Documentation and Change Control 1. Documentation existing so far - - PowerPoint PPT Presentation

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Documentation and Change Control 1. Documentation existing so far - - PowerPoint PPT Presentation

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Documentation and Change Control 1. Documentation existing so far 2. Documentation Responsibles 3. Storage, Check and Release 4. Change Control 5. Documentation Platforms 6. Extensions 7. Central Configuration Management 8. Summary and

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Documentation and Change Control

  • 1. Documentation existing so far
  • 2. Documentation Responsibles
  • 3. Storage, Check and Release
  • 4. Change Control
  • 5. Documentation Platforms
  • 6. Extensions
  • 7. Central Configuration Management
  • 8. Summary and Outlook

MAC, 21.05.2013 U.Weinrich

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SLIDE 2

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Documentation existing so far

depending on project phases

MAC, 21.05.2013 2 U.Weinrich

The accelerator part of the FAIR project is in the following project phases:

  • System design upgrades
  • Component design
  • Specification towards tendering or contracting
  • Tendering and contracting
  • Production of first of series (SIS100 dipole module)
  • Some components ready (p-Linac agreement with France)

The corresponding project documentation so far contains therefore mainly system planning documents, component design documents and

  • specifications. Only few documents related to production are currently

existing.

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SLIDE 3

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MAC, 21.05.2013 3 U.Weinrich

Documentation existing so far

examples for overall accelerator system

Schematic view of accelerator system on the campus Standard cycle for antiproton accumulation

slide-4
SLIDE 4

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Documentation Responsibles

depending on type of documentation

MAC, 21.05.2013 4 U.Weinrich

The responsibility for the documentation is defined as follows:

type Responsible Accelerator System design Project Leader FAIR Accelerator Machine System design Leader of the corresponding machine project group, i.e. the machine project leader (MPL) Component design Corresponding Workpackage leader (WPL) under the leadership of the MPL of machine project group Overall technical standards Head of department Configuration Management within the division Project Coordination

This responsibility for this documentation is maintained over all project phases even if more and more partners get involved during the production phase.

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SLIDE 5

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Documentation Responsibles

Work packages

MAC, 21.05.2013 5 U.Weinrich

FAIR-Beschleuniger Arbeitspakete mit PSP-Nummer und FAIR@GSI Verantwortlichen

Arbeitspakete Verantwortliche in der Linie Verantwortliche im Projekt

Nr PSP Nr Arbeitspaket APL Abteilung (Linie) Abteilungsleiter (Linie) Bereich (Linie) Bereichsleiter (Linie) Maschine Maschinen- projektleiter Bereich Maschine Bereichsleiter Maschine PSP Nr

2.3 HEBT HEBT

  • F. Hagenbuck

Primary Beams

  • P. Spiller

2.3

1 2.3.0.1 HEBT System Design S.Ratschow System Planning D.Ondreka Primary Beams
  • P. Spiller
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.0.1 2 2.3.0.2 HEBT Data Supply tbd tbd tbd tbd tbd HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.0.2 3 2.3.2 HEBT Magnets
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.2 4 2.3.3 HEBT Power Converters
  • H. Welker
Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.3 5 2.3.6 HEBT Beam Diagnostics
  • B. Walasek-Höhne
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.6 6 2.3.7 HEBT Vacuum
  • A. Krämer
Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.7 7 2.3.11 HEBT Special Installations
  • L. Bozyk
nicht vorhanden nicht vorhanden Primary Beams
  • P. Spiller
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.3.11

