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<td>Timebase accuracy</td>
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<td>± 4ppm<br />
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The timebase from a local TCXO on FMC card needs calibration. The 4ppm accuracy is the one of the on-board TCXO. Cesium-quality accuracy will be reached when used on a <a href="https://www.ohwr.org/project/white-rabbit/wikis/Description">White Rabbit</a> enabled FMC carrier.</td>
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<td>± 2.5 ppm<br />
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The timebase from a local TCXO on FMC card needs calibration. The 2.5 ppm accuracy is the one of the on-board TCXO. Cesium-quality accuracy will be reached when used on a <a href="https://www.ohwr.org/project/white-rabbit/wikis/Description">White Rabbit</a> enabled FMC carrier.</td>
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<tr class="even">
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<td>TDC Resolution</td>
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... | ... | @@ -88,7 +88,7 @@ The timebase from a local TCXO on FMC card needs calibration. The 4ppm accuracy |
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<tr class="even">
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<td>Delay accuracy</td>
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<td>Baseline: < 300 ps average, < 1 ns peak-to-peak (minimum delay setting of 600 ns).<br />
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Accuracy is as good as the time base, e.g. for a delay of 1 s using internal time base, the worst case error will be (4 ppm x 1 s) = 4 us. The accuracy can be greatly improved by locking the card to GPS/Cesium clock source through [White Rabbit](https://www.ohwr.org/project/white-rabbit/wikis/Description)</td>
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Accuracy is as good as the time base, e.g. for a delay of 1 s using internal time base, the worst case error will be (2.5 ppm x 1 s) = 2.5 us. The accuracy can be greatly improved by locking the card to GPS/Cesium clock source through [White Rabbit](https://www.ohwr.org/project/white-rabbit/wikis/Description)</td>
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</tr>
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<tr class="odd">
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<td>Time tag buffer</td>
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