Download presentation
Presentation is loading. Please wait.
1
Summer 2000 HF Beam Test. DAQ proposal.
E. Vlassov & T. Camporesi (CERN) Basics: Temporary solution because issue is not test of final readout electronics. Independent hardware to avoid interference with HCAL test in the beam area. Use existing hardware/software as much as possible. Movable setup which can be used in Bld.186 or H2 area.
2
Tasks Read PMTs signals from beam (very low charge!).
To trigger and monitor beam information (scintillators and delay wire chambers). Laser/LED calibration. Source calibration. Control and monitor Nikhef Platform movements.
3
General layout Ethernet HF Linux Midas ROBOX NIM Lecroy 2774 preampl.
Engines (X electrical, Y hydraulic) HF Nikhef Table MWPC Trigger counters Linux Midas ROBOX NIM Lecroy 2774 preampl. CAMAC F B D F I P FASTBUS 1 8 5 Ethernet Spare space
4
Fastbus electronics Lecroy F1885F ADC 1
96 channels, automatic dual range, 12 bits in each range, 0.05pC/count(*) in low range, 0.4pC/count in high range, 15 bits effectively. 2. Lecroy F1882N ADC 96 channels, 12 bits, 0.05pC/count 3. Lecroy multihit TDC 96 channels, 1ns/count,16bits 4. Digital input/output registers 64 channels in each (*) expect pC/Gev,i.e.1 bit= 25 GeV: we need amplification!
5
Preamplifier Lecroy 2724, 2 compatible with 1880 series ADCs
Amplification 160 24 channels, noise<1.5fC, dynamic range >32000. Input impedance 60W. Short cable? Might need AC coupling: will need to test when we get ROBOX (and base!) at CERN We have only 2 preamp boards (48 chan), but can get two more with 1 week notice
6
HF sourcing HF Source driver ROBOX Multiplexer Electrometer ADC
Connection to driver, multiplexer and ADC through RS232 and FASTBUS-CAMAC
7
Multiplexer and ADC. (for source calibration)
Electrometer
8
Multiplexer/Borer ADC (for Source calibration)
Relay multiplexer Nuclear Ent. 9024/S2 64 way 3 pole relay, low thermal EMF<10mkv, driving by 9600/S1 CAMAC module. CAMAC Borer 1241 DC ADC, 11 bits+sign, 7 programmable ranges of sensitivity (20mv –10v). Charge protection – 3 ways: To use 2 unused poles To use 2-nd stage CAMAC multiplexer To modify multiplexer. Half of day job.
9
Platform Vertical direction: Control – TTL potentials (4 outputs)
Position Readout (Heidenhain linear transducer readable via RS232) precision 10 microns Horizontal direction: Control – TTL 5kHz pulses with variable duty cycle. Position readout: resistive wire current readout ( recuperated) precision 1 mm (determined by ADC sensitivity)
10
What we do not have yet Connectors to ROBOX and preamp
Might need more NIM/CAMAC modules from the POOL ( for signal conversions etc.) NEXT STEPs: Commission HF source driver and verify multiplexing scheme Work on ROBOX/preamp setup once we get the ROBOX at CERN from TEXAS Install beam MWPC and trigger counters in H2 From mid-june control units and engines for platform should be available and we will start exercising it (issues: calibration of displacement monitors, stability/reproducibility of hydraulic system)
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.