IEEE 61886-1-2021

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IEEE/IEC International Standard for Subsea equipment–Part 1: Power connectors, penetrators and jumper assemblies with rated voltage from 3 kV (Umax = 3,6 kV) to 30 kV (Umax = 36 kV)

Published By	Publication Date	Number of Pages
IEEE	2021

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PDF Pages	PDF Title
1	IEC/IEEE 61886-1 Front Cover
3	Title page
4	CONTENTS
12	FOREWORD
14	INTRODUCTION
15	1 Scope 2 Normative references
16	3 Terms, definitions and abbreviated terms
17	3.1 Terms and definitions
21	3.2 Abbreviated terms
22	4 Documentation and marking 4.1 Design documentation 4.2 Type test documentation 4.3 Routine test documentation Tables Table 1 – Design documentation Table 2 – Routine test documentation
23	4.4 As built documentation 4.5 Design analysis 4.6 Data sheet Table 3 – As built documentation
24	4.7 Equipment marking 4.7.1 Connectors and penetrators 4.7.2 Jumper assemblies 5 Design 5.1 General design requirements
25	5.2 Temperature class 5.3 Electrical design requirements 5.3.1 Ratings Table 4 – Temperature classes Table 5 – Voltage ratings
26	5.3.2 Earthing 5.3.3 Dummy connectors Table 6 – Current ratings
27	5.4 Mechanical design requirements 5.4.1 Pressure classes 5.4.2 Rapid gas decompression 5.4.3 External forces 5.5 Material requirements 5.5.1 General material requirements Table 7 – Pressure classes
28	5.5.2 Material certification requirements 5.6 Connector specific requirements 5.6.1 General requirements 5.6.2 Wet mateable connectors
29	5.6.3 Dry mateable connectors 5.7 Penetrator specific requirements 5.7.1 Penetrators for pressure compensated equipment 5.7.2 Penetrators for pressure retaining equipment
30	5.8 Seals 5.8.1 General seal requirements 5.8.2 Water seals 5.8.3 Additional requirements for pressure integrity seals 5.9 Electric field control
31	5.10 Jumper assemblies 5.11 Storage and transportation 6 Tests 6.1 Structure of test clauses 6.2 General test requirements
32	6.3 Artificial sea water 6.4 Test media
33	Table 8 – Test media
35	7 Routine tests – Connectors and penetrators Table 9 – Electrical routine tests Table 10 – Routine test sequence – Connectors and penetrators
36	8 Routine tests – Dummy and test connectors 9 Routine tests – Jumper assemblies Table 11 – Routine test sequence – Complete jumper assemblies
37	10 Sample tests – Hoses 11 Type and special tests – Connectors and penetrators 11.1 Order of tests and type test requirements
38	Table 12 – Type test sequence
39	Table 13 – Intermediate electrical tests
40	11.2 Type tests – Dummy and test connectors 11.3 Type tests – New interface cable Table 14 – Type test sequence – New interface cable
41	11.4 Prototype manufacturing acceptance test 11.4.1 Objective 11.4.2 Sequence 11.4.3 Acceptance criteria Table 15 – Prototype manufacturing acceptance test sequence
42	11.5 Electrical and thermal tests 11.5.1 Objective 11.5.2 Sequence Table 16 – Electrical and thermal test sequence – Connectors Table 17 – Electrical and thermal test sequence – Pressure retaining penetrators
43	11.5.3 Acceptance criteria Table 18 – Electrical and thermal test sequence –Penetrators for pressure balanced equipment
44	11.6 Electrical short circuit test 11.6.1 Objective 11.6.2 Sequence 11.6.3 Acceptance criteria 11.7 Hyperbaric test 11.7.1 Objective 11.7.2 Sequence Table 19 – Electrical short circuit test sequence
45	Table 20 – Hyperbaric test sequence – Wet mateable connectors Table 21 – Hyperbaric test sequence – Dry mateable connectors
46	11.7.3 Acceptance criteria 11.8 Pressure cycling test – Penetrators 11.8.1 Objective 11.8.2 Sequence Table 22 – Pressure cycling test – Penetrators for pressure compensated equipment
47	11.8.3 Acceptance criteria 11.9 Combined pressure and temperature cycling test – Penetrators 11.9.1 Objective 11.9.2 Sequence Table 23 – Pressure cycling test – Pressure retaining penetrators