2.4 Super-FRS Super-FRS

  • M. Winkler

Rare Isotope Beams

  • H. Simon

2.4

8 2.4.0.1 Super-FRS System Design Martin Winkler Super-FRS Martin Winkler Rare Isotope Beams
  • H. Simon
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.0.1 9 2.4.0.2 Super-FRS Data Supply tbd tbd tbd tbd tbd Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.0.2 10 2.4.1 Super-FRS Beam Dynamics J.Winfield Super-FRS Martin Winkler Rare Isotope Beams
  • H. Simon
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.1 11 2.4.2 NC Super-FRS NC Magnets H.Leibrock NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.2 NC 12 2.4.2.1 SC Super-FRS SC Dipoles
  • H. Müller
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.2.1 SC 12 2.4.2.2-4 SC Super-FRS SC Multiplets
  • H. Müller
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.2.2-4 SC 12 2.4.2.1 SC2 Energy Buncher Dipoles
  • H. Müller
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.2.1 SC2 12 2.4.2.2-4 SC2 Energy Buncher Multiplets
  • H. Müller
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.2.2-4 SC2 13 2.4.3 Super-FRS Power Converters A.Wiest Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.3 14 2.4.6 Super-FRS Beam Diagnostics C.Nociforo Detector Laboratory C.J.Schmidt Rare Isotope Beams H.Simon Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.6 15 2.4.7 Super-FRS Vacuum A.Krämer Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.7 16 2.4.11 Super-FRS Special Installations H.Weick Super-FRS Martin Winkler Rare Isotope Beams
  • H. Simon
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.11 17 2.4.12 Super-FRS Cryogenics Y.Xiang Cryogenics H .Kollmus Common Systems
  • H. Reich-Sprenger
Super-FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.4.12

2.5 CR CR

  • A. Dolinskii

Stored Beams

  • M. Steck

2.5

18 2.5.0.1 CR System Design
  • A. Dolinskii
Collector Ring
  • A. Dollinski
Stored Beams
  • M. Steck
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.0.1 19 2.5.0.2 CR Data Supply tbd tbd tbd tbd tbd CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.0.2 20 2.5.1 CR Beam Dynamics
  • A. Dolinskii
Collector Ring
  • A. Dollinski
Stored Beams
  • M. Steck
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.1 21 2.5.2 CR Magnets H.Leibrock NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.2 22 2.5.3 CR Power Converters T.Mohite Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.3 23 2.5.4 CR RF-Systems
  • U. Laier
Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.4 24 2.5.5 CR Injection/Extraction U.Blell nicht vorhanden nicht vorhanden Primary Beams
  • P. Spiller
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.5 25 2.5.6 CR Beam Diagnostics
  • O. Chorniy
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.6 26 2.5.7 CR Vacuum J.Kurdal Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.7 27 2.5.10 CR Stochastic Cooling
  • C. Dimopoulou
Beam Cooling
  • C. Dimopoulou
Stored Beams
  • M. Steck
CR
  • A. Dolinskii
Stored Beams
  • M. Steck
2.5.10

2.7 p-Linac p-Linac

  • W. Vinzenz

Linac and Operations

  • W. Barth

2.7

28 2.7.0.1 p-LINac System Design
  • G. Clemente
p-Linac W.Vinzenz Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.0.1 29 2.7.0.2 p-Linac Data Supply tbd tbd tbd tbd tbd p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.0.2 30 2.7.1 p-Linac Beam Dynamics
  • G. Clemente
p-Linac W.Vinzenz Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.1 31 2.7.2 p-Linac Magnets
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.2 32 2.7.3 p-Linac Power Converters
  • J. Trüller
Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.3 33 2.7.4.1 p-Linac RF Power Sources G.Schreiber Linac RF
  • G. Schreiber
Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.4.1 34 2.7.4.2 p-Linac RFQ RF-Structure
  • G. Clemente
p-Linac W.Vinzenz Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.4.2 35 2.7.4.3 p-Linac Rebuncher
  • G. Clemente
p-Linac W.Vinzenz Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.4.3 36 2.7.4.4 p-Linac CH RF-Structure
  • G. Clemente
p-Linac W.Vinzenz Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.4.4 37 2.7.6 p-Linac Beam Diagnostics
  • P. Forck
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.6 38 2.7.7 p-Linac Vacuum
  • A. Krämer
Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.7 39 2.7.8 p-Linac Particle Source R.Berezov Ion Sources
  • R. Hollinger
Linac and Operations
  • W. Barth
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.8 40 2.7.11 p-Linac Special Installations
  • G. Clemente
Transport and Installation
  • M. Bevcic
Common Systems
  • H. Reich-Sprenger
p-Linac
  • W. Vinzenz
Linac and Operations
  • W. Barth
2.7.11

