, low-latency servo (Stabilizer-compatible) module.
+Trenz TE0715-04 SoC module (XC7Z015).
+2 channel 125MHz 16bit ADC (LTC2195).
+2 channel 125MHz 14bit DAC (AD9117).
+100Base-T Ethernet.
+Can work stand-alone with PoE or DC supply.
+
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2in]{photo8452.jpg}
+    \caption{Stabilizer card, top view}
+    \includegraphics[height=2in]{photo8462.jpg}
+    \caption{Fast Servo card, side view}
+    \includegraphics[height=3in, angle=90]{fp8452.pdf} 
+    \includegraphics[height=3in, angle=90]{fp8462.pdf} 
+    \caption{Stabilizer and Fast Servo front panels}
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesectiond{8452 DSP Stabilizer}{8462 DSP Fast Servo}{https://github.com/sinara-hw/Stabilizer}{https://github.com/sinara-hw/Fast_Servo}
+
+\section{Specifications}
+
+\ordersection{8452 DSP Stabilizer or 8462 DSP Fast Servo}
+
+\finalfootnote
+
+\end{document}

8453.tex

@@ -0,0 +1,116 @@
+\input{preamble.tex}
+\input{shared/thermostat.tex}
+\graphicspath{{images/8453}, {images}}
+
+\title{8453 Thermostat EEM}
+\author{M-Labs Limited}
+\date{January 2025}
+\revision{Revision 0}
+\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
+
+\begin{document}    
+\maketitle
+
+\section{Features}
+
+    \begin{itemize}
+        \item{2 or 4 thermoelectric control (TEC) channels}
+        \item{Up to 8 W (+/-2 A with 4 V compliance) TEC drive}
+        \item{Up to 16W (+/-4 A with 4 V compliance) with MAX1969 drivers (EEM only)}
+        \item{100Base-T Ethernet with PoE}
+        \item{Compatibility with a wide range of external sensors}
+    \end{itemize}
+
+\section{Applications}
+
+    \begin{itemize}
+        \item{8541 Thermostat only \begin{itemize}
+            \item{Temperature stabilizer for external devices containing TEC/thermistor}
+            \item{Compatible with Sinara 5432 Zotino or 5632 Fastino}\end{itemize}}
+        \item{8543 Thermostat EEM only\begin{itemize}
+            \item{?}
+        \end{itemize}}
+    \end{itemize}
+
+\section{General Description}
+
+The 8451 Thermostat and 8453 Thermostat EEM are multichannel temperature controllers, part of the Sinara open hardware family. 8453 Thermostat EEM is a 4hp form factor EEM module featuring four thermoelectric control (TEC) channels, whereas 8451 is housed in a standalone enclosure (Hammond 1455C1202\footnote{\url{https://www.hammfg.com/part/1455C1202}}) and features two TEC channels.
+
+% Switch to next column
+\vfill\break
+
+%\begin{figure}[h]
+%    \centering
+%    \scalebox{1.15}{
+%    \begin{circuitikz}[european, every label/.append style={align=center}]
+%        \begin{scope}[]
+%            % if applicable
+%        \end{scope}
+%    \end{circuitikz}
+%    }
+
+%    \caption{Simplified Block Diagram}
+%\end{figure}
+
+\begin{figure}[hbt!]
+    \centering
+    \includegraphics[height=2in]{photo8451.jpg}
+    \caption{Thermostat}
+    \includegraphics[height=2in]{photo8453.jpg}
+    \caption{Thermostat EEM}
+    \includegraphics[angle=90, height=0.6in]{fp8453.pdf}
+    \caption{Thermostat EEM front panel}%
+    \label{fig:example}%
+\end{figure}
+
+% For wide tables, a single column layout is better. It can be switched
+% page-by-page.
+\onecolumn
+
+\sourcesectiond{8451 Thermostat}{8453 Thermostat EEM}{https://github.com/sinara-hw/Thermostat}{https://github.com/sinara-hw/Thermostat_EEM}
+
+\section{Specifications}
+
+ADC datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/AD7172-2.pdf
+TEC module: https://www.analog.com/media/en/technical-documentation/data-sheets/MAX1968-MAX1969.pdf 
+
+    \begin{table}[h]
+        \begin{threeparttable}
+        \caption{Electrical Characteristics}
+        \begin{tabularx}{\textwidth}{l | c c c | c | X}
+            \thickhline
+            \textbf{Parameter} & \textbf{Min.} & \textbf{Typ.} & \textbf{Max.} &
+            \textbf{Unit} & \textbf{Conditions} \\
+            TEC drive (MAX1968) & & & 8 & W & \\
+            \hspace{3mm} Current & -2 & & 2 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            \hline
+            TEC drive (MAX1969) & & & 16 & W & 8453 EEM only. \\
+            \hspace{3mm} Current & -4 & & 4 & A & \\
+            \hspace{3mm} Compliance & & 4 & & V & \\ 
+            Thermistor 
+            \thickhline
+        \end{tabularx}
+        \end{threeparttable}
+        \end{table}
+
+Input power should be 12V DC, maximum 4A. Both 8451 Thermostat and 8453 Thermostat EEM support Power-over-Ethernet (though TEC driver maximum sum power capability on 8453 Thermostat EEM cannot be achieved with PoE supply alone). Alternatively, power may be supplied via internal 100mils pin-header. 8453 Thermostat EEM can also be powered via Molex connector at back of board.
+
+\section{Thermostat IO}
+
+    \subsection{8451 Thermostat}
+
+    8451 Thermostat accepts 
+
+
+2 TEC channels.
+Parallel output 10 pin IDC 2.54mm and 5 pin 3.81mm connectors per channel.
+Up to 8W (+/-2A with 4V compliance) heater/TEC drive from MAX1968 drivers.
+100Base-T Ethernet with PoE.
+Can stabilize temperature of Sinara 5432 DAC or external devices containing TEC and thermistor.
+
+\ordersection{8451 Thermostat or 8453 Thermostat EEM}
+
+\finalfootnote
+
+\end{document}

Makefile

@@ -1,4 +1,4 @@
-inputs = 1124 1125 2118-2128 2238 2245 4410-4412 4456 5108 5432 5518-5528 5568 7210
+inputs = 1008 1106 1124 1550 2118-2128 2238 2245 4410-4412 4456-4457 4459 4624 5108 5432 5632 5633 5518-5528 5538 5568 6302 7210 8451 8453 8452-8462
 dir = build
 
 all: $(inputs)

template.tex

@@ -1,4 +1,4 @@
-\include{preamble.tex}
+\input{preamble.tex}
 \graphicspath{{images}}
 
 \title{BOARD NAME}
@@ -12,15 +12,15 @@
 
 \section{Features}
 
-\begin{itemize}
-\item{features}
-\end{itemize}
+    \begin{itemize}
+        \item{features}
+    \end{itemize}
 
 \section{Applications}
 
-\begin{itemize}
-\item{applications}
-\end{itemize}
+    \begin{itemize}
+        \item{applications}
+    \end{itemize}
 
 \section{General Description}
 
@@ -52,12 +52,8 @@
 
 \section{Specifications}
 
-\newpage
 
-\section{Example ARTIQ code}
-\section*{}
-\vspace*{\fill}
 
-\input{footnote.tex}
+\finalfootnote
 
 \end{document}