Scada Tmc Tss Interface

March 19, 2018 | Author: Joshua Evans | Category: Electromagnetic Compatibility, Scada, Boolean Data Type, Programmable Logic Controller, International Electrotechnical Commission
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Tunnel SCADA/PMCS – TMC/TSS InterfaceSpecification IA/12-13/D/003/ST Pre Contract Professional Consultancy Design Services for AI Rayyan Road & AI Bustan Street South (P007) AL RAYYAN ROAD Al Rayyan Road Tunnel Tunnel SCADA/PMCS – TMC/TSS Interface Specification At Junctions R6 Control Sheet Doc. No. EXW-P007-0201-MC-KEO-RP-00210 Doc. No.: EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Rev. D02 Prepared by: Page i Tunnel SCADA/PMCS – TMC/TSS Interface Specification TABLE OF CONTENTS 1.0 INTRODUCTION .......................................................................................................................................... 1 1.1 Notes Regarding This Document .............................................................................................................. 1 1.2 Related Documents .................................................................................................................................. 1 1.3 Related Drawings ..................................................................................................................................... 1 1.4 Codes and standards applicable .............................................................................................................. 1 1.5 Other Applicable standards:..................................................................................................................... 4 1.6 Electromagnetic compatibility (EMC)....................................................................................................... 5 1.7 List of Abbreviations ................................................................................................................................. 6 2.0 INTERFACE WITH THE PMCS ....................................................................................................................... 9 2.1 Proposed PMCS Arrangement .................................................................................................................. 9 2.2 Quality of Service and Safety Integrity ................................................................................................... 10 3.0 DATA TO BE TRANSFERRED BETWEEN PMCS AND TSS ............................................................................. 10 3.1 General Philosophy ................................................................................................................................ 10 4.0 POWER GROUP ........................................................................................................................................ 12 4.1 4.2 4.3 Proposal .......................................................................................................................................... 12 Mains Supply Failure ....................................................................................................................... 12 Mains Supply in Maintenance Flag ................................................................................................. 13 5.0 LIGHTING GROUP ..................................................................................................................................... 13 5.1 Proposal .......................................................................................................................................... 13 5.2 Lighting Controller Status (per bore)............................................................................................... 13 5.3 Lighting Controller in Maintenance Flag (per bore) ............................................................................... 14 5.4 Lighting Level (per bore) ........................................................................................................................ 14 5.5 Emergency Lighting Override (per bore) ................................................................................................ 14 5.6 Emergency Lighting Confirmed (per bore) ............................................................................................. 14 5.7 Overall Lighting Ctrl Mode (per bore) .................................................................................................... 14 5.8 Overall Lighting Ctrl Mode Request (per bore)....................................................................................... 15 5.9 Lighting Control Mode Reset (per bore) ................................................................................................. 15 5.10 Lighting Control Mode Reset Confirm (per bore) ................................................................................. 15 6 FANS GROUP ............................................................................................................................................... 15 6.1 Proposal .......................................................................................................................................... 15 6.2 Fans Request (per bore) ......................................................................................................................... 16 6.3 Fans Confirm (per bore) ......................................................................................................................... 16 6.4 Fans Fault Status .................................................................................................................................... 17 6.5 Fans in Maintenance Flag ...................................................................................................................... 17 6.6 Fans Operating Speed (per bore) ........................................................................................................... 17 6.7 Overall Fan Ctrl Mode (per bore) ........................................................................................................... 17 6.8 Overall Fan Ctrl Request (per bore) ........................................................................................................ 18 6.9 Fan Control Mode Reset (per bore) ........................................................................................................ 18 Doc. No. EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Page iii ........ 27 12 PAVA ANNOUNCER GROUP................................ 20 8............................................................................................................................................................................. 31 14........................................................................................................................................... 31 Doc................ 19 7................................................................................................................ 18 7.................................................................................................Tunnel SCADA/PMCS – TMC/TSS Interface Specification 6...........................................................................................................................................................................................................................................................2 SCP Door Open (per panel) ..............1 Proposal ..................................... 31 15............. 21 8............................ 20 8..................................................................................... 27 11..........................................2 Detector Alarm State (CO.......... 18 7 SCP GROUP .............................. 23 9..................................................................................................... 20 7..........1 Proposal ........................................................ EXW-P007-0201-MC-KEO-RP-00210 Rev........6 SCP in Maintenance Flag (per panel) .................................... NO and VIS per Bore)....................................................................1 Proposal ...................................................................................................................................................... 31 14................................................ 21 9............................................................5 Air Quality in Maintenance Flag (per bore) ...................................................2 Fire Alarm On .............................................................4 Sump in Maintenance Flag.................................................................................................. 24 10...............................5 SCP Manual Control (per panel) ........................................1 Proposal .... 19 7........... 18 7....................................................................................................................................1 Proposal ....... 21 9.......................................................................................................................2 Sump Level Too High For Safety ...........................................................................................................................................................................3 Door Open (per panel)................................................................................. NO and VIS per bore) .......................1 Proposal .. 26 11 VAID GROUP ............................................................. 