forked from sinara-hw/datasheets
299 lines
14 KiB
TeX
299 lines
14 KiB
TeX
\include{preamble.tex}
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\graphicspath{{images/7210}{images}}
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\title{7210 Clocker}
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\author{M-Labs Limited}
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\date{January 2022}
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\revision{Revision 2}
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\companylogo{\includegraphics[height=0.73in]{artiq_sinara.pdf}}
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\begin{document}
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\maketitle
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\section{Features}
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\begin{itemize}
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\item{Distribute a low jitter clock signal.}
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\item{SMA \& MMCX clock input.}
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\item{4 SMA \& 6 MMCX output.}
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\item{\textless100 fs RMS clock jitter.}
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\end{itemize}
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\section{Applications}
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\begin{itemize}
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\item{Distribute clock signal.}
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\item{Clock distribution amplifier.}
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\item{Drive clocks input for:\begin{itemize}
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\item{4410/4412 DDS Urukul}
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\item{4456 Synthesizer Mirny}
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\item{4624 Phaser}
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\end{itemize}}
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\end{itemize}
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\section{General Description}
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The 7210 Clocker card is a 4hp EEM module.
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It distrubites clock signal with \textless100 fs RMS jitter.
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Clock input can be supplied to Clocker through the external SMA connector or the internal MMCX connector.
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The input source can be selected using an SPDT switch.
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Each card distributes the input to 10 outputs.
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4 outputs are interfaced with SMA connectors, the other 6 are with MMCX connectors.
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Clocker can be powered externally or internally.
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To provide external power, connect an external 12V power source through the front panel power jack.
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Otherwise, connect it to a carrier card (1124 Kasli or 1125 Kasli-SoC) using the EEM port.
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% Switch to next column
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\vfill\break
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\begin{figure}[h]
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\centering
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\scalebox{0.95}{
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\begin{circuitikz}[european, scale=1.2, every label/.append style={align=center}]
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\begin{scope}[]
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% Node to pin-point the locations of IO symbols
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\draw[color=white, text=black] (-0.1, 1.05) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (sma1) {};
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\draw[color=white, text=black] (-0.1, 1.4) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (sma0) {};
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\draw[color=white, text=black] (-0.1, 0.7) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (sma2) {};
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\draw[color=white, text=black] (-0.1, 0.35) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (sma3) {};
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\draw[color=white, text=black] (-0.1, -0.35) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx4) {};
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\draw[color=white, text=black] (-0.1, -0.7) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx5) {};
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\draw[color=white, text=black] (-0.1, -1.05) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx6) {};
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\draw[color=white, text=black] (-0.1, -1.4) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx7) {};
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\draw[color=white, text=black] (-0.1, -1.75) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx8) {};
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\draw[color=white, text=black] (-0.1, -2.1) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx9) {};
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% Labels for all IO symbols
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\node [label=center:\tiny{OUT 0}] at (sma0) {};
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\node [label=center:\tiny{OUT 1}] at (sma1) {};
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\node [label=center:\tiny{OUT 2}] at (sma2) {};
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\node [label=center:\tiny{OUT 3}] at (sma3) {};
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\node [label=center:\tiny{OUT 4}] at (mmcx4) {};
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\node [label=center:\tiny{OUT 5}] at (mmcx5) {};
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\node [label=center:\tiny{OUT 6}] at (mmcx6) {};
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\node [label=center:\tiny{OUT 7}] at (mmcx7) {};
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\node [label=center:\tiny{OUT 8}] at (mmcx8) {};
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\node [label=center:\tiny{OUT 9}] at (mmcx9) {};
