AGH TRAINEE AT 01 JULY 30 SEPTEMBER 2014 INTRODUCTION 1. CERN 2. - - PowerPoint PPT Presentation

▶

Nov 13, 2022 379 likes •513 views

AGH TRAINEE AT 01 JULY 30 SEPTEMBER 2014 INTRODUCTION 1. CERN 2. Vacuum Group 3. ICM Section 4. My tasks Magdalena Karpiel 2 CERN European Organization for Nuclear Research Research on the fundamental structure of the universe

SLIDE 1

AGH TRAINEE AT

01 JULY – 30 SEPTEMBER 2014

SLIDE 2

INTRODUCTION

1. CERN
2. Vacuum Group
3. ICM Section
4. My tasks

2 Magdalena Karpiel

SLIDE 3

CERN

European Organization for Nuclear Research

Research

the fundamental structure

f the universe

3 Magdalena Karpiel

SLIDE 4

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

4 Magdalena Karpiel

SLIDE 5

TE-VSC-ICM

Interlocks, Controls and Monitoring Section

In charge of the design, maintenance & consolidation

f the vacuum control systems of all Accelerators and Detectors.

Vacuum Controllers Architecture

5 Magdalena Karpiel

SLIDE 6

Introduction to the Naming Convention and Architecture of the Vacuum System Participate 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

6 Magdalena Karpiel

EDMS#1310709

SLIDE 7

A REMINDER ON IC

ICM NAMING CONVENTION

used for my tasks on TOPOLOGY

7 Magdalena 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

SLIDE 8

8 Magdalena Karpiel

DOCUMENTS

VY09-400 PLC_2VPG_US Adr.9 RL1: / RL2: / RL3: / RL4: / Adr.16 VRMTG.400.0901.A 2723626 (A1) 2723641 (A2) / / / (B1) / / / (B2) Adr.17 VRMTG.400.0902.A 2723627 (A1) 2723642 (A2) VRMTG.400.0902.B 2723628 (B1) 2723643 (B2) L4L.VRGPT300.3312 / L4L.VRGPT300.3524 / 3712 RL1: / RL2: / RL3: / RL4: / VRPI.400.0902 L4L.VPI.3428 VRPI.400.0901 L4L.VPI.3722 L4L.VVGS.2326 N°2725176 TMPU Ctrl TMPU Power PLC A TMPU Ctrl TMPU Power N°/ / / N°/ / / PLC B VRIVC.400.0901 VRILC.400.0901 S03 CHOPPER: VG, VPG, VPI L4L.VPGR.3622 L4D.VPGR.0244 VY10-400 L4D.VVGS.4116 N°2725177 RL1: / RL2: / RL3: / RL4: / Adr.18 VRMTG.400.1001.A 2723619 (A1) 2723635 (A2) VRMTG.400.1001.B 2723620 (B1) / / / (B2) Adr.19 VRMTG.400.1002.A 2723621 (A1) 2723636 (A2) / / / (B1) / / / (B2) RL1: / RL2: / RL3: / RL4: / VRPI.400.1005 L4D.VPI.0165 VRPI.400.1004 L4D.VPI.0233 VRPI.400.1003 L4D.VPI.0270 VRPI.400.1002 L4D.VPI.0332 VRPI.400.1001 L4D.VPI.0359 Châssis Interlock RF DTL (3gauges) David Landre (16.42.01) TMPU Ctrl TMPU Power N°°/ / / N°°/ / / PLC A TMPU Ctrl TMPU Power PLC B VRIVC.400.1001 VRPCTP01.400.1001 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: REFERENCE : 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 COMPLEXE_PS\LINAC _4\LINAC 4\LINAC 4-RACKS 2011-06-06

Racks layout of Linac 4

EDMS _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

The final equipment list of Linac 4

SLIDE 9

SAFETY COURSE

1. Computer Security
2. Use of the Biocell
3. CERN Safety Introduction
4. Safety during LS1
5. Road Traffic - Bike Riding
6. Electrical Safety – Awareness
7. Radiation Protection - Supervised Area
8. Radioactive Equipment - Traceability – TREC

9 Magdalena Karpiel

SLIDE 10

EXPERIMENTS

11 Magdalena Karpiel

SLIDE 11

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"

12 Magdalena Karpiel

SLIDE 12

Thank you for attention 

Sources: http://te-dep-old.web.cern.ch/te-dep-old/structure/VSC/ http://home.web.cern.ch/about https://espace.cern.ch/bike2CERN/Pages/default.aspx ICM Pictures and Schema: courtesy of Fabien Antoniotti