27 12..............................................................................2 Cross Passage Doors/Inter-bore Door Open (per door) ........3 Fire Alarm Fault ...........................................................................4 Fire Alarm in Maintenance Flag ........................ 31 15 INTRUDER ALARM GROUP .......... 28 13.........1 Proposal ............................................ No........................................... 30 14 FIRE ALARM GROUP ................. 24 10 AIR QUALITY GROUP .10 Fan Control Mode Reset Confirm (per bore) ...................................................................................................................................1 Proposal ..................................................................................................................... 24 10........................ 29 13............................................................................................................................................. 19 7........................................................................... D02 Page iv ......................................................................................................................................................................... 20 8................ 21 9 TUNNEL PANEL DOORS GROUP ........................................................ 30 14.............................................................................................................................................................................................................................. 24 10..... 28 13.........3 Sump Control Equipment Fault ............................................3 Cross Passage Doors/Inter-bore Door in Maintenance Flag (per door) ..................................................................................................................................................................................................... 30 14....3 Detector Fault State (CO....................4 SCP Grant Control (per panel) .............................2 Tunnel Panel Doors in Maintenance Flag (per bore) ......................................... 20 8 SUMP GROUP ...........1 Proposal ...................................................................... 25 10............................................3 SCP Control Request (per panel) ....... 27 13 CROSS PASSAGE DOORS/INTER-BORE DOORS GROUP ..................................................... .................................3 SCADA PLC Master/Slave (per PLC) ........................... 33 16................................................ 34 Doc................................................................................. 33 16.....................2 Intruder Alarm On ............................................................................................................................... EXW-P007-0201-MC-KEO-RP-00210 Rev.........................................................................4 SCADA PLC Heartbeat (per PLC) .........................5 SCADA PLC in Maintenance Flag (per server) .............................................................................................. 32 16 SCADA GROUP .........2 SCADA Server Health (per server)................................................. 33 17..................................................................3 SCADA Server Master/Slave (per server) .................................... 32 15................................ No......................... 33 16........................................................... 34 17....................................................................................................................................1 Proposal ............2 SCADA PLC Health (per PLC) ...... 34 17............ 33 16.....................................................................................................................................................................................................................................................................................Tunnel SCADA/PMCS – TMC/TSS Interface Specification 15...........................4 Intruder Alarm in Maintenance Flag ............. 33 17 SCADA PLC GROUP ................................. 33 17................................ 32 15...............1 Proposal .... 34 17...................................... D02 Page v ................................................................................................................3 Intruder Alarm Fault.....................................................................4 SCADA Server in Maintenance Flag (per server) .................. HYDRANTS & VALVES Page 1 of 34 . HYDRANTS & VALVES FIRE MAIN.2 Related Documents Document Number Title EXW-P007-0201-MC-KEO-RP-00209 Tunnel SCADA PMCS Control Concept EXW-P007-0201-MC-KEO-RP-00210 Tunnel TMC/TSS – SCADA/PMCS Control Interface (This Document) EXW-P007-0201-MC-KEO-RP-00211 Tunnel PMCS Smoke Control Panel Control Interface EXW-P007-0201-MC-KEO-RP-00212 Tunnel PMCS Plant I/O Control Interface List EXW-P007-0201-MC-KEO-RP-00213 Tunnel CCTV Camera Specification EXW-P007-0201-MC-KEO-RP-00214 Mechanical. 1. D02 FIRE MAIN.1 Notes Regarding This Document This document describes the key requirements of the SCADA/PMCS necessary for it to handle the interface to the TMC/TSS (tunnel subsystem) Plant interfaces. HYDRANTS & VALVES FIRE MAIN.0 Introduction 1. HYDRANTS & VALVES FIRE MAIN. EXW-P007-0201-JF-KEO-DG00100-001 EXW-P007-0201-MC-KEODG-00106-001 EXW-P007-0201-MC-KEODG-00106-002 EXW-P007-0201-MC-KEODG-00107-001 EXW-P007-0201-MC-KEODG-00107-002 EXW-P007-0201-MC-KEODG-00107-003 EXW-P007-0201-MC-KEODG-00107-004 EXW-P007-0201-MC-KEODG-00107-005 EXW-P007-0201-MC-KEO- Title RAYYAN ROAD KEY PLAN M&E LAYOUT (SHEET 1 OF 1) RAYYAN ROAD FIRE SAFETY TYPICAL PLAN & SECTIONS (SHEET 1 OF 2) RAYYAN ROAD FIRE SAFETY TYPICAL PLAN & SECTIONS (SHEET 2 OF 2) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 LOCATION (SHEET 1 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 LOCATION (SHEET 2 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 LOCATION (SHEET 3 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 LOCATION (SHEET 4 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 LOCATION (SHEET 5 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 Doc. EXW-P007-0201-MC-KEO-RP-00210 Rev.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 1.3 Related Drawings Drawing No. Electrical and Systems – General Specifications EXW-P007-0201-MC-KEO-RP-00215 Tunnel Pumped Drainage Installations EXW-P007-0201-MC-KEO-RP-00216 Tunnel Fire Safety Systems Specification EXW-P007-0201-MC-KEO-RP-00217 Tunnel Panels EXW-P007-0201-MC-KEO-RP-00218 Tunnel Cross Passage Doors EXW-P007-0201-MC-KEO-RP-00219 Tunnel Way Finding Signs EXW-P007-0201-MC-KEO-RP-00220 Tunnel Operational Control Concept EXW-P007-0201-MC-KEO-RP-00221 Tunnel Ventilation Control Concept EXW-P007-0201-MC-KEO-RP-00222 Junction R6 Road Tunnel – Detailed Design M&E Systems EXW-P007-0201-MC-KEO-RP-00223 Contract 2 Underpasses – Detailed Design M&E Systems EXW-P007-0201-MC-KEO-RP-00224 Not used EXW-P007-0201-MC-KEO-RP-00225 Underpass Pumped Drainage installations 1. HYDRANTS & VALVES FIRE MAIN. No. HYDRANTS & VALVES FIRE MAIN. CCP & TULDB LOCATIONS (SHEET 2 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. EP. EP. EP. CCP & TULDB LOCATIONS (SHEET 4 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. EP. EP.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Drawing No. CCP & TULDB LOCATIONS (SHEET 3 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. EXW-P007-0201-MC-KEO-RP-00210 Rev. DG-00107-006 EXW-P007-0201-MC-KEODG-00107-007 EXW-P007-0201-MC-KEODG-00107-008 EXW-P007-0201-MC-KEODG-00201-001 EXW-P007-0201-MC-KEODG-00201-002 EXW-P007-0201-MC-KEODG-00201-003 EXW-P007-0201-MC-KEODG-00201-004 EXW-P007-0201-MC-KEODG-00301-001 EXW-P007-0201-MC-KEODG-00301-002 EXW-P007-0201-MC-KEODG-00301-003 EXW-P007-0201-MC-KEODG-00301-004 EXW-P007-0201-MC-KEODG-00301-005 EXW-P007-0201-MC-KEODG-00301-006 EXW-P007-0201-MC-KEODG-00301-007 EXW-P007-0201-MC-KEODG-00302-001 EXW-P007-0201-MC-KEODG-00401-001 EXW-P007-0201-MC-KEODG-00401-002 EXW-P007-0201-MC-KEODG-00401-003 EXW-P007-0201-MC-KEODG-00401-004 EXW-P007-0201-MC-KEODG-00401-005 EXW-P007-0201-MC-KEODG-00401-006 EXW-P007-0201-MC-KEODG-00402-001 EXW-P007-0201-MC-KEODG-00501-001 EXW-P007-0201-MC-KEODG-00501-002 EXW-P007-0201-MC-KEODG-00501-003 EXW-P007-0201-MC-KEO- Title LOCATION (SHEET 6 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 FIRE MAIN. CCP & TULDB LOCATIONS (SHEET 5 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL. HYDRANTS & VALVES SECTION (SHEET 7 OF 8) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 FIRE MAIN. CCP & TULDB LOCATIONS (SHEET 1 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. D02 Page 2 of 34 .TYPICAL INDIVIDUAL LIGHTING DISTRIBUTION PANEL (SHEET 7 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. HYDRANTS & VALVES SECTION (SHEET 8 OF 8) RAYYAN ROAD JUNCTION 6 TUNNEL TU1 ILLUMINATED EMERGENCY WAY FINDING SIGN LOCATIONS (SHEET 1 OF 4) RAYYAN ROAD JUNCTION 6 TUNNEL TU1 ILLUMINATED EMERGENCY WAY FINDING SIGN LOCATIONS (SHEET 2 OF 4) RAYYAN ROAD JUNCTION 6 TUNNEL TU1 ILLUMINATED EMERGENCY WAY FINDING SIGN LOCATIONS (SHEET 3 OF 4) RAYYAN ROAD JUNCTION 6 TUNNEL TU1 ILLUMINATED EMERGENCY WAY FINDING SIGN LOCATIONS (SHEET 4 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL-TU1 EDP. No. EP &CCP GROUP ARRANGEMENT (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 PA/VA SYSTEM LOCATIONS (SHEET 1 OF 6) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 