(1) Response comparison of the n-isolation structures:
common p-stop
indidividual p-stop
combined p-stop
open-slit common p-stop.
This measurement will utilise the high precision telescope modules
to localise beam hits in the different p-stop regions that have been
implemented across the prototype detector. It will require the
repositioning of beam and (narrow acceptance) telescope relative
to the DUT strips across the width of the DUT.
(2) Response along strip length: effect of strip resistance
This measurement will require repositioning of the beam and telescope
relative to the DUT along the length of the DUT strips.
??? Location (height) to attach DUT's to the stage ???
(3) Response under the polysilicon resistor
The Hamamatsu nn80AC detector has the implant strip extention under
the polysilicon resistor (note: nn75AC detector does not intentionally.)
This measurement is the reference to the response to the beam of the
irradiated detector (which will be beamtested in near future.
??? Which region, where the poly-silicon resistor???
A: Hamamatsu nn80AC detector-module (UCSC-KEK1, UCSC-KEK2)
Centre-tap Barrel module (UCSC-KEK1)
Back-to-back double-sided of the n-on-n detectors,
12 cm, electronics tapping at the middle of the 12 cm strip,
LBIC+CDP+HAC, fully loaded in double-side (aimed)
End-tap Barrel module (UCSC-KEK2)
Back-to-back double-sided of the n-on-n detectors,
12 cm, electronics tapping at the end of the 12 cm strip,
LBIC+CDP+HAC, fully loaded in double-side (aimed)
Goals: (1), (2) (???rotate the DUT???), (3)
B: UK modules:
Forward 2 modules, (Outer frame: ~160 mm x ~270 mm)
LIV1:
Single-sided 12 cm end-tap, 6 and 12 cm regions, LBIC
half-populated, central region to go in beam
??? Move the height when measure the 6 or 12 cm ???
LIVCAFE:
12cm CAFE module, end-tap (6 cm version was used in 96 H8)
Goals: (2), (3)?
Barrel 1 modules (RAL1):
Single-sided 12 cm, centre-tap, BeO hybrid, fully populated LBIC
with Hammamatsu detectors
(Completion date: ~ Feb 3rd)
Goals: (1), (3)
C: Melbourne module:
Forward 1 module (MEL1):
SS 12cm LBIC centre-tap, 2 chipsets only on one side, i.e., first
2cm of width to go in beam.
### ??? Partially populated modules ->Inform the instrumented region to KEK ???
Any drawings to indicate the relative height, connector side, ...
kek97 setup:
-----------------------
Physical DAQ Name Nature
position desig.
=============================================================================
#0 DSP4 UKB DUT UK Centre-tap
#1 IRAM0 TS0 Telesope A (fixed)
#2 DSP0 KEK1 DUT UCSC-KEK Centre-tap
#3 DSP1 KEK2 DUT UCSC-KEK End-tap
#4 IRAM1 TS1 Telescope B
#5 DSP2 LBIC1 Anchor (fixed)
#6 DSP3 LIV1 DUT UK Forward (LBIC)
#7 DSP4 LIVC DUT UK Forward (CAFE)
#8 ---- TS2 Telescope (fixed)
============================================================================
#9 DSP4 MEL1 DUT Melbourne Centre-tap Forward
(upstream) Trigger scintillators
S1 (10cm x 10cm)
S2 (2cm x 2cm) * S3 ( 2cm x 2cm)
Modules in the shield box:
Modules (top view, bottom view)
X-Y stage
Beamline
Notes:
(1) UKB and MEL1 modules are to be planced in the upstream of the first telescope.
DSP4 is to be used by swapping the cables in the electronics hut.
(2) Each telescope module contains two 2 silicon planes, X and Y,
each telescope plane with 384 x 50um strips, 19.2 mm x 19.2 mm acceptance.
(3) All Devices-Under-Test (DUT) are binary modules, by default 12cm x 6cm.
(4) The mechanical structure will have the telescope modules and DUTs
interleaved but mounted on separate structures to permit relative motion.