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% draw all IO symbols
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\begin{scope}[scale=0.07 , rotate=-90, xshift=-20cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=-15cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=-10cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=-5cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=5cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=10cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=15cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=20cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=25cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=-90, xshift=30cm, yshift=2cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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% Draw dotted enclosure to diferentiate SMA from MMCX outputs
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% Extend the enclosure to the right
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\draw[color=white, text=black] (0.5, 0.35) node[twoportshape, circuitikz/bipoles/twoport/width=0.1, scale=0.1 ] (sma_east) {};
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\draw[color=white, text=black] (0.5, -0.35) node[twoportshape, circuitikz/bipoles/twoport/width=0.1, scale=0.1 ] (mmcx_east) {};
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\node[draw, dotted, thick, rounded corners, inner xsep=0.7em, inner ysep=0.4em, fit=(sma0) (sma3.south west) (sma_east)] (sma_box) {};
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\node[fill=white, rotate=-90] at (sma_box.west) {SMA};
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\node[draw, dotted, thick, rounded corners, inner xsep=0.7em, inner ysep=0.4em, fit=(mmcx9) (mmcx4.north west) (mmcx_east)] (mmcx_box) {};
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\node[fill=white, rotate=-90] at (mmcx_box.west) {MMCX};
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% Draw clock buffer
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\draw (2.6, 0) node[twoportshape, t={Clock Buffer}, circuitikz/bipoles/twoport/width=2, circuitikz/bipoles/twoport/height=2, scale=0.7] (clk_buf) {};
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% Draw clock input symbols
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\begin{scope}[scale=0.07 , rotate=90, xshift=-5cm, yshift=-66cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\begin{scope}[scale=0.07 , rotate=90, xshift=5cm, yshift=-66cm]
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\draw (0,0.65) -- (0,3);
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\clip (-1.5,0) rectangle (1.5,1.5);
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\draw (0,0) circle(1.5);
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\clip (-0.8,0) rectangle (0.8,0.8);
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\draw (0,0) circle(0.8);
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\end{scope}
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\draw[color=white, text=black] (4.5, 0.35) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (mmcx_clkin) {};
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\draw[color=white, text=black] (4.5, -0.35) node[twoportshape, circuitikz/bipoles/twoport/width=1.2, scale=0.4 ] (sma_clkin) {};
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\node [label=right:\tiny{MMCX CLK IN}] at (mmcx_clkin) {};
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\node [label=right:\tiny{SMA CLK IN}] at (sma_clkin) {};
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% Draw the SPDT switch
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\draw (2.6, -2) node[twoportshape,t=\fourcm{Input Clock \phantom{spac} }{Selection Switch}, circuitikz/bipoles/twoport/width=2.7, scale=0.6] (clk_sel) {};
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\begin{scope}[xshift=3cm, yshift=-1.78cm, scale=0.12, every node/.style={scale=0.1}, rotate=-90 ]
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\draw (0.4,0) to[short,-o](0.75,0);
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\draw (0.78,0)-- +(30:0.46);
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\draw (1.25,0)to[short,o-](1.6,0) ;
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\end{scope}
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% Connect CLKINs to the clock buffer
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\draw [-latexslim] (4.41, 0.35) -- (3.41, 0.35);
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\draw [-latexslim] (4.41, -0.35) -- (3.41, -0.35);
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% Connect the CLK SEL switch to the clock buffer
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\draw [-latexslim] (clk_sel.north) -- (clk_buf.south);
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% Connect the clock buffer to all output connectors
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\draw [-latexslim] (1.79, 0.2) -- (1, 0.2) -- (1, 0.35) -- (0.25, 0.35);
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\draw [-latexslim] (1.79, 0.3) -- (1.1, 0.3) -- (1.1, 0.7) -- (0.25, 0.7);
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\draw [-latexslim] (1.79, 0.4) -- (1.2, 0.4) -- (1.2, 1.05) -- (0.25, 1.05);
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\draw [-latexslim] (1.79, 0.5) -- (1.3, 0.5) -- (1.3, 1.4) -- (0.25, 1.4);
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\draw [-latexslim] (1.79, -0.1) -- (0.9, -0.1) -- (0.9, -0.35) -- (0.25, -0.35);
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\draw [-latexslim] (1.79, -0.2) -- (1.0, -0.2) -- (1.0, -0.7) -- (0.25, -0.7);
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\draw [-latexslim] (1.79, -0.3) -- (1.1, -0.3) -- (1.1, -1.05) -- (0.25, -1.05);
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\draw [-latexslim] (1.79, -0.4) -- (1.2, -0.4) -- (1.2, -1.4) -- (0.25, -1.4);
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\draw [-latexslim] (1.79, -0.5) -- (1.3, -0.5) -- (1.3, -1.75) -- (0.25, -1.75);
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\draw [-latexslim] (1.79, -0.6) -- (1.4, -0.6) -- (1.4, -2.1) -- (0.25, -2.1);
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\end{scope}
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\end{circuitikz}
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}
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\caption{Simplified Block Diagram}
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\end{figure}
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\begin{figure}[hbt!]