2.8 SIS100 SIS100

  • P. Spiller

Primary Beams

  • P. Spiller

2.8

41 2.8.0.1 SIS100 System Design
  • D. Ondreka
System Planning
  • D. Ondreka
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.0.1 42 2.8.0.2 SIS 100 Machine Modeling and Setting Generation
  • D. Ondreka
System Planning
  • D. Ondreka
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.0.2 43 2.8.1 SIS100 Beam Dynamics O.Boine-Frankenheim Beam Physics Oliver Boine-Frankenheim Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.1 44 2.8.2.1 SIS100 Cryo-Magnetic Dipole Module D.Theuerkauf SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.1 45 2.8.2.2 SIS100 Main Quadrupoles E.Fischer SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.2 46 2.8.2.2.3 SIS100 Radiation Resistant Quadrupoles
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
47 2.8.2.3 SIS100 Multipole Correctors E.Fischer SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.3 48 2.8.2.3.3 SIS100 Resonance Sextupoles
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
49 2.8.2.4 SIS100 Steering Magnets
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.4 50 2.8.2.5 SIS100 Magnetic Septa
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.5 51 2.8.2.5.1 SIS100 Magnetic Septa
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
52 2.8.2.6 SIS100 Superconducting busbars E.Fischer SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.6 53 2.8.2.7 SIS100 Superconducting wires H.Müller SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.7 54 2.8.2.8 SIS100 Voltage Breaker E.Fischer SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.8 55 2.8.2.9 SIS100 HTS current leads H.Raach SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.2.9 56 2.8.2.10 SIS100 Quadrupole module E.Fischer SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
57 2.8.2.11 SIS100 Stringtest K.Sugita SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
58 2.8.3 SIS100 Power Converters
  • H. Ramakers
Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.3 59 2.8.4 SIS100 RF System H.G.König Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.4 60 2.8.4.1 SIS100 RF Acceleration H.G.König Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.4.1 61 2.8.4.3 SIS100 Bunch Compression H.G.König Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.4.3 62 2.8.4.4 SIS100 Barrier Bucket System
  • A. Klaus
Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.4.4 63 2.8.4.5 SIS100 RF Longitudinal Feedback
  • H. Klingbeil
Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.4.5 64 2.8.4.6 SIS100 KO Exciter P.Moritz Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
65 2.8.5 SIS100 Injection/Extraction
  • U. Blell
nicht vorhanden nicht vorhanden Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.5 66 2.8.6 SIS100 Beam Diagnostics
  • P. Kowina
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.6 67 2.8.7 SIS100 Vacuum
  • S. Wilfert
Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.7 68 2.8.11 SIS100 Special Installations
  • L. Bozyk
nicht vorhanden nicht vorhanden Primary Beams
  • P. Spiller
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.11 69 2.8.12 SIS100 Cryogenics
  • M. Kauschke
Cryogenics H .Kollmus Common Systems
  • H. Reich-Sprenger
SIS100
  • P. Spiller
Primary Beams
  • P. Spiller
2.8.12

2.9 pbar-Separator pbar-Separator

  • K. Knie

Stored Beams

  • M. Steck

2.9

70 2.9.0.1 pbar-Separator system Design
  • K. Knie
Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.0.1 71 2.9.0.2 pbar-Separator Data Supply tbd tbd tbd tbd tbd pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.0.2 72 2.9.2 pbar-Separator magnets H.Leibrock NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.2 73 2.9.3 pbar-Separator Power Converters
  • U. Clausen
Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.3 74 2.9.6 pbar-Separator Beam Diagnostics
  • A. Reiter
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.6 75 2.9.7 pbar-Separator Vacuum J.Kurdal Vacuum Systems
  • A. Krämer
Common Systems
  • H. Reich-Sprenger
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.7 76 2.9.11 pbar-Separator Special Installations
  • K. Knie
Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
2.9.11 77 2.9.11.1
  • K. Knie
Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
78 2.9.11.2 I.Petzenhauser Beam Phsysics
  • P. Spiller
Primary Beams
  • P. Spiller
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
79 2.9.11.4 E.Mustafin Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
80 2.9.11.5 E.Mustafin Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck
81 2.9.11.6
  • K. Knie
Antiproton Separator
  • K. Knie
Stored Beams
  • M. Steck
pbar-Separator
  • K. Knie
Stored Beams
  • M. Steck