PA/VA SYSTEM LOCATIONS (SHEET 2 OF 6) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 PA/VA SYSTEM LOCATIONS (SHEET 3 OF 6) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL PA/VA SYSTEM LOCATIONS (SHEET 4 OF 6) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL PA/VA SYSTEM LOCATIONS (SHEET 5 OF 6) AL RAYYAN ROAD JUNCTION R6 ROAD TUNNEL PA/VA CONFIGURATION (SHEET 6 OF 6) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 PA/VA SCHEMATIC SHEET (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 GENERAL FIRE DETECTION & WARNING (SHEET 1 OF 4)` RAYYAN ROAD JUNCTION R6 TUNNEL TU1 GENERAL FIRE DETECTION & WARNING (SHEET 2 OF 4)` RAYYAN ROAD JUNCTION R6 TUNNEL TU1 GENERAL FIRE DETECTION & WARNING (SHEET 3 OF 4)` RAYYAN ROAD JUNCTION R6 TUNNEL TU1 GENERAL FIRE DETECTION & Doc.TYPICAL SINGLE EMERGENCY PANEL ARRANGEMENT (WITHOUT HYDRANT) (SHEET 6 OF 7) RAYYAN ROAD JUNCTION R6 TUNNEL. DG-00501-004 EXW-P007-0201-MC-KEODG-00601-001 EXW-P007-0201-MC-KEODG-00601-002 EXW-P007-0201-MC-KEODG-00601-003 EXW-P007-0201-MC-KEODG-00601-004 EXW-P007-0201-MC-KEODG-00701-001 EXW-P007-0201-MC-KEODG-00701-002 EXW-P007-0201-MC-KEODG-00701-003 EXW-P007-0201-MC-KEODG-00701-004 EXW-P007-0201-MC-KEODG-00702-001 EXW-P007-0201-MC-KEODG-00800-001 EXW-P007-0201-MC-KEODG-00801-001 EXW-P007-0201-MC-KEODG-00801-002 EXW-P007-0201-MC-KEODG-00801-003 EXW-P007-0201-MC-KEODG-00801-004 EXW-P007-0201-MC-KEODG-00801-005 EXW-P007-0201-MC-KEODG-00802-001 EXW-P007-0201-MC-KEODG-00802-002 EXW-P007-0201-MC-KEODG-00802-003 EXW-P007-0201-MC-KEODG-00802-004 EXW-P007-0201-MC-KEODG-00802-005 EXW-P007-0201-MC-KEODG-00803-001 EXW-P007-0201-MC-KEODG-00901-001 EXW-P007-0201-MC-KEODG-00902-001 EXW-P007-0201-MC-KEODG-00902-002 EXW-P007-0201-MC-KEODG-00903-001 Title WARNING (SHEET 4 OF 4)` RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VENTILATION LAYOUT (SHEET 1 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VENTILATION LAYOUT (SHEET 2 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VENTILATION LAYOUT (SHEET 3 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VENTILATION LAYOUT (SHEET 4 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 LANE CONTROL SIGNS LOCATION LAYOUT (SHEET 1 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 LANE CONTROL SIGNS LOCATION LAYOUT (SHEET 2 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 LANE CONTROL SIGNS LOCATION LAYOUT (SHEET 3 OF 4) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 LANE CONTROL SIGNS LOCATION LAYOUT (SHEET 4 OF 4) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL PMCS/SCADA COMMUNICATION NETWORK SHEET 1 OF 1 RAYYAN ROAD JUNCTION R6 TUNNEL TU1 CCTV CAMERA SCHEMATIC (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 CCTV CAMERA LAYOUT (SHEET 1 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL CCTV CAMERA SCHEMATIC (SHEET 2 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL CCTV CAMERA SCHEMATIC (SHEET 3 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL CCTV CAMERA SCHEMATIC (SHEET 4 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL CCTV CAMERA SCHEMATIC (SHEET 5 OF 5) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VAID CAMERA LAYOUT (SHEET 1 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL VAID SYSTEM SCHEMATIC (SHEET 2 OF 5) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL VAID CAMERA CONFIGURATION (SHEET 3 OF 5) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VAID CAMERA LAYOUT (SHEET 4 OF 5) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VAID CAMERA CONFIGURATION (SHEET 5 OF 5) RAYYAN ROAD JUNCTION R6 TUNNEL TU1 VAID CAMERA SYSTEM SCHEMATIC (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL ERT NETWORK (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL LHD DTS SCHEMATIC (SHEET 1 OF 2) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL LEAKY FEEDER (SHEET 2 OF 2) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL FIRE SAFETY SYSTEMS (SHEET 1 OF 1) Doc.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Drawing No. No. EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Page 3 of 34 . codes and statutes Regional legislation.4 Codes and standards applicable Hierarchy of codes. BS 7671 Requirements for Electrical Installations 2. D02 Page 4 of 34 . European or International standard applicable to this scheme/installations. 5. EXW-P007-0201-MC-KEODG-00904-001 EXW-P007-0201-MC-KEODG-00904-002 EXW-P007-0201-MC-KEODG-00905-001 EXW-P007-0201-MC-KEODG-00906-001 EXW-P007-0201-MC-KEODG-00906-002 EXW-P007-0201-MC-KEODG-00906-003 EXW-P007-0201-MC-KEODG-00907-001 EXW-P007-0201-MC-KEODG-00908-001 EXW-P007-0201-MC-KEODG-00908-002 EXW-P007-0201-MC-KEODG-00908-003 EXW-P007-0201-MC-KEODG-00909-001 EXW-P007-0201-CD-KEODG-00212-005 EXW-P007-0201-CD-KEODG-00212-006 EXW-P007-0201-CD-KEODG-00208-001 Title RAYYAN ROAD JUNCTION R6 ROAD TUNNEL LANE CONTROL SIGN SYSTEM SCHEMATIC (SHEET 1 OF 2) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL DMS/LCS CONFIGURATION (SHEET 2 OF 2) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL IMPOUNDING SUMP VENTILATION SCHEMATIC (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL SCP GA PANEL LAYOUT (SHEET 1 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL SCP GA PANEL LAYOUT (SHEET 2 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL SCP GA PANEL LAYOUT (SHEET 3 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL – TYPICAL SMOKE CONTROL PANEL LAYOUT (SHEET 1 OF 1) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL .DETAIL OF FIRE BRIGADE CONNECTORS (SHEET 3 OF 3) Al RAYYAN ROAD JUNCTION R6 ROAD TUNNEL ATTENUATION TANK SECTIONAL DETAIL (SHEET 5 OF 6) Al RAYYAN ROAD JUNCTION R6 ROAD TUNNEL ATTENUATION TANK/PLANT ROOM INSTALLATION SCHEMATIC (SHEET 6 OF 6) Al RAYYAN ROAD UNDERPASS DRAINAGE CHANNEL DETAILS 1. codes and statutes This document UK Highways Agency BD78/99 and NFPA 502 UK Highways Agency Series 7000 specifications PIARC Road Tunnel Manual Ashghal ITS Specifications Federal Highway Administration (System Engineering Handbook for ITS Systems) QCS Specifications 2010 WIS Standards 1. 10.CROSS PASSAGE DOORS (SHEET 1 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL . 7.DETAIL OF FIRE BRIGADE CONNECTORS (SHEET 3 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL .Tunnel SCADA/PMCS – TMC/TSS Interface Specification Drawing No. Doc. standards and specifications 1. 2. No.5 Other Applicable standards: 1. Any other British. 3. National legislation. 4. Manufacturer’s product specific recommendations. EXW-P007-0201-MC-KEO-RP-00210 Rev. 6. 3.TYPICAL CROSS CONNECTION DOORS (SHEET 2 OF 3) RAYYAN ROAD JUNCTION R6 ROAD TUNNEL . 9. 8. induced by radio-frequency fields 7. International Electrotechnical Vocabulary (IEV) – Chapter 161: Electromagnetic compatibility 2. electromagnetic field immunity test – Level 3 4. the latest edition of the referenced document (including any amendments) applies.6 Electromagnetic compatibility (EMC) For Normative references The following referenced documents are indispensable for the application of this document. Electromagnetic compatibility (EMC) – Part 4-4: Testing and measurement techniques – Electrical fast transient/burst immunity test – Level 3 5.Part 6-4: Generic standards .Immunity Level 3 2. only the edition cited applies. IEC 61000-4-11.Immunity for industrial environments . radio-frequency. No.Emission standard for residential. IEC 61000-4-5. Electromagnetic compatibility (EMC) – Part 4: Testing and measurement techniques – Section 2: Electrostatic discharge immunity test – Level 3 3.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 1. CISPR 22.Part 6-3: Generic standards . IEC 61000-4-6.Emission Industrial environment 1. Resistance to HF interference – damped oscillatory waves: IEC 61000-4-12 – Level 3 10. For undated references. Electromagnetic compatibility (EMC) – Part 4: Testing and measurement techniques – Section 5: Surge immunity test – Level 3 6. Information technology equipment – Radio disturbance characteristics – Limits and methods of measurement Residential. For dated references. Electromagnetic compatibility (EMC) – Part 4-6: Testing and measurement techniques – Section 6: Immunity to conducted disturbances. IEC 61000-4-3. Electromagnetic compatibility (EMC) – Part 4-3: Testing and measurement techniques – Radiated. IEC 61000-6-2: Electromagnetic compatibility (EMC) . IEC 61000-4-4. IEC 61000-6-3: Electromagnetic compatibility (EMC) .Immunity for residential.Immunity for power station and substation environments – Immunity Level 3 Doc. commercial and light-industrial environments – Immunity Level 3 2. EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Page 5 of 34 . IEC 61000-6-1: Electromagnetic compatibility (EMC) . Electromagnetic compatibility (EMC) – Part 4: Testing and measurement techniques – Section 8: Power frequency magnetic field immunity test 8. light industrial environment 1. Normative references 1.Part 6-2: Generic standards . commercial and light-industrial environments .Part 6-5: Generic standards . IEC 61000-4-8. commercial. short interruptions and voltage variations immunity tests 9.Part 6-1: Generic standards .Emission standard for industrial environments . IEC 61000-4-2.Emission Power station and substation environment 3. IEC 60050-161. Electromagnetic compatibility (EMC) – Part 4-11: Testing and measurement techniques – Voltage dips. IEC 61000-6-5: Electromagnetic compatibility (EMC) . IEC 61000-6-4: Electromagnetic compatibility (EMC) . IEC 61000-6-6: Electromagnetic compatibility (EMC) .HEMP immunity for indoor equipment HEMP – immunity Level 3 1. No.7 List of Abbreviations The abbreviations used in this Specification and the associated Plant Specifications have the following meanings: Abbreviation ac AC AFBMA AI AIP AISI AO ASTM ATEX BS BG CCD CCTV CD-R CD CDM CDROM CER CM C of C CO COSHH DB DC DI DMRB DP DO DOL DSEAR DTS DW EC EDP EMC EMF EMI EN EP Meaning Alternating Current Air Changes Anti-Friction Bearing Manufacturer’s Association Analogue Input Approval in Principle American Iron and Steel Institute Analogue Output American Society for Testing and Materials ATmosphères EXplosives or Explosive Atmospheres British Standard Break Glass Charged Coupled Device Closed Circuit Television Compact Disc Recordable Compact Disc Construction Design and Management (Regulations) Compact Disc Read Only Memory Communications Equipment Room Configuration Management Certificate of Conformity Carbon Monoxide Control of Substances Hazardous to Health Distribution Board Direct Current Digital Input Design Manual for Roads and Bridges Distribution Panel Digital Output Direct-on-line Dangerous Substances and Explosive Atmospheres Regulations UK (ATEX 137 implementation) Distributed Temperature sensing Duct Work (Specification) European Commission Emergency Distribution Point Electromagnetic Compatibility Electromagnetic Fields Electromagnetic Interference European Standard Emergency Point Doc. D02 Page 6 of 34 .Part 6-6: Generic standards . EXW-P007-0201-MC-KEO-RP-00210 Rev.