BS IEC 60092-504:2016
$198.66
Electrical installations in ships – Automation, control and instrumentation
| Published By | Publication Date | Number of Pages |
| BSI | 2016 | 62 |
This part of IEC 60092 specifies electrical, electronic and programmable equipment intended for automation, control, monitoring, alert, and safety and protection systems for use in ships.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | English CONTENTS |
| 9 | FOREWORD |
| 11 | INTRODUCTION |
| 12 | 1 Scope 2 Normative references |
| 14 | 3 Terms and definitions |
| 17 | 4 General requirements 4.1 Dependability 4.2 Safety 4.3 Segregation 4.4 Performance 4.5 Usability 4.6 Integration 4.7 Development activities |
| 18 | 5 Environmental type testing parameters 5.1 General 5.2 Performance Tables Table 1 – Type tests, test procedures and severities |
| 24 | 6 Design 6.1 Environmental and supply conditions |
| 25 | 6.2 Circuit design 6.3 Mutual effects 6.4 Electrical subdivision 6.5 Signal level 6.6 Power supply 6.6.1 Independent supplies 6.6.2 Capacity 6.6.3 Protection |
| 26 | 7 Construction and materials 7.1 Adjustments 7.2 Accessibility 7.3 Replacement 7.4 Non-interchangeability 7.5 Cooling 7.6 Mechanical load on connectors 7.7 Mechanical features of cabinets |
| 27 | 7.8 Shock and vibration absorbers 7.9 Internal wiring 7.10 Cable connections 8 Installation and ergonomics 8.1 General 8.1.1 Layout 8.1.2 Compatibility 8.1.3 Labelling 8.1.4 Labels |
| 28 | 8.1.5 Display colours 8.1.6 Illumination 8.1.7 Protection against fluid leakage 8.1.8 Protection from condensation 8.1.9 External cables and wiring 8.2 Sensors 8.2.1 Location of sensors 8.2.2 Temperature sensors 8.2.3 Pressure sensors 8.2.4 Water level detectors on bulk carriers |
| 29 | 8.2.5 Enclosure 8.2.6 Testing and calibration 8.2.7 Presentation of information 8.3 Controls 8.3.1 Remote controls |
| 30 | 8.3.2 Man-machine interface 8.4 Alert systems 9 Specific installations 9.1 Fire safety systems 9.2 Bilge systems 9.3 Machinery alert installations 9.3.1 General |
| 31 | 9.3.2 Alert requirements 9.3.3 Display of information |
| 32 | 9.3.4 Supply arrangements 9.3.5 Design |
| 33 | 9.4 Power management systems 9.4.1 General Figure 1 – Typical designs of power management systems |
| 34 | 9.4.2 Automatic starting and stopping of main power supply equipment |
| 35 | 9.4.3 Heavy load request and power reserve calculation 9.4.4 Black-out recovery 9.4.5 Load sharing and frequency control |
| 36 | 9.4.6 Shut-down of diesel engine 9.4.7 Automatic disconnection of non-essential consumers 9.4.8 Design requirements of power management systems (PMSs) |
| 37 | 9.5 Automatic starting installations for electrical motor-driven auxiliaries 9.5.1 General 9.5.2 Automatic sequence starting 9.5.3 Starting installations for stand-by auxiliaries |
| 38 | 9.5.4 Control voltages 9.5.5 Manual control 9.5.6 Mechanically driven auxilaries in low speed range 9.5.7 Mechanically driven auxilaries 9.5.8 Sensors 9.6 Machinery control installations 9.6.1 General |
| 39 | 9.6.2 General requirements 9.6.3 Transfer of control 9.6.4 Remote control of propulsion machinery from the bridge |
| 40 | 9.6.5 Indicators for remote control of machinery 9.6.6 Manual override |
| 41 | 9.7 Machinery protection and safety systems 9.7.1 General 9.7.2 General requirements 9.8 Bow, inner, side shell and stern doors 9.8.1 Application |
| 42 | 9.8.2 Remote control 9.8.3 Indicator system 9.8.4 Mode selection 9.8.5 Failsafe 9.8.6 Testing 9.8.7 Independence 9.8.8 Display 9.8.9 Sensors |
| 43 | 9.8.10 Television surveillance 9.8.11 Water leakage detection 9.8.12 Drainage alarm 9.8.13 Control location 9.9 Power-operated watertight doors 9.9.1 General 9.9.2 Indications 9.9.3 Alarm |
| 44 | 9.9.4 Closure rate 9.9.5 Power supply 9.9.6 Dedicated circuits 9.9.7 Location of equipment 9.9.8 Enclosures |
| 45 | 9.9.9 Leakage 9.9.10 Independent circuits 9.9.11 Failure of alarm circuits 9.9.12 Failure of control circuits 9.9.13 Power supply monitoring 9.9.14 Mode selection 9.9.15 Indication on navigation bridge 9.9.16 Remote opening |
| 46 | 9.10 Public address systems on passenger ships 9.10.1 General 9.10.2 Override 9.10.3 Operation 9.10.4 Emergency broadcast 9.10.5 Level adjustment 9.10.6 Minimum sound level 9.10.7 Interference 9.10.8 Fault tolerance 9.10.9 Protection 9.10.10 Fire zones |
| 47 | 9.10.11 Segregation 9.10.12 Power supplies 9.10.13 Cabling 10 Computer based systems 10.1 General 10.2 General requirements 10.3 System categories |
| 48 | Table 2 – System categories |
| 49 | 10.4 System configuration 10.4.1 General 10.4.2 Power supply Table 3 – Examples of assignment to system categories |
| 50 | 10.4.3 Hardware 10.4.4 Software 10.4.5 Data communication links 10.4.6 Wireless data communication |
| 51 | 10.4.7 Network/integration of systems 10.4.8 User interface 10.4.9 Input devices |
| 52 | 10.4.10 Output devices 10.4.11 Graphical user interface 10.5 Protection against modification and loss of data 10.6 Software maintenance |
| 53 | 10.7 Remote access 10.7.1 General 10.7.2 Remote software maintenance 10.8 Documentation 10.8.1 General 10.8.2 Hardware |
| 54 | 10.8.3 System functional description 10.8.4 Software |
| 55 | 10.8.5 User interface 10.8.6 Test and evidence |
| 56 | Table 4 – Tests and evidence according to the system category |
| 57 | 11 Additional requirements for periodically unattended machinery spaces orfor reduced attendance 11.1 General 11.2 Fire precautions 11.3 Protection against flooding 11.4 Control of propulsion machinery 11.5 Alarm system and engineers’ alarm 11.6 Protection (safety) systems 11.7 Machinery, boiler and electrical installations 12 Commissioning and testing 12.1 Tests of completed installation |
| 58 | 12.2 Operational tests 13 Documentation |
| 59 | Bibliography |
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BS IEC 60092-504:2016 – TC:2020 Edition
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