48	11.9.3 Acceptance criteria 11.10 Rapid gas decompression test 11.10.1 Objective 11.10.2 Sequence Table 24 – Combined pressure and temperature cycling test – Penetrators Table 25 – RGD test sequence
49	11.10.3 Acceptance criteria 11.11 Mechanical and environmental stress test 11.11.1 Objective 11.11.2 Sequence Table 26 – Mechanical and environmental stress test sequence
50	11.11.3 Acceptance criteria 11.12 Endurance test – Connectors 11.12.1 Objective 11.12.2 Sequence Table 27 – Endurance test – Connectors
51	11.12.3 Acceptance criteria 11.13 Endurance test – Penetrators 11.13.1 Objective 11.13.2 Sequence Table 28 – Endurance test – Pressure retaining penetrators
52	11.13.3 Acceptance criteria Table 29 – Endurance test – Penetrators for pressure compensated equipment
53	11.14 Inner water seal hyperbaric test – Connectors 11.14.1 Objective 11.14.2 Sequence 11.14.3 Acceptance criteria 11.15 Inner water seal pressure cycling test – Penetrators 11.15.1 Objective 11.15.2 Sequence 11.15.3 Acceptance criteria 11.16 Outer water seal hyperbaric test – Connectors 11.16.1 Objective 11.16.2 Sequence 11.16.3 Acceptance criteria
54	11.17 Outer water seal pressure cycling test – Penetrators 11.17.1 Objective 11.17.2 Sequence 11.17.3 Acceptance criteria 11.18 Secondary pressure integrity seal test – Penetrators 11.18.1 Objective 11.18.2 Sequence 11.18.3 Acceptance criteria 11.19 Primary pressure integrity seal test – Penetrators 11.19.1 Objective 11.19.2 Sequence 11.19.3 Acceptance criteria
55	11.20 Secondary pressure integrity seal combined pressure and temperature cycling test – Penetrators 11.20.1 Objective 11.20.2 Sequence 11.20.3 Acceptance criteria 11.21 Primary pressure integrity seal combined pressure and temperature cycling test – Penetrators 11.21.1 Objective 11.21.2 Sequence 11.21.3 Acceptance criteria 11.22 Extended hyperbaric wet mate test 11.22.1 Objective 11.22.2 Sequence
56	Table 30 – Extended hyperbaric wet mate test sequence
57	11.22.3 Acceptance criteria 12 Type tests – Hose and hose terminations 12.1 General Table 31 – Hose type test sequence
58	12.2 Absorption/compensation test 12.2.1 Objective 12.2.2 Method 12.2.3 Acceptance criteria
59	12.3 Ozone resistance 12.3.1 Objective 12.3.2 Method 12.3.3 Acceptance criteria 12.4 Ultraviolet resistance 12.4.1 Objective 12.4.2 Method 12.4.3 Acceptance criteria
60	12.5 Thermal shock test 12.5.1 Objective 12.5.2 Method 12.5.3 Acceptance criteria 12.6 Destructive testing 12.6.1 Tensile failure
61	12.6.2 Burst pressure 12.6.3 Crush resistance
62	12.6.4 Outer sheath abrasion resistance 12.6.5 Hose kink test
63	13 Type tests – Jumper assemblies 13.1 General 13.2 Electrical and thermal type test – Jumper assemblies 13.2.1 Objective 13.2.2 Sequence Table 32 – Jumper assembly type test sequence
64	13.2.3 Acceptance criteria 13.3 Oscillating jumper test 13.3.1 Objective 13.3.2 Sequence Table 33 – Electrical and thermal type test – Jumper assemblies Table 34 – Oscillating jumper test
65	13.3.3 Acceptance criteria 13.4 Jumper pull test 13.4.1 Objective 13.4.2 Sequence Table 35 – Jumper pull test
66	13.4.3 Acceptance criteria 13.5 Drop test 13.5.1 Objective 13.5.2 Sequence 13.5.3 Acceptance criteria 13.6 Jumper handling simulation test 13.6.1 Objective 13.6.2 Sequence Table 36 – Drop test
67	Table 37 – Jumper handling simulation test
68	13.6.3 Acceptance criteria 13.7 Jumper simulated deployment test 13.7.1 Objective 13.7.2 Sequence Figures Figure 1 – Jumper handling simulation test
69	13.7.3 Acceptance criteria 14 Test procedures 14.1 Helium leak test 14.1.1 Objective Table 38 – Jumper simulated deployment testing
70	14.1.2 Method 14.1.3 Acceptance criteria 14.2 Contact resistance test 14.2.1 Objective 14.2.2 Method 14.2.3 Acceptance criteria
71	14.3 Shell continuity test 14.3.1 Objective 14.3.2 Method 14.3.3 Acceptance criteria 14.4 Screen continuity test 14.4.1 Objective 14.4.2 Method 14.4.3 Acceptance criteria 14.5 Partial discharge test 14.5.1 Objective 14.5.2 Method