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Indoor equipment 4. Tunnel SCADA/PMCS – TMC/TSS Interface Specification Abbreviation EPDM EPROM 2 E PROM EEPROM ERT EX FAP FAT FDS FL FO FP FRLS FS FSK FSC GSM GUI HA HDLC HEMP HH HMI HVAC HVCA HV Hz IEC I/O IP IP IRT ISO ITS LCP LCS LCS LEL LFS LHD LL LPCB LSOH LV M&E MCB MCC MCCB MCHW Meaning Ethylene Propylene Diene Monomer Erasable Programmable Read Only Memory Electrically Erasable Programmable Read Only Memory Electrically Erasable Programmable Read Only Memory Emergency Roadside Telephone Explosion Proof rated Fire Alarm Panel Factory Acceptance Tests Functional Design Specification Factory Link Fibre Optic Fire Protection Fire Retardant Low Smoke Fire Survivable Frequency Shift Key Forest Stewardship Council Global System for Mobiles Graphical User Interface Highways Agency UK High level Data Link Control High Energy Magnetic Impulse High-High Human Machine Interface Heating/Ventilation/Air-Conditioning Heating and Ventilating Contractor’s Association UK High Voltage Hertz International Electrotechnical Commission Input/Output Ingress Protection Internet Protocol Incident Response Team i. EXW-P007-0201-MC-KEO-RP-00210 Rev. Mechanical and Electrical Miniature Circuit Breaker Motor Control Centre Moulded Case Circuit Breaker Manual of Contract Documents for Highway Work in the UK Doc.e. No. Emergency Services International Standards Organisation Intelligent Transportation Systems Local Control Panel Lane Control Signs Lighting Control System Lower Explosive Level Low Fume and Smoke Linear Heat Detection Low-Low Loss Prevention Certification Board Low Smoke Zero Halogen Low Voltage. Voltage below 1000 Vac and above 50 Vac. D02 Page 7 of 34 . Tunnel SCADA/PMCS – TMC/TSS Interface Specification Abbreviation MES MET MMFO MTBF MTTR MUX MV NAMAS NEMA NER NFPA NO NPSH NR NRV NTCIP ODVA O&M PA PABX PAVA PC PEFC PIARC PLC PMCS PN PQP PROM PSU PTZ PVC QA QC QCS RAM RH RIO RS232 RS422 RS485 RTD RTU SAT SCADA SCP SDS SFA SMFO Meaning Mechanical . No. voltage above 1000 Vac but below HV National Measurement Accreditation Services National Electrical Manufacturer’s Association Neutral Earthing Resistor National Fire Protection Association Nitrous Oxide Net Positive Suction Head Noise Reduction Non-Return Valve National Transportation Communications for ITS Protocol Open DeviceNet Vendors Association Operations and Maintenance Public Address Private Automatic Branch Exchange Public Address Voice Alarm Personal Computer Programme for the Endorsement of Forest Certification The World Road Association Programmable Logic Controller Plant Monitoring and Control System Pressure Normal Project Quality Plan Programmable Read Only Memory Power Supply Unit Pan.Electrical . Tilt and Zoom Polyvinyl Chloride Quality Assurance Quality Control Qatar Construction Standards Random Access Memory Relative Humidity (as %) Remote Input / Output Recognised Standard 232 Recognised Standard 422 Recognised Standard 485 Resistance Temperature Detector Remote Terminal Unit Site Acceptance Tests Supervisory Control and Data Acquisition Smoke Control Panel Software Design Specifications Service Factor Amperes Single Mode Fibre Optic Doc. D02 Page 8 of 34 . EXW-P007-0201-MC-KEO-RP-00210 Rev.Systems Metrological/Environmental/Traffic Multi-Mode Fibre Optic Mean Time Between Failure Mean Time to Repair Multiplexer Medium Voltage. EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Page 9 of 34 . No.1 Proposed PMCS Arrangement The proposed PMCS arrangement that will be used to support all required monitoring and control functions.0 Interface with the PMCS 2. It should be intended that the TMC/TSS interfaces are with the dual master/hot standby PLCs at the center of the PMCS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Abbreviation TCP/IP TDSCG TFT TM TMC TOA TR TSB UL UPS USB USSG UK UKAS V Vac VAID VCR Vdc VDU VESDA VID VMS VSD VSD WIS XPLE Meaning Transmission Control Protocol/Internet Protocol Tunnel Design and Safety Consultation Group Thin Film Transistor (Display Technology) Tunnel Maintainer Traffic Management Centre/Tunnel Management centre Tunnel Operating Authority Technical Requirement Tunnel Service Building Underwriters Laboratories Uninterruptible Power supply Universal Serial Bus United States Standard Gage United Kingdom United Kingdom Accreditation Service Volt(age) Volts ac Video Automatic Incident Detection Video Cassette Recorder Volts dc Visual Display Unit Very Early Smoke Detection Aspirator Video Incident Detection Variable Message Sign Video Smoke Detection Variable Speed Detection Water Industry Specifications UK Cross-linked Polyethylene 2. Doc. Pollution Sensors and VAID 2.0 Data to be transferred between PMCS and TSS 3. D02 Page 10 of 34 . 3. The PMCS will also receive commands for controlling equipment that will increase public safety in the event of an incident.1 General Philosophy Data from the PMCS will be filtered so that only data relating to immediate tunnel public safety is uploaded. No. Pollution Sensors and VAID NB Smoke Control Panels SB Smoke Control Panels SB Fan Starters.2 Quality of Service and Safety Integrity The PMCS will include functions to guarantee Quality of Service and Safety Integrity as described. EXW-P007-0201-MC-KEO-RP-00210 Rev. Doc.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Procedures TOA Authorized user TMC Authorized User Tunnel Subsystem (TSS) Dual Redundant SCADA Servers Manual Overrides and Status Monitoring Dual PLC Processors Dual PLC Processors Smoke Panel Control Requests and Plant Status Control and Status Dual Redundant Dual Redundant Dual Redundant Control and Status Dual Redundant SCADA/PMCS NB Fan Starters. No. Doc. in preparation to an agreed nomenclature. The following shows how this interface is reciprocated at the PMCS. however currently the Identifier names have been left blank. D02 Page 11 of 34 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification The proposed Data Groups are listed in this document below. EXW-P007-0201-MC-KEO-RP-00210 Rev. 0 Power Group 4. Essential bus failures will affect the availability of lighting. No. 4. Singular power supply failures will not be highlighted due to several layers of supply redundancy being available at the HV and LV switchboards. Non-essential bus failures will reduce the availability of tunnel ventilation. Doc.2 Mains Supply Failure The PMCS will drive this signal TRUE if any bus sections of the essential and non-essential LV buses at the TSB loose power on one or more phases. however this is not deemed necessary for traffic safety.1 Proposal Item Description HV Mains Supply Failure HV Mains Supply in Maintenance flag Tx 1 Healthy TX 1 Tripped Tx2 Healthy Tx 2 Tripped Tx 3 Healthy Tx 3 Tripped Tx 4 Healthy Tx 4 Tripped Fault In maintenance – true Fault Fault Fault Fault Identifier Data Type Boolean Boolean Range VFC VFC VFC VFC VFC VFC VFC VFC +24Vdc +24Vdc +24Vdc +24Vdc +24Vdc +24Vdc +24Vdc +24Vdc Access Rights T/F T/F Note: This list could be expanded to cater for more signals. D02 Page 12 of 34 . EXW-P007-0201-MC-KEO-RP-00210 Rev. however this is not deemed necessary for traffic safety. communications and the PMCS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 4. The TMC/TSS signal will clear when the following inputs return to normal: PMCS Digital Input Essential Bus ‘A’ Power Failure Essential Bus ‘B’ Power Failure Non-Essential Bus ‘A’ Power Failure Non-Essential Bus ‘B’ Power Failure UPS 1 On and Healthy UPS 1 Bypass mode selected UPS 1 Failure UPS 2 On and Healthy UPS 2 Bypass mode selected UPS 2 Failure Generator A Healthy Generator A Failure Generator B Healthy Generator B Failure Doc xxx xxx xxx xxx xxx xxx xxx xxx xxx xxx xxx xxx xxx xxx Section TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV TSB LV Note: This list could be expanded to cater for more signals. The signal to the TMC/TSS will be set TRUE if any of the following conditions become active. This will also raise an alarm at the TOA/SCADA GUI.1 Proposal Item Lighting Controller Status N/B Bore Lighting Controller Status S/B Bore Lighting Controller N/B in Maintenance flag Lighting Controller S/B in Maintenance flag Lighting Level N/B Bore Lighting Level S/B Bore Emergency Lighting Override N/B Bore Emergency Lighting Confirmed S/B Bore Emergency Lighting Override N/B Bore Emergency Lighting Confirmed S/B Bore Overall Lighting Ctrl Mode N/B Bore Overall Lighting Ctrl Mode N/B Bore Req.3 Mains Supply in Maintenance Flag This flag will be set TRUE by an operator at the TOA/SCADA GUI to inform the TMC/TSS that the Mains Supply failure indication is to be ignored. Overall Lighting Ctrl Mode S/B Bore Overall Lighting Ctrl Mode S/B Bore Req.2 Lighting Controller Status (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS. The signals will return to TRUE when the following conditions return to normal. Lighting Ctrl Mode Reset N/B Bore Lighting Ctrl Mode Reset S/B Bore Confirm Lighting Ctrl Mode Reset S/B Bore Lighting Ctrl Mode Reset S/B Bore Confirm Description Identifier Data Type Range True: Healthy True: Healthy True: In maintenance True: In maintenance Level 1–6 Level 1–6 True: Override Boolean Boolean Boolean T/F T/F T/F Boolean T/F Integer Integer Boolean 1–6 1-6 T/F True: Override Boolean T/F True: Override Boolean T/F True: Override Boolean T/F Mode 1-5 Level 1-6 Integer Integer 1-5 1-6 Mode 1-5 Level 1-6 Integer Integer 1-5 1-6 One Shot One Shot Boolean Boolean T/F T/F One Shot One Shot Boolean Boolean T/F T/F Access Rights 5. which will be displayed and recorded for auditing purposes. 