Difference between revisions of "CountingDaq 220318"
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Back to [[Main_Page|Main Page]] >> [[DAQ Meetings|Data Acquisition Meetings]] >> [[DAQ Meetings#Counting mode DAQ meetings|Counting mode DAQ meetings]] | Back to [[Main_Page|Main Page]] >> [[DAQ Meetings|Data Acquisition Meetings]] >> [[DAQ Meetings#Counting mode DAQ meetings|Counting mode DAQ meetings]] | ||
| − | [[CountingDaq_220304 | previous meeting]] << >> [[ | + | [[CountingDaq_220304 | previous meeting]] << >> [[CountingDaq_220415 | following meeting]] |
== Meeting information == | == Meeting information == | ||
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== Minutes == | == Minutes == | ||
| − | Recording on Zoom: | + | Recording on Zoom: [https://jlab-org.zoomgov.com/rec/share/Ltc8Dj-QpbLCex_D3QEDR91AeajJ8BcJXR-nDgYzK6DOCMjr76wIk1UFiZma0sZy.nFm7wyEKxRiJGRhe?startTime=1647618792000] |
| − | Participants: | + | Participants: J. Musson, M. Pitt, A. Camsonne, B. Moffit, Y. Mei, J. Fast, R. Michaels, R. Carlini, K. Evans, N. Rider, D. Armstrong, K. Cole, D. Flay, D. McNulty, C. Ghosh, D. Mack, C. Zorn, Y. Kolomensky |
| + | |||
| + | * John Musson's presentation | ||
| + | ** The digital receiver was initially designed for BPMs in Hall D, so low current sensitivity was a priority | ||
| + | ** The "calibration cell" is where the wire multiplexing is done. The switching is a 1 MHz cycle, ~0.5us for one wire then ~0.5 us for the other. | ||
| + | *** The cavity BPMs also have a calibration cell, that multiplexes the current cavity alternately with the two position cavities | ||
| + | *** Charge monitors or Unsers don't have a calibration cell and are not multiplexed; their signal goes into a single receiver channel | ||
| + | ** The raw 1497MHz signals are downconverted to 45MHz and this is sampled at 60 MHz (with 16-bit ADC) to get a sequence of "I" and "Q" values. About 15 of each of I and Q are summed for each wire to get values for I & Q values for the two wires at 1 Msps. | ||
| + | *** ''Presumably for the charge monitor or Unser, all thirty of the I and Q samples in the 1 us are used to get the I & Q values at 1 Msps.'' | ||
| + | ** The receiver box has one set of 18 bit DACs that can output the 1 Msps wire values. ''I am not clear on what actually gets output; it looks like there are four outputs on the front panel, but we'd have an I and Q for each of the four wires, so that would be 8 signals....'' The latency is a few microseconds, but can be measured precisely. | ||
| + | *** The DACs are AD5781 chips | ||
| + | ** The receiver has more filtered output streams that can be output: 250kHz BW of magnitude and phase, or down to 10 Hz. These might be useful for counting mode. | ||
Latest revision as of 21:27, 19 April 2022
Back to Main Page >> Data Acquisition Meetings >> Counting mode DAQ meetings
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Meeting information
Meeting time: 12:00pm Eastern Zoom connection information Join ZoomGov Meeting https://jlab-org.zoomgov.com/j/1603800887?pwd=aXVmSnN6aWZWN3RBdXB4RUhGckZJdz09 Meeting ID: 160 380 0887 Passcode: 903612 US Tool free phone: (833) 568 8864 Find your local number: https://jlab-org.zoomgov.com/u/ab8341cjcG
Agenda
- Presentation by J. Musson about JLab beam monitor instrumentation status/plans: John's slides in DocDB 877
- Suggested pre-reading material from John: Tech note about JLab digital recievers
- Draft memo about the needs for interfacing the beam monitors with the DAQ, DocDB 876
- Activity updates
- General discussion
Minutes
Recording on Zoom: [1]
Participants: J. Musson, M. Pitt, A. Camsonne, B. Moffit, Y. Mei, J. Fast, R. Michaels, R. Carlini, K. Evans, N. Rider, D. Armstrong, K. Cole, D. Flay, D. McNulty, C. Ghosh, D. Mack, C. Zorn, Y. Kolomensky
- John Musson's presentation
- The digital receiver was initially designed for BPMs in Hall D, so low current sensitivity was a priority
- The "calibration cell" is where the wire multiplexing is done. The switching is a 1 MHz cycle, ~0.5us for one wire then ~0.5 us for the other.
- The cavity BPMs also have a calibration cell, that multiplexes the current cavity alternately with the two position cavities
- Charge monitors or Unsers don't have a calibration cell and are not multiplexed; their signal goes into a single receiver channel
- The raw 1497MHz signals are downconverted to 45MHz and this is sampled at 60 MHz (with 16-bit ADC) to get a sequence of "I" and "Q" values. About 15 of each of I and Q are summed for each wire to get values for I & Q values for the two wires at 1 Msps.
- Presumably for the charge monitor or Unser, all thirty of the I and Q samples in the 1 us are used to get the I & Q values at 1 Msps.
- The receiver box has one set of 18 bit DACs that can output the 1 Msps wire values. I am not clear on what actually gets output; it looks like there are four outputs on the front panel, but we'd have an I and Q for each of the four wires, so that would be 8 signals.... The latency is a few microseconds, but can be measured precisely.
- The DACs are AD5781 chips
- The receiver has more filtered output streams that can be output: 250kHz BW of magnitude and phase, or down to 10 Hz. These might be useful for counting mode.
