forked from sinara-hw/datasheets
2118-2128: add TTLClockGen example
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@ -535,6 +535,16 @@ To count falling edges or both rising \& falling edges, use \texttt{gate\char`_f
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One channel needs to be configured as input, and the other as output.
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\inputcolorboxminted{firstline=74,lastline=80}{examples/ttl.py}
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\subsection{62.5 MHz clock signal generation}
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A TTL channel can be configured as a \texttt{ClockGen} channel, which generates a periodic clock signal.
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Each channel has a phase accumulator operating on the RTIO clock, where it is incremented by the frequency tuning word at each coarse RTIO cycle.
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Therefore, jitter should be expected when the desired frequency cannot be obtained by dividing the coarse RTIO clock frequency with a power of 2. \\
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Typically, with the coarse RTIO clock at 125 MHz, a \texttt{ClockGen} channel can generate up to 62.5 MHz.
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\inputcolorboxminted{firstline=100,lastline=103}{examples/ttl.py}
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\newpage
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\section{Ordering Information}
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To order, please visit \url{https://m-labs.hk} and select the 2118 BNC-TTL/2128 SMA-TTL 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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@ -90,3 +90,14 @@ class ShortPulse(EnvExperiment):
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self.core.reset()
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delay(6*ns) # Coarse RTIO period: 0 - 7 ns
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self.ttl0.pulse(3*ns) # Coarse RTIO period: 8 - 15 ns
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class ClockGen(EnvExperiment):
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def build(self):
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self.setattr_device("core")
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self.ttl0 = self.get_device("ttl0")
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@kernel
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def run(self):
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self.core.reset()
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self.ttl0.set(62.5*MHz)
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