5.0 Lighting Group 5.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 4. D02 Page 13 of 34 . EXW-P007-0201-MC-KEO-RP-00210 Rev. These are also listed in the IP Data section of the PMCS I/O list. No. This signal will be set FALSE for a particular bore if any of the following LCS conditions become active for that bore. Doc. 6 Emergency Lighting Confirmed (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS. 5.5 Emergency Lighting Override (per bore) The PMCS will receive two of these bore-specific command signals to the TSS. The PMCS will copy the N/B and S/B Lighting Stage Actual data to these data items.7 Overall Lighting Ctrl Mode (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS. 5.4 Lighting Level (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS. No. These are listed in the IP Data section of the SCADA/TPMCS I/O list. The SCADA/PMCS will also set the TMC/TSS lighting control mode request to stage 6 for the associated bore. The settings are as follows:      1 – LCS Automatic – lowest priority default setting 2 – TMC/TSS Manual Override (arbitrated by the PMCS) 3 – TOA/SCADA Manual Override (arbitrated by the PMCS) 4 – SCP Manual Override (arbitrated by the PMCS) 5 – LCS Local Override – highest priority setting Doc. A FALSE signal from the TMC/TSS will reset the control mode and remove the request for the associated bore. This will also raise an alarm at the SCADA GUI. D02 Page 14 of 34 . A TRUE signal from the TMC/TSS for a particular bore will instruct the PMCS to activate the TMC/TSS Lighting Manual Override Control Mode for that bore.3 Lighting Controller in Maintenance Flag (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS. 5. EXW-P007-0201-MC-KEO-RP-00210 Rev. 5. This flag will be set TRUE for a particular bore by an operator at the SCADA GUI to inform the TMC/TSS that the Lighting Controller Status signal for that bore is to be ignored. The PMCS will copy the N/B and S/B Overall Lighting Control Mode settings to these items. which will be displayed and recorded for auditing purposes.Tunnel SCADA/PMCS – TMC/TSS Interface Specification • • • LCS Communication Fault (derived from stale LCS Watchdog data) LCS Server Fault LCS Network Fault 5. This signal will be set TRUE for a particular bore if the TMC/TSS Lighting Manual Override Control Mode is active for that bore. 6 Fans Group 6. The PMCS will confirm the reception of the True one-shot Reset commands (section 5.8) from the TMC/TSS by feeding back a True one-shot signal for the associated bore. A TRUE one-shot signal from the TMC/TSS for a particular bore will instruct the PMCS to de-activate the following PMCS arbitrated lighting control modes for that bore: • • Manual Override from TOA/SCADA Manual Override from SCP This will be recorded at the SCADA system for auditing purposes. These will be lighting stage levels of 1 – 6 inherited from the highest active priority control modes for each bore. No. 5. 5.9 Lighting Control Mode Reset (per bore) The SCADA/PMCS will receive two of these bore-specific command signals to the TMC/TSS. The PMCS will copy the N/B and S/B Overall Lighting Control Mode Requests to these items.10 Lighting Control Mode Reset Confirm (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Signaling using the zero state should avoided since this state will occur when systems are restarted. EXW-P007-0201-MC-KEO-RP-00210 Rev. This control will not be able to reset any local manual override of the LCS since this control mode will be independent of the PMCS. and possibly when communications faults between systems occur.1 Proposal Item Fans N/B Bore Request Fans S/B Bore Request Fans N/B Bore Confirm Description 1 Control Released 2 OFF 3 50% 4 100% 1 Control Released 2 OFF 3 50% 4 100% 1 Control Released 2 OFF Doc.8 Overall Lighting Ctrl Mode Request (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS. 5. D02 Identifier Digital Data Type Range Integer 1-4 Integer 1-4 Integer 1-4 Page 15 of 34 Access Rights . 3 Fans Confirm (per bore) The PMCS will send two of these bore-specific status signals to the TMC/TSS. The TMC/TSS operator will be able to set or reset Ventilation Control Overrides from the TMC/TSS operator terminals for a particular bore by setting these items to the following values: • 1 . Overall Fan Ctrl Mode Bore S/B Overall Fan Ctrl Mode Bore S/B Req. No. and possibly when communications faults between systems occur.Release TMC/TSS manual control • 2 – Override OFF • 3 – Override 50% • 4 – Override 100% The SCADA/PMCS will ignore out-of-range data. Fan Ctrl Mode Reset Bore N/B Fan Ctrl Mode Reset Bore N/B Confirm Fan Ctrl Mode Reset Bore S/B Fan Ctrl Mode Reset Bore S/B Confirm Identifier Digital Data Type Range 3 50% 4 100% 1 Control Released 2 OFF 3 50% 4 100% True if faulty True if faulty True: In maintenance True: In maintenance 0–100% 0–100% Mode 0-4 0–100% Integer 1-4 Boolean Boolean Boolean T/F T/F T/F Boolean T/F Integer Integer Integer Integer 0-100 0-100 1-5 1-6 Mode 0-4 0–100% Integer Integer 1-5 1-6 One Shot One Shot Boolean Boolean T/F T/F One Shot One Shot Boolean Boolean T/F T/F Access Rights 6. D02 Page 16 of 34 . Signaling using the zero state should avoided since this state will occur when systems are restarted.2 Fans Request (per bore) The SCADA/PMCS will receive two of these bore-specific command signals to the TMC/TSS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Description Fans S/B Bore Confirm Fans N/B Bore Fault Status Fans S/B Bore Fault Status Fans N/B Bore in Maintenance flag Fans S/B Bore in Maintenance flag Fans N/B Operating Speed Fans S/B Operating Speed Overall Fan Ctrl Mode Bore N/B Overall Fan Ctrl Mode Bore N/B Req. 6. EXW-P007-0201-MC-KEO-RP-00210 Rev. Doc. The PMCS will copy the N/B and S/B Overall Ventilation Control Mode settings to these items. This signal to TRUE for a particular bore if any fans are deemed not available for that bore. No. D02 Page 17 of 34 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification This will be a copy of the Fans Request described in section 6.4 Fans Fault Status The PMCS will send two of these bore-specific status signals to the TMC/TSS. The settings are as follows: • • • • • 1 – Automatic Pollution Control – lowest priority default setting 2 – Automatic Fire Shutdown from VAID 3 – Manual Operator Override from TMC/TSS 4 – Manual Operator Override from TOA/SCADA 5 – Manual Operator Override from SCP Signaling using the zero state should avoided since this state will occur when systems are restarted. 6. The SCADA/PMCS will count all N/B and S/B running fans in order to determine the following reading for each bore: • • • • • No fans running – 0% Fans Level 1 running – 25% Fans Level 2 running – 50% Fans Level 3 running – 75% Fans Level 4 running – 100% 6. the SCADA/PMCS system will send two of these bore-specific status signals to the TMC/TSS. This flag will be set TRUE for a particular bore by an operator at the TOA/SCADA GUI to inform the TMC/TSS that the Fans Fault Status signal for that bore (see section x) is to be ignored. and possibly when communications faults between systems occur.6 Fans Operating Speed (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS. Doc.4. EXW-P007-0201-MC-KEO-RP-00210 Rev. The signal will return to FALSE when all fans for the bore are deemed available.7 Overall Fan Ctrl Mode (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TSS. 6. This value will only be returned if the written data was in the valid range 1 . This will also raise an alarm at the TOA/SCADA GUI. which will be displayed and recorded for auditing purposes. 6.2.5 Fans in Maintenance Flag The TOA/SCADA operator will set the particular fans in maintenance. These will be ventilation level of 0 – 100% inherited from the highest active priority control mode. • • Manual Override from SCADA/PMCS Manual Override from SCP This will be recorded at the SCADA for auditing purposes. No. This control will not be able to reset any local manual override of fan starters since this control mode will be independent of the PMCS. 7 SCP Group 7. The PMCS will copy the N/B (and S/B) Overall Ventilation Control Mode Request setting to this item. EXW-P007-0201-MC-KEO-RP-00210 Rev. The SCADA/PMCS will confirm the reception of the True one-shot Reset commands from the TMC/TSS by feeding back a True one-shot signal for the associated bore. D02 Identifier Page 18 of 34 Range T/F T/F Access Rights .10 Fan Control Mode Reset Confirm (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS. 6. A TRUE one-shot signal for a particular bore from the TMC/TSS will instruct the SCADA/PMCS to deactivate the following PMCS-arbitrated ventilation control modes for that bore.