AGH TRAINEE AT 01 JULY – 30 SEPTEMBER 2014. INTRODUCTION 1. CERN 2. Vacuum Group 3. ICM Section 4....
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AGH TRAINEE AGH TRAINEE AT AT 01 JULY – 30 SEPTEMBER 01 JULY – 30 SEPTEMBER 2014 2014
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Transcript of AGH TRAINEE AT 01 JULY – 30 SEPTEMBER 2014. INTRODUCTION 1. CERN 2. Vacuum Group 3. ICM Section 4....
AGH AGH TRAINEE ATTRAINEE AT
01 JULY – 30 SEPTEMBER 01 JULY – 30 SEPTEMBER 2014 2014
AGH AGH TRAINEE ATTRAINEE AT
01 JULY – 30 SEPTEMBER 01 JULY – 30 SEPTEMBER 2014 2014
INTRODUCTION
1. CERN2. Vacuum Group3. ICM Section4. My tasks
2Magdalena Karpiel
CERNEuropean Organization for Nuclear Research
Research on
the fundamental structure
of the universe
Research on
the fundamental structure
of the universe
3Magdalena Karpiel
VACUUM GROUP
Design, construction, operation, maintenance and upgrade of high & ultra-high vacuum systems for Accelerators and Detectors.
Expertise, support and management:
•on thin-walled vacuum chambers, windows and bellows compensation systems
•in vacuum sealing and leak-tightness technology
•in dynamic vacuum phenomena
•of the industrial support contract for vacuum work in accelerators
•in vacuum control systems, vacuum interlocks and monitoring tools
4Magdalena Karpiel
TE-VSC-ICMInterlocks, Controls and Monitoring Section
In charge of the design, maintenance & consolidation
of the vacuum control systems of all Accelerators and Detectors.
Vacu
um C
ontr
olle
rs A
rchi
tect
ure
5Magdalena Karpiel
Introduction to the Naming Convention and Architecture of the Vacuum SystemParticipate in the control Topology for the ICM Quality Management Project
Format and enter information (studying VBA & Excel formulas)Update of equipment and rack layouts of Linac 4 and creation of equipment lists, to be imported in the CERN Central DATABASE in the future
MY TASKS
6Magdalena Karpiel
ED
MS#
1310
709
A REMINDER ON ICM NAMING CONVENTION
used for my tasks on TOPOLOGY
7Magdalena Karpiel
An inventory has been created with more than 300 codes
It conforms to the “LHC Quality Assurance Definition, which defines the equipment serial number with 19 characters, extensively used in MTF
The new ICM naming convention has been integrated in the Accelerators Naming Portal
https://edms.cern.ch/document/1149103/3
8Magdalena Karpiel
DOCUMENTSVY09-400
PLC_2VPG_USAdr.9
RL1:/
RL2:/
RL3:/
RL4:/
Adr.16VRMTG.400.0901.A
2723626 (A1)2723641 (A2) / / / (B1) / / / (B2)
Adr.17VRMTG.400.0902.A
2723627 (A1)2723642 (A2)
VRMTG.400.0902.B2723628 (B1)2723643 (B2)
L4L.VRGPT300.3312 / L4L.VRGPT300.3524 / 3712RL1:
/RL2:
/RL3:
/RL4:
/
