Difference between revisions of "Controls Meeting 21-Mar-2013"
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* Announcements | * Announcements | ||
* Minutes from previous meeting [[Controls_Meeting_7-Mar-2013|7-Mar-2013]] | * Minutes from previous meeting [[Controls_Meeting_7-Mar-2013|7-Mar-2013]] | ||
− | * | + | * Requirements for BCAL/FCAL LED pulser calibration system - Elton |
* Update on FCAL dark room - Dan, John, Manuel | * Update on FCAL dark room - Dan, John, Manuel | ||
* Update on PLC test stand - Dave | * Update on PLC test stand - Dave | ||
Line 46: | Line 46: | ||
=Minutes= | =Minutes= | ||
+ | |||
+ | Present: Elliott W, Elton S, Dan B, Fernando B, John L, Yi Q, Scot S, Mark S, Dave B, Tara B, Alex S, Hovanes E. | ||
+ | |||
+ | |||
+ | |||
+ | '''BCAL/FCAL Pulser''' | ||
+ | |||
+ | Elton gave a thorough overview of the LED pulser calibration system: | ||
+ | |||
+ | * System needs to send trigger to TS and TTL pulses to LED flashers. | ||
+ | * External power includes 5V and bias to set LED intensity, will use SiPM power supplies. | ||
+ | * LED flashed via capacitor discharge. | ||
+ | * Will have LED boards, distribution boards and external TTL pulsing system. | ||
+ | * LED boards done, distribution boards and pulsing system to be designed. | ||
+ | * For trigger timing all cables will be equal length, will get ~5ns jitter. | ||
+ | * Need 50' LEMO cables from VME crates to distribution cards. | ||
+ | * Cables from distribution boards about 12'. | ||
+ | * 4 lines go to each LED board. | ||
+ | * Will use three CAEN V1495 modules to generate TTL pulses, about $5k each incl. mezzanine boards. | ||
+ | * Max 16 TTL channels per V1495. | ||
+ | * Will likely use two VME crates, one for BCAL with two V1495's, one for FCAL with one V1495. | ||
+ | * Not clear if crates need to be purchased, hope to find free slots in other crates. | ||
+ | * Hope to not have to put V1495's in DAQ crates (discriminator crates are ok). | ||
+ | * V1495 has many LVDS outputs suitable for input to TS. | ||
+ | * FCAL has 10 LED boards per quadrant, 4 LED's per board, three colors. | ||
+ | * FCAL does not use distribution board, TTL signals go directly to LED boards. | ||
+ | * Ben will program V1495, 2 man-weeks allocated. | ||
+ | * Need to program pulse width, trig-to-pulse delay, start, stop, #pulses, etc. | ||
+ | * Once written and tested the FPGA code is not expected to need to change. | ||
+ | * V1495 has programmable switches that could be used to implement local operational modes. | ||
+ | * Will use EPICS to control V1495 operation. | ||
+ | * EPICS driver needs to be written (Nerses or Hovanes). | ||
+ | * Considering running pulsers all the time at low rate during data taking. | ||
+ | * Max conceivable pulse rate 1 MHz, less ok. | ||
+ | |||
+ | |||
+ | |||
+ | '''FCAL Controls''' |
Revision as of 13:19, 22 March 2013
Agenda
- Announcements
- Minutes from previous meeting 7-Mar-2013
- Requirements for BCAL/FCAL LED pulser calibration system - Elton
- Update on FCAL dark room - Dan, John, Manuel
- Update on PLC test stand - Dave
- Counting House status - Hovanes, Elliott
- furniture, computers, networks, etc.
- EPICS update - Hovanes
- Solenoid update - Mark, Scot, Elliott
- Progress on other controls applications - Dave
- storing/retrieving PLC parameters
- What is the role of the JInventory system - All
- relation to DAQ, HV/LV control, cabling?
- need to finalize conventions and get all equipment entered
- need to purchase/print and install barcode labels
- some software improvements and bug fixes remain
- other halls interested, may provide programming manpower
- Mantis task tracker
- start using this again?
- Midas elog
- Experiment Control Supervisor - Elliott
Time/Location
9:30AM Thurs 21-Mar-2013 CC A110
Announcements
Next Meeting
9:30am Thurs 4-Apr-2013
Minutes
Present: Elliott W, Elton S, Dan B, Fernando B, John L, Yi Q, Scot S, Mark S, Dave B, Tara B, Alex S, Hovanes E.
BCAL/FCAL Pulser
Elton gave a thorough overview of the LED pulser calibration system:
- System needs to send trigger to TS and TTL pulses to LED flashers.
- External power includes 5V and bias to set LED intensity, will use SiPM power supplies.
- LED flashed via capacitor discharge.
- Will have LED boards, distribution boards and external TTL pulsing system.
- LED boards done, distribution boards and pulsing system to be designed.
- For trigger timing all cables will be equal length, will get ~5ns jitter.
- Need 50' LEMO cables from VME crates to distribution cards.
- Cables from distribution boards about 12'.
- 4 lines go to each LED board.
- Will use three CAEN V1495 modules to generate TTL pulses, about $5k each incl. mezzanine boards.
- Max 16 TTL channels per V1495.
- Will likely use two VME crates, one for BCAL with two V1495's, one for FCAL with one V1495.
- Not clear if crates need to be purchased, hope to find free slots in other crates.
- Hope to not have to put V1495's in DAQ crates (discriminator crates are ok).
- V1495 has many LVDS outputs suitable for input to TS.
- FCAL has 10 LED boards per quadrant, 4 LED's per board, three colors.
- FCAL does not use distribution board, TTL signals go directly to LED boards.
- Ben will program V1495, 2 man-weeks allocated.
- Need to program pulse width, trig-to-pulse delay, start, stop, #pulses, etc.
- Once written and tested the FPGA code is not expected to need to change.
- V1495 has programmable switches that could be used to implement local operational modes.
- Will use EPICS to control V1495 operation.
- EPICS driver needs to be written (Nerses or Hovanes).
- Considering running pulsers all the time at low rate during data taking.
- Max conceivable pulse rate 1 MHz, less ok.
FCAL Controls