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 6. 6.8 Overall Fan Ctrl Request (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS.9 Fan Control Mode Reset (per bore) The SCADA/PMCS will receive two of these bore-specific command signals to the TMC/TSS.1 Proposal Item Description Bore N/B North SCP Door Open Bore N/B North SCP Control Request Bore N/B North SCP Grant Control Bore N/B North SCP Manual Control Bore N/B North SCP in Maintenance True if open True: Requested Digital Data Type Boolean Boolean True one-shot True: Granted Integer Boolean 1-2 T/F True: In maintenance Boolean T/F Bore N/B South SCP Door Open Bore N/B South SCP Control Request Bore N/B South SCP Grant Control Bore N/B South SCP Manual Control Bore N/B South SCP in True if open True: Requested Boolean Boolean T/F T/F True one-shot True: Granted Integer Boolean 1-2 T/F True: In maintenance Boolean T/F Doc. SCP (N/B South).2 SCP Door Open (per panel) The SCADA/PMCS will send four of these panel-specific status signals to the TMC/TSS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Maintenance Bore S/B South SCP Door Open Bore S/B South SCP Control Request Bore S/B South SCP Grant Control Bore S/B South SCP Manual Control Bore S/B South SCP in Maintenance True if open True: Requested Boolean Boolean T/F T/F True one-shot True: Granted Integer Boolean 1-2 T/F True: In maintenance Boolean T/F Bore S/B North SCP Door Open Bore S/B North SCP Control Request Bore S/B North SCP Grant Control Bore S/B North SCP Manual Control Bore S/B North SCP in Maintenance True if open True: Requested Boolean Boolean T/F T/F True one-shot True: Granted Integer Boolean 1-2 T/F True: In maintenance Boolean T/F 7. No. These signals will become TRUE for a particular panel when a Smoke Control Panel Access Door Open signal becomes active for that panel. Doc. 7. 7. SCP (S/B South) and SCP (S/B North) sections of the PMCS I/O list.3 SCP Control Request (per panel) The SCADA/PMCS will send four of these panel-specific status signals to the TMC/TSS. These are listed in the SCP (N/B North). These signals will become TRUE for a particular panel when a valid Control Request has been made at that panel using the Control Request push button. D02 Page 19 of 34 . This signal will return to FALSE if any of the following actions are made: • • The Control Request is cancelled at the source panel using the Control Release pushbutton The Control Request is accepted or rejected by the TMC/TSS operator. Note that accepting one SCP Control Request will also cancel any control requests from any of the other three SCPs because only one of the four panels can be granted control at any time.4 SCP Grant Control (per panel) The SCADA/PMCS will receive four of these panel-specific command signals from the TMC/TSS. EXW-P007-0201-MC-KEO-RP-00210 Rev. These signals will return to FALSE when the doors are closed. EXW-P007-0201-MC-KEO-RP-00210 Rev. and possibly when communications faults between systems occur. The signal will return to FALSE when control is released at the panel. 7.6 SCP in Maintenance Flag (per panel) The SCADA/PMCS will send four of these panel-specific status signals to the TMC/TSS. 8 Sump Group 8. This will also raise an alarm at the TOA/SCADA GUI. This flag will be set TRUE for a particular panel by an operator at the TOA/SCADA GUI to inform the TMC/TSS that the SCP status signals described above are to be ignored for that panel.1 Proposal Item Sump level too high for safety Sump control equipment fault Sump in maintenance Flag Flood detection in Tunnel Description Identifier Digital Data Type Range Access Rights Fluid Level Alert High Boolean T/F Sump Equipment Faulty Boolean T/F In maintenance– True Flood detected Alarm High Boolean Boolean T/F T/F Note: This list could be expanded to cater for more signals. 8. No. 7. These signals will become TRUE for a particular panel when a valid Control Request has been accepted by the TMC/TSS operator. however this is not deemed necessary for traffic safety.Tunnel SCADA/PMCS – TMC/TSS Interface Specification The TMC/TSS operator will be able to accept or reject SCP Control Requests for a particular bore by setting these items to the following values: • 1 – Reject the Control Request • 2 – Accept the Control Request The SCADA/PMCS will ignore out-of-range data. D02 Page 20 of 34 .5 SCP Manual Control (per panel) The SCADA/PMCS will send four of these panel-specific status signals to the TMC/TSS. The SCADA/PMCS will drive this signal TRUE whilst any of the following signals are active: Doc.2 Sump Level Too High For Safety The SCADA/PMCS will drive this signal TRUE if the water level in the Main or the Impounding Room sumps reaches the high level. which will be displayed and recorded for auditing purposes. Signaling using the zero state should avoided since this state will occur when systems are restarted. Main Midpoint sump Midpoint sump Midpoint sump Midpoint sump 8.4 Sump in Maintenance Flag This flag will be set TRUE by an operator at the TOA/SCADA GUI to inform the TMC/TSS that the sump status signals mentioned above are to be ignored. This will also raise an alarm at the TOA/SCADA GUI.Main Midpoint sump .Main Midpoint sump – Impounding Sump Tunnel flooding Tunnel flooding 8.3 Sump Control Equipment Fault The SCADA/PMCS will drive this signal TRUE whilst any of the following elements of the drainage plant reports a fault.Tunnel SCADA/PMCS – TMC/TSS Interface Specification PMCS Digital Input Doc Section Main Sump Level Alarm Impounding Sump Level alarm Tunnel Flood Alarm N/B Tunnel Flood Alarm S/B xxx xxx xxx xxx Midpoint sump . 9 Tunnel Panel Doors Group 9. EXW-P007-0201-MC-KEO-RP-00210 Rev.Main Midpoint sump . No. which will be displayed and recorded for auditing purposes. PMCS Digital Input Doc Section Main Pump 1 failed Main Pump 2 failed Main Pump 3 failed Sump interconnection valves Valve 1 failed Sump interconnection valves Valve 2 failed Sump diverter valve 1 failed Sump Diverter valve 2 failed xxx xxx xxx xxx xxx xxx xxx Midpoint sump . D02 Identifier Digital Data Type Range Access Rights Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Page 21 of 34 .1 Proposal Item Tunnel Panel Doors Bore N/B in Maintenance Flag Tunnel Panel Doors Bore S/B in Maintenance Flag Door N1 Bore N/B Accessed Door N2 Bore N/B Accessed Door N3 Bore N/B Accessed Door N4 Bore N/B Accessed Door N5 Bore N/B Accessed Door N6 Bore N/B Accessed Door N7 Bore N/B Accessed Description In maintenance – True In maintenance – True Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Doc. D02 Identifier Digital Data Type Range Access Rights Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Page 22 of 34 . No. EXW-P007-0201-MC-KEO-RP-00210 Rev.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Door N8 Bore N/B Accessed Door N9 Bore N/B Accessed Door N10 Bore N/B Accessed Door N11 Bore N/B Accessed Door N12 Bore N/B Accessed Door N13 Bore N/B Accessed Door N14 Bore N/B Accessed Door N15 Bore N/B Accessed Door N16 Bore N/B Accessed Door N17 Bore N/B Accessed Telephone Door D1 Bore N/B Accessed Telephone Door D2 Bore N/B Accessed Telephone Door D3 Bore N/B Accessed Telephone Door D4 Bore N/B Accessed Telephone Door D5 Bore N/B Accessed Telephone Door D6 Bore N/B Accessed Telephone Door D7 Bore N/B Accessed Telephone Door D8 Bore N/B Accessed Door S1 Bore S/B Accessed Door S2 Bore S/B Accessed Door S3 Bore S/B Accessed Door S4 Bore S/B Accessed Door S5 Bore S/B Accessed Door S6 Bore S/B Accessed Description Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Doc. No. which will be displayed and recorded for auditing purposes.2 Tunnel Panel Doors in Maintenance Flag (per bore) The SCADA/PMCS will send two of these bore-specific status signals to the TMC/TSS. D02 Page 23 of 34 . This will also raise an alarm at the TOA/SCADA GUI.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Description Door S7 Bore S/B Accessed Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door Switch Alarm Door S8 Bore S/B Accessed Door S9 Bore S/B Accessed Door S10 Bore S/B Accessed Door S11 Bore S/B Accessed Door S12 Bore S/B Accessed Door S13 Bore S/B Accessed Door S14 Bore S/B Accessed Door S15 Bore S/B Accessed Door S16 Bore S/B Accessed Door S17 Bore S/B Accessed Telephone Door D1 Bore S/B Accessed Telephone Door D2 Bore S/B Accessed Telephone Door D3 Bore S/B Accessed Telephone Door D4 Bore S/B Accessed Telephone Door D5 Bore N/B Accessed Telephone Door D6 Bore S/B Accessed Telephone Door D7 Bore N/B Accessed Telephone Door D8 Bore S/B Accessed Identifier Digital Data Type Range Access Rights Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F 9. This flag will be set TRUE for a particular bore by an operator at the TOA/SCADA GUI to inform the TMC/TSS that the door signals mentioned below are to be ignored for that bore. Doc. EXW-P007-0201-MC-KEO-RP-00210 Rev. 1 Proposal Item Description CO Detector N/B Bore Alarm State CO Detector N/B Bore Faulty State CO Detector S/B Bore Alarm State CO Detector S/B Bore Faulty State NO Detector N/B Bore Alarm State NO Detector N/B Bore Faulty State NO Detector S/B Bore Alarm State NO Detector S/B Bore Faulty State VIS Detector N/B Bore Alarm State VIS Detector N/B Bore Faulty State VIS Detector S/B Bore Alarm State VIS Detector S/B Bore Faulty State Wind Direction N/B (Northbound/Southbound) Wind Direction S/B (Southbound/Northbound) True if Alarm True if Fault True if Alarm True if Fault True if Alarm True if Fault True if Alarm True if Fault True if Alarm True if Fault True if Alarm True if Fault If N/B – True If S/B – False If S/B – True If N/B – False Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Boolean Air Quality in N/B Bore in Maintenance Flag Air Quality in S/B Bore in Maintenance Flag Weather station VIS Detector N/B Alarm State Weather station VIS Detector N/B Faulty State Weather station VIS Detector S/B Alarm State Weather station VIS Detector N/B Faulty State In maintenance True In maintenance True True if Alarm Boolean T/F T/F T/F T/F T/F T/F T/F T/F T/F T/F T/F T/F True – N/B False – S/B True – S/B False – N/B T/F Boolean T/F Boolean T/F True if Fault Boolean T/F True if Alarm Boolean T/F True if Fault Boolean T/F Identifier Digital Data Type Boolean Range Access Rights 10. NO and VIS per bore) The PMCS will send two sets of these bore-specific status signals to the TSS.