VRPI.400.0902L4L.VPI.3428
VRPI.400.0901L4L.VPI.3722
L4L.VVGS.2326N°2725176
TMPUCtrl
TMPUPower
PLCA
TMPUCtrl
TMPUPower
N°/ / / N°/ / /
PLCB
VRIVC.400.0901
VRILC.400.0901
S03 CHOPPER: VG, VPG, VPI
L4L.VPGR.3622
L4D.VPGR.0244
VY09-400
PLC_2VPG_USAdr.9
RL1:/
RL2:/
RL3:/
RL4:/
Adr.16VRMTG.400.0901.A
2723626 (A1)2723641 (A2) / / / (B1) / / / (B2)
Adr.17VRMTG.400.0902.A
2723627 (A1)2723642 (A2)
VRMTG.400.0902.B2723628 (B1)2723643 (B2)
L4L.VRGPT300.3312 / L4L.VRGPT300.3524 / 3712RL1:
/RL2:
/RL3:
/RL4:
/
VRPI.400.0902L4L.VPI.3428
VRPI.400.0901L4L.VPI.3722
L4L.VVGS.2326N°2725176
TMPUCtrl
TMPUPower
PLCA
TMPUCtrl
TMPUPower
N°/ / / N°/ / /
PLCB
VRIVC.400.0901
VRILC.400.0901
S03 CHOPPER: VG, VPG, VPI
L4L.VPGR.3622
L4D.VPGR.0244
VY10-400
L4D.VVGS.4116N°2725177
RL1:/
RL2:/
RL3:/
RL4:/
Adr.18VRMTG.400.1001.A
2723619 (A1)2723635 (A2)
VRMTG.400.1001.B2723620 (B1)
/ / / (B2)
Adr.19VRMTG.400.1002.A
2723621 (A1)2723636 (A2) / / / (B1) / / / (B2)
RL1:/
RL2:/
RL3:/
RL4:/
VRPI.400.1005L4D.VPI.0165
VRPI.400.1004L4D.VPI.0233
VRPI.400.1003L4D.VPI.0270
VRPI.400.1002L4D.VPI.0332
VRPI.400.1001L4D.VPI.0359
Châssis Interlock RFDTL (3gauges)David Landre (16.42.01)
TMPUCtrl
TMPUPower
N°°/ / / N°°/ / /
PLCA
TMPUCtrl
TMPUPower
PLCB
VRIVC.400.1001
VR
PC
TP0
1.4
00.
10
01
VRILC.400.1001
Junction box for RF
S04 DTL: CG, VPG, VPI
01U
02U
03U
04U
05U
06U
07U
08U
09U
10U
11U
12U
13U
14U
15U
16U
17U
18U
19U
20U
21U
22U
23U
24U
25U
26U
27U
28U
29U
30U
31U
32U
33U
34U
35U
36U
37U
38U
39U
40U
41U
42U
43U
44U
45U
VY10-400
L4D.VVGS.4116N°2725177
RL1:/
RL2:/
RL3:/
RL4:/
Adr.18VRMTG.400.1001.A
2723619 (A1)2723635 (A2)
VRMTG.400.1001.B2723620 (B1)
/ / / (B2)
Adr.19VRMTG.400.1002.A
2723621 (A1)2723636 (A2) / / / (B1) / / / (B2)
RL1:/
RL2:/
RL3:/
RL4:/
VRPI.400.1005L4D.VPI.0165
VRPI.400.1004L4D.VPI.0233
VRPI.400.1003L4D.VPI.0270
VRPI.400.1002L4D.VPI.0332
VRPI.400.1001L4D.VPI.0359
Châssis Interlock RFDTL (3gauges)David Landre (16.42.01)
TMPUCtrl
TMPUPower
N°°/ / / N°°/ / /
PLCA
TMPUCtrl
TMPUPower
PLCB
VRIVC.400.1001
VR
PC
TP0
1.4
00.
10
01
VRILC.400.1001
Junction box for RF
S04 DTL: CG, VPG, VPI
01U
02U
03U
04U
05U
06U
07U
08U
09U
10U
11U
12U
13U
14U
15U
16U
17U
18U
19U
20U
21U
22U
23U
24U
25U
26U
27U
28U
29U
30U
31U
32U
33U
34U
35U
36U
37U
38U
39U
40U
41U
42U
43U
44U
45U
LINAC4 VY-RACKS
MACHINE:
REF ERENCE : TE/VSC
LINAC4
CERN / TE-VSC ECHELLE : NA
FORMAT : A4
INDICE : DevVers11
FICHIER :
MODIFIE:
SOURCE
DESSINE : GIRARDOT G.
BLANCHARD S 2013-09-12
TE-VSC
COMP LE XE _P S\LINAC _4\LINAC 4\LINAC 4-RACKS
2011-06-06
LINAC4 VY-RACKS
MACHINE:
REF ERENCE : TE/VSC
LINAC4
CERN / TE-VSC ECHELLE : NA
FORMAT : A4
INDICE : DevVers11
FICHIER :
MODIFIE:
SOURCE
DESSINE : GIRARDOT G.