Back to Contents
Current indications are that the beamtest will be a continuous period of 3 to 7 days within the window 10 - 20 February 1997. This schedule is provisional for planning purposes only. Final schedule should be available about January 22. (Latest as of Jan. 17) S 01 S 02 M 03 T 04 W 05 T 06 F 07 S 08 S 09 Essential DAQ components to have arrived at KEK. M 10 DAQ & initial modules installed and tested in lab. at KEK. T 11 W 12 . Installation at beamline T 13 . Checkout & parasitic running F 14 . S 15 . S 16 X Start SCT main user (24 hour operation) M 17 X T 18 X W 19 X Finish SCT main user T 20 Clearing the beamline, End-of-run party F 21 S 22 S 23 M 24 Start SCT Week at CERNBack to Contents
Some travel dates as presently advised: (arr - dep KEK) (Oversea) On-site accomm. Helmuth Spieler Feb 9 ev - 15 X Jim Siegrist Feb 9 ev - 15 X Gareth Moorhead Feb 10 mo - 21 X Geoff Taylor Feb 10 mo - 21 X John Richardson Feb 8 - 24 X Peter PHILLIPS Feb 8 - 21 X Debbie MORGAN Feb 8 - 21 X Ken Wyllie Feb 9 - 21 X (Domestic) Yosei IWATA Feb 11 - 21 X Takafumi OHMOTO Feb 11 - 21 X Hiroaki KITABAYASHI Feb 2 - 28 X Ryuiichi TAKASHIMA Feb 7 - 14 X Itsuo NAKANO Feb 15 - 19 -- (Feb 10 - 12) Tomoyuki UMEDA Feb 6 - 21 X Hiroshi YAGI Feb 6 - 21 X (KEK) Yoshinobu UNNO Susumu TERADA Takashi KOHRIKI (Engineer) Crews of the beamtest (not everyone included...Sorry) Snap shots in the end-of-run party: Unno, Umeda, Phillips, Wyllie, Matsuda, Morgan, Richardson, Kitabayashi, Ohmoto, Taylor, Unno, Moorhead,Here is the e-mail mailing list.
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Provisional list of equipment required. Please ensure equipment arrives at KEK
on or before Monday February 10.
NB: ### = Current status or wherabouts UNKOWN - PROBLEM !!
Status #Req Type Name Arrives from via Return to via
DUTs:
=====
1 VME Trigger board 02/2 CERN NU CERN
1 Cable: TCB-DSPs 02/2 CERN NU CERN
1 UCI Mechanics set 02/2 CERN NU CERN
1 Cable: ECLTransl-TCB 02/2 CERN NU
1 HP8110A pulse generator KEK NU
1 NIM Coincidence unit KEK NU
(clock conditioning)
6 ? VME DSPs and LL cards
0 KEK
### 1 09/2 UCSC ST?
2 09/2 RAL JR RAL
3 09/2 Liv. JR Liv.
==> 4 09/2 Shef DM
5 10/2 Melb. GFM Melb.
6 ? VME Bias cards 0 KEK NU
### 1 09/2 UCSC ST?
2 09/2 RAL JR RAL
3 09/2 Liv. JR Liv.
==> 4 09/2 Shef DM
5 10/2 Melb. GFM Melb.
6 02/2 CERN NU
6 ? 20m 50/ IDC x5 KEK NU
x1 10/2 Melb. GFM Melb.
x2 08/2 UK JR
6 ? 20m LV cables x5 KEK
x1 10/2 Melb. GFM Melb.
### 6 20" 34/ IDC ?
### 6 20" 20/ IDC ?
### 5 2m det. bias cables KEK NU
5 Det. bias supplies KEK ? 3? NU
(200V ?)