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 9.2 Detector Alarm State (CO. 10 Air Quality Group 10. and is TRUE whilst the associated signal is active. Each set contains three separate alarm bits. NO and VIS. D02 Page 24 of 34 . EXW-P007-0201-MC-KEO-RP-00210 Rev.3 Door Open (per panel) The PMCS will send these panel-specific status signals to the TMC/TSS. one per each type of pollution reading – CO. Doc. No. Each signal is fed from a single switch input per panel. section 3.015m ) PMCS Digital Input Wind Direction N/B (Northbound/Southbound) Wind Direction S/B (Southbound/Northbound) These alarms will remain TRUE whilst the associated worst case bore pollution reading exceeds the limit set point. NO and VIS per Bore) The PMCS will send two sets of these bore-specific status signals to the TSS. These will then be compared with PMCS pollution limit set points and a corresponding alarm bit will be raised accordingly. the PMCS will examine the fault indication and quality of the 4-20mA signal from the individual sensors in the tunnel.015m ) S/B 2 CO Reading (0 – 300ppm) S/B 3 NO Reading (0 – 50ppm) S/B 3 -1 VIS Reading (0 – 0. 10. Each set contains three separate alarm bits.3.015m ) S/B 1 CO Reading (0 – 300ppm) S/B 2 NO Reading (0 – 50ppm) S/B 2 -1 VIS Reading (0 – 0.015m ) N/B 3 Wind Speed N/B (0 .3 Detector Fault State (CO. and details of this can be found in document item 9. NO and VIS. Any failures for a particular type of sensor (CO. one per each type of pollution sensor – CO.015m ) CO Reading (0 – 300ppm) S/B 1 NO Reading (0 – 50ppm) S/B 1 -1 VIS Reading (0 – 0. For each bore.10m/s) -1 VIS Weather Station N/B (0 – 0. D02 Page 25 of 34 . No. Doc. The source inputs are listed below: PMCS Analogue Input CO Reading (0 – 300ppm) N/B 1 NO Reading (0 – 50ppm) N/B 1 -1 VIS Reading (0 – 0. NO.10m/s) -1 VIS Weather Station S/B (0 – 0.015m ) N/B 2 CO Reading (0 – 300ppm) N/B 3 NO Reading (0 – 50ppm) N/B 3 -1 VIS Reading (0 – 0. VIS) will raise a corresponding alarm bit for that type of sensor.015m ) S/B 3 Wind Speed S/B (0 .015m ) N/B 1 CO Reading (0 – 300ppm) N/B 2 NO Reading (0 – 50ppm) N/B 2 -1 VIS Reading (0 – 0.Tunnel SCADA/PMCS – TMC/TSS Interface Specification For each bore. the PMCS will take the worst case CO. Pollution monitoring is closely coupled to automatic tunnel ventilation control. NO and VIS readings by analyzing valid readings from the individual sensors in the tunnel. EXW-P007-0201-MC-KEO-RP-00210 Rev. which will be displayed and recorded for auditing purposes. This will also raise an alarm at the SCADA GUI.5 Air Quality in Maintenance Flag (per bore) The PMCS will send two of these bore-specific status signals to the TSS. No.3. The source inputs of the sensor fault signals are listed below. Pollution monitoring is closely coupled to automatic tunnel ventilation control. section 3.1: PMCS Digital Input CO Sensor Fault N/B 1 NO Sensor Fault N/B 1 VIS Sensor Fault N/B 1 CO Sensor Fault N/B 2 NO Sensor Fault N/B 2 VIS Sensor Fault N/B 2 CO Sensor Fault N/B 3 NO Sensor Fault N/B 3 VIS Sensor Fault N/B 3 Wind Speed Sensor Fault N/B VIS Weather Station Sensor Fault N/B CO Sensor Fault S/B 1 NO Sensor Fault S/B 1 VIS Sensor Fault S/B 1 CO Sensor Fault S/B 2 NO Sensor Fault S/B 2 VIS Sensor Fault S/B 2 CO Sensor Fault S/B 3 NO Sensor Fault S/B 3 VIS Sensor Fault S/B 3 Wind Speed Sensor Fault S/B VIS Weather Station Sensor Fault S/B These alarms will remain TRUE whilst the associated fault conditions exist. 10. EXW-P007-0201-MC-KEO-RP-00210 Rev. D02 Page 26 of 34 . This flag will be set TRUE for a particular bore by an operator at the SCADA GUI to inform the TSS that the detector signals mentioned below are to be ignored for that bore. Doc.Tunnel SCADA/PMCS – TMC/TSS Interface Specification The source inputs of the sensor fault signals are listed below. The associated 4-20mA loop signals that will be checked for quality are listed in section 10. and details of this can be found in document item 9. 255 0 .255 0 .32 Integer 0 .1 Proposal Item VAID Healthy VAID Fault N/B in Maintenance Flag N/B Bore stopped vehicle N/B Vehicle Wrong way N/B Bore Queue N/B Bore Smoke detected N/B Bore Slow Vehicle N/B Bore Object in Road N/B Bore Pedestrians / Animals in Road S/B Bore stopped vehicle S/B Vehicle Wrong way S/B Bore Queue S/B Bore Smoke detected S/B Bore Slow Vehicle S/B Bore Object in Road S/B Bore Pedestrians / Animals in Road Description Identifier Digital Data Type Range True if Healthy True if Faulty In maintenance: True Zones 1 .255 0 .18 Zones 1 .18 Zones 1 .18 Zones 1 .255 0 .255 0 .255 Integer 0 . All off = Off Value 0 .18 Zones 1 .255 0 .255 Access Rights 12 PAVA Announcer Group 12.18 Zones 1 .255 0 . All off = Off Value 0 .18 Zones 1 .255 Integer 0 .32 Integer 0 .255 Zones 1 -1 8 Zones 1 .1 Proposal Item PA Announcer Healthy PA Announcer Fault PA Announcer in Maintenance Flag Bore N/B PA Zone Request Bore N/B PA Message to Announce Request Bore N/B PA Zone Confirmation Bore N/B PA Message to Announce Confirmation Bore S/B PA Zone Request Bore S/B PA Message to Announce Request Description Range True if Healthy True if Fault True if in Maintenance Boolean Boolean Boolean T/F T/F T/F Zones 1 – 18 as a set of bits.32 Integer 0 . EXW-P007-0201-MC-KEO-RP-00210 Rev.255 0 .255 0 .18 Zones 1 .32 Zones 1 – 18 as a set of bits.255 Integer 0 .255 0 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification 11 VAID Group 11.255 0 . D02 Identifier Digital Data Type Page 27 of 34 Access Rights .18 Zones 1 .18 Zones 1 .32 Doc. All off = Off Value 0 .18 Zones 1 .255 0 .18 Integer Integer Integer Integer Integer Integer Integer 0 .18 Zones 1 .18 Boolean Boolean Boolean T/F T/F T/F Integer Integer Integer Integer Integer Integer Integer 0 .32 Zones 1 – 18 as a set of bits. No. Maintenance N/B Cross Passage Door/Inter-bore Door 4 . EXW-P007-0201-MC-KEO-RP-00210 Rev.True if Open N/B Cross Passage Door/Inter-bore Door 3 .1 Proposal Item Description N/B Cross Passage Door/Inter-bore Door 1 .True if Open S/B Cross Passage Door/Inter-bore Door 2 . All off = Off Value 0 .Maintenance N/B Cross Passage Door/ Inter-bore Door 6 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Description Bore S/B PA Zone Confirmation Zones 1 – 18 as a set of bits.True if Open N/B Cross Passage Door/Inter-bore Door 4 .True if Open N/B Cross Passage Door/Inter-bore Door 1 .True if Open Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True Open/Closed Status Open/Closed Status Doc.True if Open N/B Cross Passage Door/Inter-bore Door 5 .Maintenance N/B Cross Passage Door/Inter-bore Door 3 .True if Open N/B Cross Passage Door/Inter-bore Door 8 . No. D02 Identifier Digital Data Type Range Access Rights Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Page 28 of 34 .Maintenance N/B Cross Passage Door/Inter-bore Door 7 .True if Open N/B Cross Passage Door/Inter-bore Door 7 .True if Open N/B Cross Passage Door/Inter-bore Door 2 .255 Integer 0 .Maintenance S/B Cross Passage Door/Inter-bore Door 1 .Maintenance N/B Cross Passage Door/Inter-bore Door 6 .True if Open N/B Cross Passage Door/Inter-bore Door 6 .Maintenance N/B Cross Passage Door/Inter-bore Door 2 .32 Access Rights 13 Cross Passage Doors/Inter-Bore Doors Group 13.32 Bore S/B PA Message to Announce Confirmation Identifier Digital Data Type Range Integer 0 .Maintenance N/B Cross Passage Door/ Inter-bore Door 5 . EXW-P007-0201-MC-KEO-RP-00210 Rev.Open S/B Cross Passage Door/Inter-bore Door 2 .True if Open S/B Cross Passage Door/Inter-bore Door 1 .True if Open S/B Cross Passage Door/Inter-bore Door 6 .True if Open S/B Cross Passage Door/Inter-bore Door 5 .Maintenance Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status Open/Closed Status In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True In maintenance True Identifier Digital Data Type Range Access Rights Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F Boolean T/F 13. These are listed below: PMCS Digital Input N/B Cross Passage Door/Inter-bore Door 1 .Maintenance S/B Cross Passage Door/Inter-bore Door 3 .Open S/B Cross Passage Door/Inter-bore Door 1 .Open S/B Cross Passage Door/Inter-bore Door 4 .Maintenance S/B Cross Passage Door/Inter-bore Door 2 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Description S/B Cross Passage Door/Inter-bore Door 3 .2 Cross Passage Doors/Inter-bore Door Open (per door) The PMCS will send 5 of these panel-specific status signals to the TMC/TSS.Maintenance S/B Cross Passage Door/Inter-bore Door 4 .Open N/B Cross Passage Door/Inter-bore Door 7 .Maintenance S/B Cross Passage Door/Inter-bore Door 8 .True if Open S/B Cross Passage Door/Inter-bore Door 7 . and is TRUE whilst the associated signal is active. No.Maintenance S/B Cross Passage Door/Inter-bore Door 7 .Open N/B Cross Passage Door/Inter-bore Door 3 .Open N/B Cross Passage Door/Inter-bore Door 2 .True if Open S/B Cross Passage Door/Inter-bore Door 8 .Open N/B Cross Passage Door/Inter-bore Door 5 .Open N/B Cross Passage Door/Inter-bore Door 6 . D02 Page 29 of 34 .Open N/B Cross Passage Door/Inter-bore Door 4 .Maintenance S/B Cross Passage Door/Inter-bore Door 5 .True if Open S/B Cross Passage Door/Inter-bore Door 4 . Each signal is fed from a single switch input per door.Open Doc.Open S/B Cross Passage Door/Inter-bore Door 3 .Open N/B Cross Passage Door/Inter-bore Door 8 .Maintenance S/B Cross Passage Door/Inter-bore Door 6 . PMCS Digital Input N/B Cross Passage Door/Inter-bore Door 1 .Open S/B Cross Passage Door/Inter-bore Door 7 .Maintenance N/B Cross Passage Door/Inter-bore Door 2 .Maintenance S/B Cross Passage Door/Inter-bore Door 7 . 