BLANCHARD S 2013-09-12
TE-VSC
COMP LE XE _P S\LINAC _4\LINAC 4\LINAC 4-RACKS
2011-06-06
Racks layout of Linac 4EDMS _Naming Convention_ICM_Table
L4 VY17-400 VRPI.400.1701 1 6 1 L4P.VPI.0680 2723596A 300 l/s
L4 VY17-400 VRPI.400.1702 2 11 1 L4P.VPI.0580 2723595A 300 l/s
L4 VY17-400 VRPI.400.1703 3 16 1 L4P.VPI.0480 2723594A 300 l/s
L4 VY17-400 VRPI.400.1704 4 21 1 L4P.VPI.0380 2723593A 300 l/s
L4 VY17-400 VRPI.400.1705 5 26 1 L4P.VPI.0280 2723592A 300 l/s
L4 VY17-400 VRPI.400.1706 6 31 1 L4P.VPI.0180 2723591A 300 l/s
L4 VY17-400 VRILC.400.1701 1 36 1
L4 VY17-400 VRGPT300.400.1701 1 39 1 L4P.VRGPT300.0360 / 0560
L4 VY17-400 VRGPT300.400.1702 2 39 2 L4P.VRGPT300.0960 / 1260
L4 VY17-400 VRIVC.400.1701 1 44 1 L4P.VVGS.0116 2725179
L4 VRGPT300.400.1701 VRMTG.400.1701.B 1 39 1 L4P.VRGPT300.0360 / 0560 2725247 (B1)
L4 VRGPT300.400.1701 VRMTG.400.1701.A 1 39 1 L4P.VRGPT300.0360 / 0560 2723629 (A1) 2723644 (A2)
L4 VRGPT300.400.1702 VRMTG.400.1702.B 1 39 1 L4P.VRGPT300.0960 / 1260 2723630 (B1) 2723645 (B2)
L4 VRGPT300.400.1702 VRMTG.400.1702.A 2 39 1 L4P.VRGPT300.0960 / 1260 2725248 (A1)
L4 VY18-400 VRPI.400.1801 1 1 1 L4P.VRPI.1280 2723602A 300 l/s
L4 VY18-400 VRPI.400.1802 2 6 1 L4P.VPI.1180 2723601A 300 l/s
L4 VY18-400 VRPI.400.1803 3 11 1 L4P.VPI.1080 2723600A 300 l/s
L4 VY18-400 VRPI.400.1804 4 16 1 L4P.VPI.0980 2723599A 300 l/s
L4 VY18-400 VRPI.400.1805 5 21 1 L4P.VPI.0880 2723598A 300 l/s
L4 VY18-400 VRPI.400.1806 6 26 1 L4P.VPI.0780 2723597A 300 l/s
L4 VY18-400 VRPCTP01.400.1801 1 31 1 TMPU 2723568 2723569
L4 VY18-400 VRPGFUS1.400.1801 1 35 1 PLC_2VPG_US 2723567 L4P.VPGR.0660 L4T.VPGR.1238 2725926
L4 VY18-400 VRILC.400.1801 1 42 1
L4 VY19-400 VRPI.400.1901 1 6 1 L4T.VPI.1524.5 2723655 150 l/s
L4 VY19-400 VRPI.400.1902 2 11 1 L4T.VPI.1236.5 2723615 150 l/s
L4 VY19-400 VRPI.400.1903 3 16 1 L4T.VPI.1075 2723614A 300 l/s
L4 VY19-400 VRPI.400.1904 4 21 1 L4T.VPI.1020.5 2723613A 150 l/s
L4 VY19-400 VRPI.400.1905 5 26 1 L4T.VPI.0760.5 2723612A 150 l/s
L4 VY19-400 VRPCTP01.400.1901 1 31 1 TMPU 2725927 2725928
L4 VY19-400 VRGPT300.400.1901 1 39 1 L4T.VRGPT300.1236.1 / ….
L4 VY19-400 VRIVC.400.1901 1 44 1 L4T.VVGS.0101 2725180
L4 VRGPT300.400.1901 VRMTG.400.1901.A 1 39 1 L4T.VRGPT300.1236.1 / …. 2723632 (A1) 2723647 (A2)
L4 VY20-400 VRJCP004.400.2001 1 6 1
L4 VY20-400 VRIVC.400.2001 1 20 1 L4T.VVGS.1751 2725181
L4 VY20-400 VRPI.400.2001 1 22 1 L4Z.VPI.0280.5 2723611A 150 l/s
L4 VY20-400 VRGPT300.400.2001 1 27 1 L4Z.VRGPT300.0280.1 / ….