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\centering
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\includegraphics[height=3in]{Clocker_FP.jpg}
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\includegraphics[height=3in]{photo7210.jpg}
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\caption{Clocker Card photo}
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\end{figure}
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% For wide tables, a single column layout is better. It can be switched
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% page-by-page.
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\onecolumn
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\section{Electrical Specifications}
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Specifications are derived based on the datasheets of
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the clock buffer (ADCLK950BCPZ\footnote{\label{clock_buffer}https://www.analog.com/media/en/technical-documentation/data-sheets/ADCLK950.pdf}) \&
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the RF transformer (TCM2-43X+\footnote{\label{rf_transformer}https://www.minicircuits.com/pdfs/TCM2-43X+.pdf}).
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Clock output specifications is tested by supplying a 100 MHz DDS signal to the SMA input connector.\footnote{\label{clocker6}https://github.com/sinara-hw/Clocker/issues/6\#issuecomment-414048168}
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The output is connected to an oscilloscope with 50\textOmega~termination.
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\begin{table}[h]
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\centering
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\begin{threeparttable}
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\caption{Clock Specifications}
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\begin{tabularx}{0.9\textwidth}{l | c c c | c | X}
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\thickhline
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\textbf{Parameter} & \textbf{Min.} & \textbf{Typ.} & \textbf{Max.} &
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\textbf{Unit} & \textbf{Conditions} \\
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\hline
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Clock input\repeatfootnote{clock_buffer}\textsuperscript{,}\repeatfootnote{rf_transformer} & & & & & \\
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\hspace{3mm} Peak-to-peak voltage & 0.40 & & 2.40 & V\textsubscript{p-p} & \\
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\hspace{3mm} Frequency & 10 & & 4000 & MHz & \\
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\hline
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Clock output
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& & 0.8 & & V\textsubscript{p-p} & \multirow{3}{*}{50\textOmega~load, 100 MHz} \\
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& & 5 & & dBm & \\
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\thickhline
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\end{tabularx}
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\end{threeparttable}
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\end{table}
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\begin{figure}[H]
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\centering
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\includegraphics[width=5in]{clocker_waveform.png}
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\caption{Waveform of Clocker at 100 MHz\repeatfootnote{clocker6}}
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\end{figure}
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\newpage
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\section{Selecting Clock Source}
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Clock input can be supplied to the 7210 Clocker using either the internal MMCX connector or the external SMA connector on the front panel.
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The selection of clock input is configurable by a SPDT switch.
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It is located between the MMCX input connector (\texttt{INT CLK IN}) and the MMCX output connectors.
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\begin{multicols}{2}
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Either INT or EXT can be selected.
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\begin{itemize}
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\itemsep0em
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\item Internal MMCX (INT) \\
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Clock signal from the MMCX connector \texttt{INT CLK IN} is distributed to all MMCX outputs.
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\item External SMA (EXT) \\
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Clock signal from the SMA connector \texttt{CLK IN} on the front panel is distributed to all MMCX outputs.
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\end{itemize}
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\columnbreak
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\begin{center}
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\centering
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\includegraphics[height=1.7in]{clocker_spdt_switch.jpg}
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\captionof{figure}{Position of the SPDT switch}
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\end{center}
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\end{multicols}
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\section{Ordering Information}
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To order, please visit \url{https://m-labs.hk} and select the 7210 Clocker in the ARTIQ Sinara crate configuration tool. The card may also be ordered separately by writing to \url{mailto:sales@m-labs.hk}.
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\section*{}
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\vspace*{\fill}
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\input{footnote.tex}
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\end{document}
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