72	14.5.3 Acceptance criteria 14.6 High voltage AC test 14.6.1 Objective 14.6.2 Method 14.6.3 Acceptance criteria 14.7 Impulse withstand voltage test 14.7.1 Objective 14.7.2 Method 14.7.3 Acceptance criteria Table 39 – Impulse withstand voltage test levels
73	14.8 Insulation resistance test 14.8.1 Objective 14.8.2 Method 14.8.3 Acceptance criteria 14.9 Thermal shock test 14.9.1 Objective 14.9.2 Method Table 40 – Insulation resistance test – Voltage test levels
74	14.9.3 Acceptance criteria 14.10 Thermal short circuit test 14.10.1 Objective 14.10.2 Method 14.10.3 Acceptance criteria 14.11 Dynamic short circuit test 14.11.1 Objective 14.11.2 Method 14.11.3 Acceptance criteria
75	14.12 Temperature rise test 14.12.1 Objective 14.12.2 Method 14.12.3 Acceptance criteria
76	14.13 Extended temperature rise test 14.13.1 Objective 14.13.2 Method Figure 2 – Typical extended temperature test results, method 1
77	14.13.3 Acceptance criteria 14.14 Thermal cycling 14.14.1 Objective 14.14.2 Method Figure 3 – Typical extended temperature test results, method 2
78	14.14.3 Acceptance criteria 14.15 Bending moment and free fall tests 14.15.1 Objective 14.15.2 Method 14.15.3 Acceptance criteria Figure 4 – Bending moment test
79	14.16 Static pressure test – Penetrators 14.16.1 Objective 14.16.2 Method 14.16.3 Acceptance criteria Table 41 – Static pressure test – Penetrators
80	14.17 Extended static pressure test – Penetrators 14.17.1 Objective 14.17.2 Method 14.17.3 Acceptance criteria 14.18 Combined pressure and temperature cycling test – Pressure retaining penetrators 14.18.1 Objective 14.18.2 Method 14.18.3 Acceptance criteria 14.19 Shock and vibration test 14.19.1 Objective 14.19.2 Method
81	14.19.3 Acceptance criteria 14.20 Cleaning and spillage test 14.20.1 Objective 14.20.2 Method 14.20.3 Acceptance criteria 14.21 Conductor pull test 14.21.1 Objective
82	14.21.2 Method 14.21.3 Acceptance criteria 14.22 Cable pull test 14.22.1 Objective 14.22.2 Method 14.22.3 Acceptance criteria 14.23 Cable termination bending test 14.23.1 Objective 14.23.2 Method 14.23.3 Acceptance criteria
83	14.24 Mate/de-mate operation test 14.24.1 Objective 14.24.2 Method 14.24.3 Acceptance criteria 14.25 Dismantling and examination 14.25.1 Objective 14.25.2 Method 14.25.3 Acceptance criteria
84	14.26 High voltage breakdown test 14.26.1 Objective 14.26.2 Method 14.26.3 Acceptance criteria 14.27 Rapid gas decompression (RGD) test – General 14.27.1 Objective 14.27.2 Method 14.27.3 Acceptance criteria
85	14.28 Material testing 14.28.1 Objective 14.28.2 General test requirements 14.28.3 Polymeric materials test requirements
86	14.28.4 Acceptance criteria
87	Annex A (informative)Connector assembly data sheet Table A.1 – Typical product data sheet
90	Annex B (informative)Penetrator figures Figure B.1 – Penetrator flange view
91	Figure B.2 – Pressure retaining penetrator – Definitions
92	Figure B.3 – Test set-up, pressure retaining penetrator – Direction 1
93	Figure B.4 – Test set-up, pressure retaining penetrator – Direction 2
94	Figure B.5 – Penetrator for pressure balanced conditions – Definitions
95	Figure B.6 – Test set-up, penetrator for pressure balanced conditions –Test of absolute pressure
96	Figure B.7 – Test set-up, penetrator for pressure balanced conditions – Direction 1
97	Figure B.8 – Test set-up, penetrator for pressure balanced conditions – Direction 2
98	Bibliography

Additional information

Standard Title	IEEE/IEC International Standard for Subsea equipment–Part 1: Power connectors, penetrators and jumper assemblies with rated voltage from 3 kV (Umax = 3,6 kV) to 30 kV (Umax = 36 kV)
Published Code	IEEE
Publication Date	2021

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IEEE 61886-1-2021

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