? Det. LV supplies KEK ? NU
1 Vbus tweaking supply KEK ? NU
Telescope:
==========
1 NIM Viking Timing Unit KEK NU
(modified for IRAMs)
3 VME IRAMs KEK CERN NU CERN ?
3 Telescope modules KEK NU
1 Telescope bias supply KEK NU
(50 - 100V)
### 3 Differential LEMO cables KEK ? NU
### 1 Data cable (VTU-IRAMs) KEK ? NU
### 1 20m data cable (VTU-Modules) KEK ? NU
### 1 Bias cable KEK ? NU
Moving stage/Shield box:
========================
1 X/Y moving stage KEK
1 X/Y stage controller KEK
1 Shield box KEK
1 Stage adjustment lift KEK
Crates:
======
2 NIM crate incl. +/-6V KEK NU
1 VME CERN-spec crate KEK NU
### 1 VME (bias cards) KEK ? NU
Trigger:
=======
3 Scint's(S1,S2&S3,S4) KEK NU
1 NIM HV supply (multi) KEK NU
2 NIM Discriminator KEK NU
1 NIM Coincidence unit KEK NU
1 NIM Triple 4-fold coinc. KEK NU
2 NIM Dual pulsers
- spill gates 10/2 Melb. GFM Melb.
- busy generator KEK ?
1 NIM Pulser for rnd. trigs.KEK NU
1 NIM Logic fan-in/out KEK NU
2 NIM Scalers KEK NU
1 NIM Scaler (Spare) 10/2 Melb. GFM Melb.
DAQ:
===
1 VME RAID 09/2 Camb. KW Camb.
1 RAID disk 09/2 Camb. KW Camb.
1? RAID disk SPARE ?
1 RAID SCSI Cable 09/2 Camb. KW Camb.
1 RAID ethernet cable 09/2 Camb. KW Camb.
1 RAID RS232 cable 09/2 Camb. KW Camb.
1 VME CORBO 09/2 Camb. KW Camb.
1 VME 8004 Dataway display 10/2 Melb. GFM Melb.
1 Ethernet transceiver KEK NU
1 Text terminal KEK NU
1 Exabyte drive KEK ? NU
1 NIM NIM Linear Fanout KEK
1 NIM ECL-NIM-ECL 10/2 Melb. GFM Melb.
1 NIM TTL-NIM-TTL 10/2 Melb. GFM Melb.
1 Backend HP9000 715/80 KEK NU
1 Mass storage KEK ? NU
1 Removable mass storage? KEK ? NU
TDC:
===
1 VME TDC (CAEN V488) 02/2 CERN NU CERN ?
1? VME TDC (CAEN V488) Alt. 10/2 Melb. GFM Melb.
Lead-glass:
===========
1 Lead-glass + PM KEK NU
1 VME Pentek ADC 10/2 Melb. GFM Melb.
Diagnostic equipment:
=====================
1 Analogue oscilloscope KEK
1 Digital oscilloscope KEK
2 Multimeters KEK
Back to Contents
Front-end (RAID)
================
versions current required changes
DAQ: tb_int )
tb_format ) TB.007 (H8'96) TB.008 (KEK'97) Update directories
tb_dskxmit )
tb_make.eplx OK
tb_config H8'96 KEK'97 Update detectors present
iram_lib.lib OK
sload OK
usernew.p OK
binary.lib OK ? 6 DSPs OK ?
tdc_lib.lib OK
pentek.lib OK
Monitor: tb_disk H8'96 KEK'97 Update directories
Back-end (HP9000 715/80)
========================
Monitor: tb_rmon H8'96 KEK'97 Compile under HP-UX
tbm_iram.o H8'96 KEK'97 Adapt module-module correlations
tbm_tdc.o OK
tbm_binary.o H8'96 KEK'97 Compile under HP-UX
Adapt for forward geometries ?
tbm_pentek.o KEK'96 KEK'97 Add Ecal PH - binary occupancy corrs.
TB_PAW: tb_paw.kumac H8'96 KEK'97 Confirm PAW availability
Update directories
tbp_iram.kumac OK
tbp_tdc.kumac OK
tbp_binary.kumac H8'96 KEK'97 Add new histos as required
tbp_bin2.kumac
tbp_pentek.kumac KEK'96 KEK'97 Add new histos as required
tb_web: ? Tool for logging run info. in HTML
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Last update: 26 January 1997