L4 VY20-400 VRIVC.400.2002 1 32 1 L4Z.VVGS.0278
L4 VY20-400 VRPI.400.2002 2 34 1 L4Z.VPI.0260.5 2728546A 150 l/s
L4 VY20-400 VRGPT300.400.2002 1 39 1 L4Z.VRGPT300.0260.1 / ….
L4 VRGPT300.400.2001 VRMTG.400.2001.A 1 27 1 L4Z.VRGPT300.0280.1 / …. 2723631 (A1) 2723646 (A2)
L4 VRGPT300.400.2002 VRMTG.400.2002.A 1 39 1 L4Z.VRGPT300.0260.1 / …. 2728547 (A1) 2728548 (A2)
Equipment list of Linac 4
NAME EXPERT NAME H START POS H END POS W START POS W END POS D START POS D END POS CRATE PROPERTIES? CRATE LINKS/CIRCUITS? TYPE NAME TYPE_ID OCCURENCE SLOT_ID NAME EXPERT NAME H START POS H END POS W START POS W END POS D START POS D END POS
VRIBB.400.0101 16 18 1 0.483 0.289 CIBU_3 CIBU_4
VRIBB.400.0102 20 22 1 0.483 0.289 CIBU_1 CIBU_2
VRVCL.400.0101 VVGS 4 24 26 1 0.483 0.44
VRVCL.400.0102 VVGS 3 27 29 1 0.483 0.44
VRVCL.400.0103 VVGS 2 30 32 1 0.483 0.44
VRVCL.400.0104 VVGS 1 33 35 1 0.483 0.44
VRLMA.400.0101 39 44 1 0.483 0.3
VRVCL.400.0101 24 26 0.44 VRMVM 1 VRMVM.400.0101 1 0.0483 0.235
VRVCL.400.0101 24 26 0.44 VRMVH 1 VRMVH.400.0101.1 2 0.0966 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 1 VRMVT.400.0101.2 3 0.1449 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 2 VRMVT.400.0101.3 4 0.1932 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 3 VRMVT.400.0101.4 5 0.2415 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 4 VRMVT.400.0101.5 6 0.2898 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 5 VRMVT.400.0101.6 7 0.3381 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 6 VRMVT.400.0101.7 8 0.3864 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 7 VRMVT.400.0101.8 9 0.4347 0.235
VRVCL.400.0101 24 26 0.44 VRMVB 1 VRMVB.400.0101 10 0.483 0.235
VRVCL.400.0102 27 29 0.44 VRMVM 1 VRMVM.400.0102 1 0.0483 0.235
VRVCL.400.0102 27 29 0.44 VRMVH 1 VRMVH.400.0102.1 2 0.0966 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 1 VRMVT.400.0102.2 3 0.1449 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 2 VRMVT.400.0102.3 4 0.1932 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 3 VRMVT.400.0102.4 5 0.2415 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 4 VRMVT.400.0102.5 6 0.2898 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 5 VRMVT.400.0102.6 7 0.3381 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 6 VRMVT.400.0102.7 8 0.3864 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 7 VRMVT.400.0102.8 9 0.4347 0.235
VRVCL.400.0102 27 29 0.44 VRMVB 1 VRMVB.400.0102 10 0.483 0.235
VRVCL.400.0103 30 32 0.44 VRMVM 1 VRMVM.400.0103 1 0.0483 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 1 VRMVH.400.0103.1 2 0.0966 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 2 VRMVH.400.0103.2 3 0.1449 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 3 VRMVH.400.0103.3 4 0.1932 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 4 VRMVH.400.0103.4 5 0.2415 0.235
VRVCL.400.0103 30 32 0.44 VRMVT 1 VRMVT.400.0103.5 6 0.2898 0.235
VRVCL.400.0103 30 32 0.44 VRMVT 2 VRMVT.400.0103.6 7 0.3381 0.235
NAME EXPERT NAME H START POS H END POS W START POS W END POS D START POS D END POS CRATE PROPERTIES? CRATE LINKS/CIRCUITS? TYPE NAME TYPE_ID OCCURENCE SLOT_ID NAME EXPERT NAME H START POS H END POS W START POS W END POS D START POS D END POS