2.14 2.14

82 2.14.1 Electrical Power B.Rück Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.1 83 2.14.2 Detector Gas Supply
  • M. Schwickert
Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
HEBT
  • F. Hagenbuck
Primary Beams
  • P. Spiller
2.14.2 84 2.14.8 Cryogenics (sum of state 1 & 2) M.Kauschke Cryogenics H .Kollmus Common Systems
  • H. Reich-Sprenger
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.8 85 2.14.9 Alignment I.Pschorn NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.9 86 2.14.10 Control System (accelerator) R.Bär Control Systems
  • R. Bär
Common Systems
  • H. Reich-Sprenger
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.10 87 2.14.11.1 SIS18 H=2 RF System P.Hülsmann Ring RF
  • H. Klingbeil
Primary Beams
  • P. Spiller
SIS18 J.Stadlmann Primary Beams
  • P. Spiller
2.14.11.1 88 2.14.11.2 SIS18 Residual Gas Monitor T.Giacomini Beam Instrumentation
  • M. Schwickert
Linac and Operations
  • W. Barth
SIS18 J.Stadlmann Primary Beams
  • P. Spiller
2.14.11.2 89 2.14.11.3 Switching Magnest TS1MU1 C.Mühle NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
SIS18 J.Stadlmann Primary Beams
  • P. Spiller
2.14.11.3 90 2.14.11.4 SIS18 Power Converters and electrical supply H.Ramakers Electric Power Systems
  • H. Ramakers
Linac and Operations
  • W. Barth
SIS18 J.Stadlmann Primary Beams
  • P. Spiller
2.14.11.4 91 2.14.11.5 UNILAC ECR Upgrade K.Tinschert Ion Sources
  • R. Hollinger
Linac and Operations
  • W. Barth
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.11.5 92 2.14.11.6 Link GSI to FAIR Bornmann Processes and Communication W.Geithner Project Coordination U.Weinrich SIS18 J.Stadlmann Primary Beams
  • P. Spiller
2.14.11.6 93 2.14.12 Installations / Assembly
  • M. Bevcic
Transport and Installation
  • M. Bevcic
Common Systems
  • H. Reich-Sprenger
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.12 94 2.14.13.20 Magnet Testing SIS100 Dipoles
  • P. Schnizer
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS 100
  • P. Spiller
Primary Beams
  • P. Spiller
2.14.13.20 95 2.14.13.21 Magnet Testing SIS100 Quadrupoles
  • P. Schnizer
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS 100
  • P. Spiller
Primary Beams
  • P. Spiller
2.14.13.21 96 2.14.13.22 Magnet Testing Super-FRS (SC)
  • P. Schnizer
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.14.13.22 97 2.14.13.23 Testing Normal Conducting Magnets
  • C. Mühle
NC Magnets and Alignment
  • C. Mühle
Engineering
  • R. Fuchs
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.13.23 98 2.14.13.24 Cryogenic Test Infrastructure H .Kollmus Cryogenics H .Kollmus Common Systems
  • H. Reich-Sprenger
nicht vorhanden nicht vorhanden nicht vorhanden nicht vorhanden 2.14.13.24 99 2.14.14.5 Quench Detection/Protection SIS100
  • E. Floch
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
SIS 100
  • P. Spiller
Primary Beams
  • P. Spiller
2.14.14.5 100 2.14.14.6 Quench Detection/Protection Super-FRS
  • E. Floch
SC Magnets and Testing
  • E. Fischer
Primary Beams
  • P. Spiller
Super FRS
  • M. Winkler
Rare Isotope Beams
  • H. Simon
2.14.14.6 Version:
  • 01. Jan
Ersteller: U.Weinrich Last modification by: MVRicciardi 28-Jan-2013 Klärungsbedarf (a) Arbeitspaket wird bei GSI entwickelt. Beschaffungen sind normale Kaufteile oder Standard Elektronik-Fertigungen. Ziel erreicht (b) Mittelabfluss für die Kalenderjahre 2013 bis 2018 ist vorhanden. (c) Klärungsbedarf seitens der PL, wird nach der Infoveranstaltung am 17.01 eingepflegt. (d) 2.14.8.4 (Cryogenic control system), Ch. Betz, information is missing // 2.14.8.1.6 info unter 2.14.13 (e) 2.3.11.3 (Safety beam plugs) Bozyk, in Arbeit (f) Warte auf die entsprechenden Kochrezepte/Beispiele seitens

100 Work packages defined for the accelerator (without HESR) About 50 WPLs and 6 MPLS

slide-6
SLIDE 6

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MAC, 21.05.2013 6 U.Weinrich

Machine and Component documentation is first born and maintained within the project groups. A transfer of this documentation to centralised documentation platforms takes place when the documentation becomes relevant for tendering or contracting. Accelerator System Design (like TDRs) and overall technical standards (i.e. the FAIR Technical Guidelines) were commonly agreed, stored centrally and are accessible to all project partners. Documentation always undergoes a formal check and release within EDMS before being used in tendering procedures or contracts. All FAIR Technical Guidelines are released. Component specific documentation is generated, checked and released according to the priorities given by the schedule.

