Power supply planning for upgrade OT Scintillating Fibre Wilco Vink On behalf of the SciFi group 19 May 2014
OT Wiener Maraton systems ◦ 72 outputs * 300W = 21.6kW ◦ 6 power boxes,12 channels per power box Wiener output max 8v/50A ◦ But: 1v margin needed for cable voltage drop (25m+25m) ◦ Currently configured Vout = 7V, voltage at front end +/- 6V Detector power for 432 front-end boxes + controls: 11kW LV Power supplies LV Power supplies Wilco Vink 219 May 2014
Wilco Vink 319 May 2014 LV distr box1 LV distr box2 LV distr box1 FE Boxes 6 rectifiers and controllers 6 power bins in bunker below trackers 3 C-side 3 A-side Shielding Wall FE Boxes Low voltage cabling TO each C-frame 12 35 mm 2
Thick cables to detector distribution box ◦ 25m*2 35mm2 for 27A For upgrade up to 45A Thin cables from distribution box to FE- modules/ROB ◦ 8m*2 2.5mm2 ◦ 9 FE-modules 6 ROB Same supply cabling for upgrade Wilco Vink 419 May 2014 Wiener1: +6V/45A Wiener2: +6V/45A Wiener3: +6V/45A Wiener4: +6V/45A Wiener5: +6V/45A Wiener6: +6V/45A Wiener7: +6V/45A 12 Cframes LV distribution boxes
FEASTMP DC-DC converters Power requirements not yet all known, expected to have more details from test results Q3/Q ◦ Test of PACIFIC2 with analog and digital circuits second half of this year ◦ Microsemi FPGA, proto boards planned for Q Upgrade FE consumption Wilco Vink 519 May 2014 Cern DC-DC converter ◦ Specifications Vin=5-12V Vout=0.6-5V Iout<=4A frequency=1.8 MHz Power supplies needed for front-end modules ◦ 1.2v: GBT-SCA Microsemi FPGA core voltage ◦ 1.5v: GBT 1.5V Microsemi FPGA PACIFIC ◦ 2.5v: LD VTTX 2V / 0.15 A TIA VTRx 2V / 0.1 A Microsemi FPGA 2.5V / 0.5A, 4*= 2A
Per ROB worst case, not all front-end boxes will be equipped with all data GBT’s transmitters ◦ PACIFIC/Microsemi FPGA unknown (??W) ◦ 16 GBTx 1.5V/728mA (~17.5W) ◦ 16+1 LD 2.5V/0.15A (~6.4W) ◦ 1 TIA 2.5V/0.1A (0.25W) ◦ 2+8 SCA 1.2V 0.1A (0.12W) ◦ 2 Master GBT chipset : 2W (4W) Total per ROB: (28W + unknown) DC/DC FEASTMP converters efficiency ~75% Upgrade FE consumption Wilco Vink 619 May 2014
Reuse the OT Maratons Additional Wiener power boxes in tunnel ◦ Extra Maraton systems ◦ Extra thick supply wires from power box in bunker to LV- distribution box on detector ◦ New distribution box (no of connections and only positive voltages) Upgrade of the LV Wilco Vink 719 May 2014
CEAN experiment multichannel system SY1527LC HV supply boards: A1833BPLC, double width, using 28 HV channels with positive polarity Cabling: ◦ 48 long-distance multi-wire cables ◦ 12 Cframes x 4 cables/Cframe ◦ from Patch panels in D3 to the C-frames are connected to the HV power supplies by means of two junction boxes, one per detector side(located: D3-D03) OT HV power supplies and distribution Wilco Vink 819 May 2014 Most of this not usable for SciFi!
100v Max. required ◦ 50mV resolution 30V for KETEK SiPM 65V for Hamamatsu Total number of HV channels: ◦ 288 Read Out Boxes * 16 SiPM’s ◦ Share a HV line per 4 SiPM’s (1152 HV channels) Assuming: sufficient current available good uniformity among SiPM array Vbd good temperature uniformity Ordered for SiPM EPFL ◦ Caen 32 10mA channels, per module ◦ 8 modules per crate 10mA per output Planned for the final system 15mA / channel HV for upgrade Wilco Vink 919 May 2014 Guido Haefeli (EPFL) looking into HV system for SiPMs
LV supplies ◦ We can reuse the Wiener Maraton power supplies (assuming maintenance contract ok!) Re-configure the Negative output to positive ◦ We need additional power supplies and cabling ◦ Voltage drop over thick cables will increase with higher currents less margin ◦ Q3/Q will give us a better view of total power HV supplies ◦ OT HV modules not usable for upgrade (mainframe?) ◦ (re)use of cabling needs further study Conclusion Wilco Vink 1019 May 2014