14 Fire Alarm Group 14.Maintenance N/B Cross Passage Door/Inter-bore Door 3 . D02 Identifier Digital Data Type Page 30 of 34 Access Rights .Maintenance N/B Cross Passage Door/Inter-bore Door 7 .Maintenance This will also raise an alarm at the SCADA GUI.Maintenance S/B Cross Passage Door/Inter-bore Door 3 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification S/B Cross Passage Door/Inter-bore Door 5 .Maintenance S/B Cross Passage Door/Inter-bore Door 5 .Open S/B Cross Passage Door/Inter-bore Door 8 .Maintenance S/B Cross Passage Door/Inter-bore Door 1 .Maintenance N/B Cross Passage Door/Inter-bore Door 4 .1 Proposal Item Fire Alarm in TCB Fire Alarm in TCB in maintenance flag Fire Alarm Fault in TSB Fire Alarm in Mid-point sump Fire Alarm in Mid-point sump in Maintenance Flag Fire Alarm in Mid-point sump in Fault Description Range ON/Off Status True: Maintenance Boolean Boolean T/F T/F ON/Off Status On/Off Status Boolean Boolean T/F T/F True: Maintenance Boolean T/F ON/Off Status Boolean T/F Doc.Maintenance S/B Cross Passage Door/Inter-bore Door 4 . which will be displayed and recorded for auditing purposes.Open S/B Cross Passage Door/Inter-bore Door 6 .Maintenance S/B Cross Passage Door/Inter-bore Door 2 .Maintenance N/B Cross Passage Door/Inter-bore Door 8 .Maintenance S/B Cross Passage Door/Inter-bore Door 8 .Maintenance S/B Cross Passage Door/Inter-bore Door 6 .Open 13.3 Cross Passage Doors/Inter-bore Door in Maintenance Flag (per door) This flag will be set TRUE for by an operator at the SCADA GUI to inform the TSS that the door signals mentioned above are to be ignored.Maintenance N/B Cross Passage Door/Inter-bore Door 5 .Maintenance N/B Cross Passage Door/Inter-bore Door 6 . EXW-P007-0201-MC-KEO-RP-00210 Rev. No. These are listed below: PMCS Digital Input Fire Alarm Fault in TSB Fire Alarm Fault in Mid-point sump The fire alarm panels for the existing TCB and WSS buildings do not provide fault status. No. These are listed below: PMCS Digital Input Fire Alarm Triggered in TSB Fire Alarm Triggered In Mid-point sump 14. which will be displayed and recorded for auditing purposes.4 Fire Alarm in Maintenance Flag The PMCS will send 1 of these panel-specific status signals to the TMC/TSS. EXW-P007-0201-MC-KEO-RP-00210 Rev. and is TRUE whilst the associated source signal is active.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 14. D02 Identifier Digital Data Type Range Access Rights Boolean Boolean T/F T/F Boolean Boolean Boolean T/F T/F T/F Page 31 of 34 . This will also raise an alarm at the SCADA GUI. 14. PMCS Digital Input Fire Alarm Maintenance in TSB Fire Alarm Maintenance In Mid-point sump 15 Intruder Alarm Group 15. This flag will be set TRUE for a particular panel by an operator at the SCADA GUI to inform the TMC/TSS that the fire alarm signals mentioned above are to be ignored for that panel.3 Fire Alarm Fault The PMCS will send 1 of these panel-specific status signals to the TMC/TSS.2 Fire Alarm On The PMCS will send 2 of these panel-specific status signals to the TMC/TSS. and is TRUE whilst the associated source signal is active. Each signal is fed from a single source. Each signal is fed from a single source.1 Proposal Item Description Intruder alarm TSB Intruder Alarm TSB in maintenance Flag Intruder Alarm TSB in Fault Intruder Alarm Mid-point sump Intruder Alarm Mid-point sump in Maintenance flag ON/Off Status True: Maintenance ON/Off Status On/Off Status True: Maintenance Doc. Each signal is fed from a single source. No. which will be displayed and recorded for auditing purposes. and is TRUE whilst the associated source signal is active.TSB Intruder Alarm in Maintenance . Doc. which will be displayed and recorded for auditing purposes.Mid-point sump This will also raise an alarm at the SCADA GUI. D02 Page 32 of 34 .TSB Intruder Alarm Triggered . 15.Tunnel SCADA/PMCS – TMC/TSS Interface Specification Intruder Alarm Mid-point sump in Fault ON/Off Status Boolean T/F 15.4 Intruder Alarm in Maintenance Flag The PMCS will send 1 of these panel-specific status signals to the TMC/TSS. PMCS Digital Input Intruder Alarm in Maintenance . 15.2 Intruder Alarm On The PMCS will send 2 of these panel-specific status signals to the TMC/TSS. which will be displayed and recorded for auditing purposes. and is TRUE whilst the associated source signal is active.Mid-point sump This will also raise an alarm at the SCADA GUI. EXW-P007-0201-MC-KEO-RP-00210 Rev.TSB Intruder Alarm Fault .Mid-point sump This will also raise an alarm at the SCADA GUI.3 Intruder Alarm Fault The PMCS will send 1 of these panel-specific status signals to the TMC/TSS. These are listed below: PMCS Digital Input Intruder Alarm Triggered . Each signal is fed from a single source. This flag will be set TRUE for a particular panel by an operator at the SCADA GUI to inform the TMC/TSS that the fire alarm signals mentioned above are to be ignored for that panel. These are listed below: PMCS Digital Input Intruder Alarm Fault . 2 SCADA Server Health (per server) The PMCS will send 2 of these server-specific status signals to the TMC/TSS. No. This will also raise an alarm at the TOA/SCADA GUI. The PMCS will set the signal FALSE for a particular server whilst communication is lost between the PMCS and that server. 16.Tunnel SCADA/PMCS – TMC/TSS Interface Specification 16 SCADA Group 16.1 Proposal Item Description SCADA Server A Health SCADA Server A Master Slave SCADA Server A in Maintenance flag SCADA Server B Health SCADA Server B Master Slave SCADA Server B in Maintenance flag Health True if master True: Maintenance Health True if master True: Maintenance Identifier Digital Data Type Boolean Boolean Boolean Boolean Boolean Boolean Range Access Rights T/F T/F T/F T/F T/F T/F 16.3 SCADA Server Master/Slave (per server) The PMCS will send 2 of these server-specific status signals to the TMC/TSS.1 Proposal Item Description PMCS Master PLC 1A Health PMCS Master PLC 1A Master .Slave PMCS Master PLC 1A Heartbeat PMCS Master PLC 1B Health PMCS Master PLC 1B Master . The PMCS will set the signal TRUE for a particular server whilst that server is allocated master status.Slave PMCS Master PLC 1B Heartbeat PMCS Master PLC 1A In maintenance Flag PMCS Master PLC 1B In maintenance Flag PLC 1A Health True if Master Timer PLC 1B Health True if Master Timer In Maintenance True In Maintenance True Doc. 16. 17 SCADA PLC Group 17. D02 Identifier Digital Data Type Range Access Rights Boolean Boolean Integer Boolean Integer Boolean Boolean T/F T/F 0–4 T/F 0–4 T/F T/F Boolean T/F Page 33 of 34 . EXW-P007-0201-MC-KEO-RP-00210 Rev. This flag will be set TRUE for a particular server by an operator at the SCADA GUI to inform the TMC/TSS that the SCADA Server alarm signals mentioned above are to be ignored for that server. which will be displayed and recorded for auditing purposes.4 SCADA Server in Maintenance Flag (per server) The PMCS will send 2 of these server-specific status signals to the TMC/TSS. 17. this signal will be FALSE whilst that PLC has a fault with itself or remote I/O cards.2 SCADA PLC Health (per PLC) Each PLC will send its health status to the TMC/TSS. EXW-P007-0201-MC-KEO-RP-00210 Rev.5 SCADA PLC in Maintenance Flag (per server) Each PLC will send maintenance flag to the TMC/TSS so that the TMC/TSS can ignore PLC status signals from PLCs that have been allocated maintenance mode at the SCADA GUI.4 SCADA PLC Heartbeat (per PLC) Each PLC will continuously send a heartbeat counter to the TMC/TSS so that the TMC/TSS may ensure that the PLC application is running. Doc.Slave PMCS Master PLC 2A Heartbeat PMCS Master PLC 2B Health PMCS Master PLC 2B Master . 17.Slave PMCS Master PLC 2B Heartbeat PMCS Master PLC 2A In maintenance Flag PMCS Master PLC 2B In maintenance Flag PLC 1A Health True if Master Timer PLC 1B Health True if Master Timer In Maintenance True In Maintenance True Identifier Digital Data Type Range Access Rights Boolean Boolean Integer Boolean Integer Boolean Boolean T/F T/F 0–4 T/F 0–4 T/F T/F Boolean T/F 17. D02 Page 34 of 34 .Tunnel SCADA/PMCS – TMC/TSS Interface Specification Item Description PMCS Master PLC 2A Health PMCS Master PLC 2A Master .3 SCADA PLC Master/Slave (per PLC) Each PLC will send its master/slave status to the TMC/TSS so that the TMC/TSS may correctly acquire data from the master sources only. No. For a particular PLC. 17.
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