VRIBB.400.0101 16 18 1 0.483 0.289 CIBU_3 CIBU_4
VRIBB.400.0102 20 22 1 0.483 0.289 CIBU_1 CIBU_2
VRVCL.400.0101 VVGS 4 24 26 1 0.483 0.44
VRVCL.400.0102 VVGS 3 27 29 1 0.483 0.44
VRVCL.400.0103 VVGS 2 30 32 1 0.483 0.44
VRVCL.400.0104 VVGS 1 33 35 1 0.483 0.44
VRLMA.400.0101 39 44 1 0.483 0.3
VRVCL.400.0101 24 26 0.44 VRMVM 1 VRMVM.400.0101 1 0.0483 0.235
VRVCL.400.0101 24 26 0.44 VRMVH 1 VRMVH.400.0101.1 2 0.0966 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 1 VRMVT.400.0101.2 3 0.1449 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 2 VRMVT.400.0101.3 4 0.1932 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 3 VRMVT.400.0101.4 5 0.2415 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 4 VRMVT.400.0101.5 6 0.2898 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 5 VRMVT.400.0101.6 7 0.3381 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 6 VRMVT.400.0101.7 8 0.3864 0.235
VRVCL.400.0101 24 26 0.44 VRMVT 7 VRMVT.400.0101.8 9 0.4347 0.235
VRVCL.400.0101 24 26 0.44 VRMVB 1 VRMVB.400.0101 10 0.483 0.235
VRVCL.400.0102 27 29 0.44 VRMVM 1 VRMVM.400.0102 1 0.0483 0.235
VRVCL.400.0102 27 29 0.44 VRMVH 1 VRMVH.400.0102.1 2 0.0966 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 1 VRMVT.400.0102.2 3 0.1449 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 2 VRMVT.400.0102.3 4 0.1932 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 3 VRMVT.400.0102.4 5 0.2415 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 4 VRMVT.400.0102.5 6 0.2898 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 5 VRMVT.400.0102.6 7 0.3381 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 6 VRMVT.400.0102.7 8 0.3864 0.235
VRVCL.400.0102 27 29 0.44 VRMVT 7 VRMVT.400.0102.8 9 0.4347 0.235
VRVCL.400.0102 27 29 0.44 VRMVB 1 VRMVB.400.0102 10 0.483 0.235
VRVCL.400.0103 30 32 0.44 VRMVM 1 VRMVM.400.0103 1 0.0483 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 1 VRMVH.400.0103.1 2 0.0966 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 2 VRMVH.400.0103.2 3 0.1449 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 3 VRMVH.400.0103.3 4 0.1932 0.235
VRVCL.400.0103 30 32 0.44 VRMVH 4 VRMVH.400.0103.4 5 0.2415 0.235
VRVCL.400.0103 30 32 0.44 VRMVT 1 VRMVT.400.0103.5 6 0.2898 0.235
VRVCL.400.0103 30 32 0.44 VRMVT 2 VRMVT.400.0103.6 7 0.3381 0.235
The final equipment list of Linac 4
SAFETY COURSE
1. Computer Security2. Use of the Biocell3. CERN Safety Introduction4. Safety during LS15. Road Traffic - Bike Riding6. Electrical Safety – Awareness7. Radiation Protection - Supervised Area8. Radioactive Equipment - Traceability –
TREC
9Magdalena Karpiel
EXPERIMENTS
11Magdalena Karpiel
SUMMER STUDENT LECTURES
1. Louis Lyons, "Statistics”
2. Dr. Verena Kain, "Introduction to Accelerator Physics”
3. Boris Kayser, "Neutrino Physics ”
4. Eleanor A. Blakely, "Reflections and perspectives on 60 years of particle therapy"
12Magdalena Karpiel
Thank you for attention Thank you for attention
Sources:
http://te-dep-old.web.cern.ch/te-dep-old/structure/VSC/http://home.web.cern.ch/abouthttps://espace.cern.ch/bike2CERN/Pages/default.aspxICM Pictures and Schema: courtesy of Fabien Antoniotti