Storage, Check and Release

along priorities and formal processes

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SLIDE 7

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MAC, 21.05.2013 7 U.Weinrich

Change Control is established for released documentation. Changes are performed via a Change Request procedure under the full control of the Department Configuration Management. The Change Control involves all persons who checked the currently released version

  • f the corresponding documentation.

Change Control

controlled process for released documentation

slide-8
SLIDE 8

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Documentation Platforms

depending on type of documentation

MAC, 21.05.2013 8 U.Weinrich

The following documentation platforms are used:

Platform Type of documentation EDMS Documents on: Specifications, organisation, signed contracts, signed test protocols, etc. Drawing archive Conceptual-, Design- and Construction drawings on: system, components, integration aspects, etc.

Side Remark: for planning aspects the following platforms are used:

Platform Type of documentation MS Project Server Ressource loaded schedules on all tasks of FAIR@GSI SAP Cost control

3D model wide CR quadrupole personnel requirements of division “Primary beams”

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SLIDE 9

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MAC, 21.05.2013 9 U.Weinrich

Extensions

for system design and technical data The following actions are planned for the design phase to minimize the risk and consequences of later changes:

  • Design Freezes: System => Subsystem => Components

Actually all actual system design documents are collected with the aim to assure a consistent set of system design documents

  • Followed by a Change Procedure for Design Documents
  • Establishment of platforms for electrical and other technical

data A component data base is under construction A cable data base for centralised cable data is proposed

  • Cross referencing of documentation platforms
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SLIDE 10

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Extensions

examples for SIS100 system layout

MAC, 21.05.2013 10 U.Weinrich

Tunes (h/v) WP2 17.30/17.8 WP1 18.84/18.73 WP3 21.78/17.4 Operation mode Ions, slow extraction Ions, fast extr. Protons, high energy, fast extraction

  • Max. amplitude

function (h/v) M 19.9 / 19.5 19.6 / 19.6 70 / 23 Dispersion p-max p-min m m 1.44

  • 1.01

1.73

  • 0.12

2.5

  • 2.9

Phase advance per cell deg 75 / 74 81 / 80 93.3 / 74.6

  • Trans. Energy

14.27 15.58 45.5

  • Nat. chromaticity

(h/v)

  • 1.17 / -1.16
  • 1.19 / -1.2
  • 2.48 / -1.37
  • Transv. acceptance

defined by the main magnets (h/v) mm mrad 200 / 54 206 / 54 49 / 36 Lattice Structure Doublet Number of superperiods 6 Machine circumference m 1083.6 Magnetic rigidity B Tm 100 Number of dipole magnets 108 + 1 Dipole magnets per sextant 8 x 2 + 2 x 1 Dipole bending angle α deg 3⅓° Maximum dipole field B T 1.9 Bending radius R m 52.6315 Number of quadrupole magnets 168 + 3 Maximum field gradient T/m 27 Number of lattice cells NF 6 x 14 Length of lattice cell LF m 12.9 Straight sections length m 4 x LF

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SLIDE 11

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MAC, 21.05.2013 11 U.Weinrich

Extensions

for contracting and production phase The following actions have to be taken in the contracting and production phase to minimize the risk and consequences of later changes::

  • Improved in-kind contract preparation: complete list of specifications,

intense communication with partners on their ideas

  • Early establishment and agreement on quality plans
  • Detailed agreements on transport, integration and installations with all

concerned parties

name plate SIS100 dipole Coil positions of first SIS100 dipole

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SLIDE 12

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MAC, 21.05.2013 12 U.Weinrich

Central Configuration Management

building up central personal support

slide-13
SLIDE 13

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Summary and Outlook

MAC, 21.05.2013 13 U.Weinrich

  • The generation, release and change control for specifications

and drawings is established and running well.

  • Under

the leadership

  • f

the department Configuration Management the Extension of the Documentation Control for the System Documentation and technical data has been started and will be pursued.

  • Intense communication between all partners is necessary to

assure the best set of specifications within the contracts.

  • The department Quality Assurance has successfully joined the

SIS100 dipole module team. The extension towards other technical systems depends on the progress of hiring qualified dedicated personnel.