1 / 16

CERN Safety Alarm Monitoring Technical Specifications

CERN Safety Alarm Monitoring Technical Specifications. CERN Safety Alarm System Supervisory Board 4st meeting P. Ninin & CSAM project team. Outline. Main points of the IT2694 Technical Specification Contend of the IT2694/ST ? Contract & financial strategy Project and technical choices

pules
Download Presentation

CERN Safety Alarm Monitoring Technical Specifications

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. CERN Safety Alarm MonitoringTechnical Specifications CERN Safety Alarm System Supervisory Board 4st meeting P. Ninin & CSAM project team P. Ninin, L. Scibile and the CSAM Team

  2. Outline • Main points of the IT2694 Technical Specification • Contend of the IT2694/ST ? • Contract & financial strategy • Project and technical choices • User requirements and specification validation • Current status and short-term milestones • CSAM architecture simulation P. Ninin, L. Scibile and the CSAM Team

  3. IT2694/ST Technical SpecificationDocumentstructure P. Ninin, L. Scibile and the CSAM Team

  4. IT2694/ST CSAM Technical Specification • For the Fire Brigade (what do they get) • Safety alarm acquisition from all CERN safety zones (buildings, tunnels, etc…). • Local monitoring from each safety zone • Central monitoring, archiving, display, reporting and configuration (redundant) • Non-interruptible 24h/365d system based on redundant communication networks • Specific Human Computer Interfaces and tools for the alarm handling • Real-time monitoring of the correct functioning of all safety sub-systems. • For the Experiments and the other control rooms • A safety alarm gateway to external systems • A flexible system architecture for the integration of the LHC and LHC Experiments future alarms. • A modular acquisition and local monitoring system based on standard industrial equipment P. Ninin, L. Scibile and the CSAM Team

  5. IT2694/ST CSAM Technical Specification • No common mode of failure • Power supply, Location, server, display, acquisition module,etc. • INB compliant system based on redundant transmission paths. • The Technical Service network • A dedicated “Safety” network (thanks to Pal Anderssen !) • The existing hard-wired links. • Availability requirements • In order to meet the availability requirements of  99.8% set by the AL3 Working Group, a Safety Integrity Level SIL 2 has been fixed. • A Supervision and monitors the availability of all sub-systems and generates performance reports. • Maintainability requirements • integration in the Maintenance Manager System (MP5) P. Ninin, L. Scibile and the CSAM Team

  6. “State of the art” overview • The required CSAM system architecture and SIL are in line with similar SIL 2 installations. • These include : • The Heathrow Airport(Servelec, Dual redundant system, 50 PLCs, 3 MCHF) • The Channel Tunnel and Paris Airport(DEF, Dual redundant system) • Thames barriers(Silvertec, Dual redundant SCADA and hot stand-by PLCs, 5 MCHF) P. Ninin, L. Scibile and the CSAM Team

  7. SCR console x2 SCR SCADA Path 1 Path 2 Hardwired PLC 1 PLC 2 CSAM Product requirements TCR console Safety alarm monitoring centre Safety alarm gateway to external systems (TDS, experiments, XCR, etc.) Safety alarm networks CSAM supervision & maintenance manager x33 Local safety alarms controller Technical Data Server (TDS) CERN safety equipment P. Ninin, L. Scibile and the CSAM Team

  8. The IT2694/ST CSAM Technical SpecificationMigration & Operation • Migration from old safety alarm monitoring systems to CSAM • Minimum impact on the operation • Motivating the quality and the reliability of the migration. • Safety Alarm “Operation and Maintenance Service” • Complete project lifecycle. • Alarms integration, modification and eradication • Based on “work per alarm” with different service levels. P. Ninin, L. Scibile and the CSAM Team

  9. IT2694/ST contract and financial strategy • “Total life cost” contract in 3 Work Packages (WP) : • Design and pilot installation (Meyrin Safety Zone), • Deployment & migration • Operation and maintenance P. Ninin, L. Scibile and the CSAM Team

  10. IT2694/ST Contract and Financial strategy • CSAM Infrastructure estimated cost = 4.5 MCHF over 4 years (3.0 MCHF Technical Sector + 1.5 MCHF LHC) • Operation and Maintenance estimated cost = 350 kCHF/year • The capacity of the system includes the existing CERN-wide safety alarm and provision for the LHC accelerator and the 4 Experiments (as equivalent to LEP) • The integration costs of additional alarms are estimated to: 150 CHF/Alarm. P. Ninin, L. Scibile and the CSAM Team

  11. IT2694/ST User requirement and specification validation • User Requirements • List of editors • AL3WG Members: H. Laeger, A. Chouvelon, A. Gilbert, E. Didier-Noël, U. Jansson, H. Schuhbäck, P. Frandsen, P. Ninin, M. Delidais, M. Tyrrell, W. Tejessy, L. Leistam, G. Benincasa, R. Schmidt, H-J. Hilke, J. Pothier • CSAM Team Members: H. Laeger, P. Ninin, C. Soler Tappa, R. Nunes, L. Scibile, S. Grau, F. Havart, U. Epting, M. Trebulle, Alain Chouvelon • List of revisers • TIS/FB, TIS/GS, all GLIMOSs, CERN-INB linkman, ST/AA, ST/MO. • Specification preparation and validation ST/MO, ST/AA, TIS/FB, TIS/GS and SPL P. Ninin, L. Scibile and the CSAM Team

  12. Current status and short-term milestones • Market Survey completed: 15 companies qualified • 9 different countries • Technical Specifications reviewed and ready to leave ST/MO • Short-term milestones: • Technical Specification Meeting at the end of September 2000 • Invitation to Tender to be published by October 2000 • Finance committee of March 2001 • Contract start in April 2001 • Pilot installation ready by April 2002 P. Ninin, L. Scibile and the CSAM Team

  13. SCR console ALARM ALARM x2 SCR SCADA SCR SCADA ALARM ALARM PLC 1 PLC 2 Technical Data Server (TDS) FIRE CSAM product - simulation TCR console Safety alarm gateway to external systems (TDS, experiments, XCR, etc.) Path 1 Path 2 Hardwired Technical Data Server (TDS) CERN safety equipment P. Ninin, L. Scibile and the CSAM Team

  14. SCR console ALARM ALARM x2 SCR SCADA SCR SCADA ALARM ALARM PLC 1 PLC 2 Technical Data Server (TDS) FIRE CSAM product - simulation TCR console Safety alarm gateway to external Systems (TDS, experiments, XCR, etc.) Path 1 Path 2 Hardwired Technical Data Server (TDS) CERN Safety Equipment P. Ninin, L. Scibile and the CSAM Team

  15. SCR console ALARM ALARM x2 SCR SCADA SCR SCADA ALARM ALARM PLC 1 PLC 2 Technical Data Server (TDS) FIRE CSAM product - simulation TCR console Safety alarm gateway to external systems (TDS, experiments, XCR, etc.) Path 1 Path 2 Hardwired Technical Data Server (TDS) CERN Safety Equipment P. Ninin, L. Scibile and the CSAM Team

  16. Questions ? P. Ninin, L. Scibile and the CSAM Team

More Related