BS EN 60794-1-2:1999:2003 Edition
$198.66
Optical fibre cables. Generic specification – Generic specification. Basic optical cable test procedures
| Published By | Publication Date | Number of Pages |
| BSI | 2003 | 64 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | BRITISH STANDARD |
| 2 | National foreword |
| 4 | Foreword Foreword to amendment A1 Contents |
| 5 | 1 Scope and object 2 Normative references |
| 6 | 3 General and guidance 3.1 Introduction 3.2 Test procedure format 3.3 Definitions 3.4 Standard atmospheric conditions 3.5 Numerical value of quantity 3.6 Graphical symbols and terminology 3.7 Safety 3.8 Calibration guidance |
| 7 | 3.9 Launch conditions 4 Optical cable tests 5 Method E1: Tensile performance 5.1 Object 5.2 Sample 5.3 Apparatus |
| 8 | 5.4 Procedure |
| 9 | 5.5 Requirements |
| 10 | 5.6 Details to be specified Figure 3 Example of fibre and cable elongation as a function of load |
| 11 | 6 Method E2: Abrasion 6.1 Method E2A: Abrasion resistance of optical fibre cable sheaths 6.2 Method E2B: Abrasion resistance of optical fibre cable markings |
| 13 | Figure 4 Typical test set-up for tests E2A and E2B, method�1 Figure 5 Typical test set-up for test E2B, method 2 |
| 14 | 7 Method E3: Crush 7.1 Object 7.2 Sample 7.3 Apparatus 7.4 Procedure 7.5 Requirements 7.6 Details to be specified |
| 15 | Figure 6 Crush test 8 Method E4: Impact 8.1 Object 8.2 Sample 8.3 Apparatus |
| 16 | 8.4 Procedure 8.5 Requirements 8.6 Details to be specified |
| 17 | Figure 7a Apparatus for a few impacts Figure 7b Apparatus for multiple impacts Figure 7c Details of striking surface Figure 7 Impact test |
| 18 | 9 Method E5: Stripping force stability of cabled optical fibres 9.1 Object 9.2 Sample 9.3 Apparatus 9.4 Procedure 9.5 Requirements 9.6 Details to be specified 10 Method E6: Repeated bending 10.1 Object 10.2 Sample |
| 19 | 10.3 Apparatus 10.4 Procedure 10.5 Requirements 10.6 Details to be specified |
| 20 | Figure 8 Repeated bending test for cable |
| 21 | Figure 9 Repeated bending test for cable/connector assembly 11 Method E7: Torsion 11.1 Object 11.2 Sample 11.3 Apparatus |
| 22 | 11.4 Procedure Table 1 Tension to be applied |
| 23 | 11.5 Requirements 11.6 Details to be specified Figure 10 Cable torsion apparatus Figure 11 Cable torsion apparatus with tension applied |
| 24 | Figure 12 Alternative cable torsion apparatus with tension applied 12 Method E8: Flexing 12.1 Object 12.2 Sample 12.3 Apparatus 12.4 Procedure 12.5 Requirements |
| 25 | 12.6 Details to be specified Figure 13 Flexing apparatus 13 Method E10: Kink 13.1 Object 13.2 Sample 13.3 Apparatus 13.4 Procedure 13.5 Requirements |
| 26 | 13.6 Details to be specified Figure 14 Kink test 14 Method E11: Bend 14.1 Object 14.2 Sample 14.3 Apparatus 14.4 Procedure |
| 27 | 14.5 Requirements 14.6 Details to be specified 15 Method E12: Cut-through resistance 15.1 Object 15.2 Sample 15.3 Apparatus 15.4 Procedure 15.5 Requirements 15.6 Details to be specified |
| 28 | Figure 15 Example of cut-through apparatus 16 Method E13: Shotgun damage 16.1 Object 16.2 General 16.3 Method E13A |
| 29 | 16.4 Method E13B |
| 31 | Figure 16 Method E13B test set-up |
| 32 | Figure 17 Drop weight incorporating shot support pin |
| 33 | Figure 18 Alternative drop weight and shot support pin 17 Method E14: Compound flow (drip) 17.1 Object 17.2 Sample |
| 34 | 17.3 Apparatus 17.4 Procedure |
| 35 | 17.5 Requirements 17.6 Details to be specified 18 Method E15: Bleeding and evaporation 18.1 Object 18.2 Sample 18.3 Apparatus |
| 36 | 18.4 Procedure 18.5 Requirements 18.6 Details to be specified Figure 19 Bleeding and evaporation test set-up |
| 37 | 19 Method E17: Stiffness 19.1 Object 19.2 General 19.3 Method E17A |
| 38 | 19.4 Method E17B |
| 39 | 19.5 Method E17C Figure 20 Method E17A�— Test set-up |
| 40 | Figure 21 Example of results of applied force and displacement Figure 22 Method E17B�— Test set-up Figure 23 Method E17C�— Test set-up |
| 41 | 20 Method E18: Bending under tension�(dynamic test) 20.1 Object 20.2 Sample 20.3 Apparatus 20.4 Procedure 20.5 Requirements |
| 42 | 20.6 Details to be specified Figure 24 U-bend |
| 43 | Figure 25 S-bend 21 Method E19: Aeolian vibration 21.1 Object 21.2 Sample |
| 44 | 21.3 Apparatus 21.4 Procedure 21.5 Requirements |
| 45 | 21.6 Details to be specified Figure 26 Aeolian vibration test 22 Method E20: Cable coiling performance 22.1 Object 22.2 Sample |
| 46 | 22.3 Apparatus 22.4 Procedure 22.5 Requirements 22.6 Details to be specified 23 Method F1: Temperature cycling 23.1 Object 23.2 Sample |
| 47 | 23.3 Apparatus 23.4 Procedure |
| 48 | 23.5 Requirements 23.6 Details to be specified |
| 49 | Figure 27 One cycle procedure Figure 28 Combined test procedure |
| 50 | 24 Method F3: Sheath integrity 25 Method F5: Water penetration 25.1 Object 25.2 Sample 25.3 Apparatus 25.4 Procedure 25.5 Requirements |
| 51 | Figure 29a Method F-5A Figure 29b Method F-5B Figure 29 Water penetration test 25.6 Details to be specified |
| 52 | 26 Method F7: Nuclear radiation 26.1 Background 26.2 Measurement procedures 27 Method F8: Pneumatic resistance 27.1 Object 27.2 Sample 27.3 Apparatus 27.4 Procedure |
| 53 | 27.5 Requirement 27.6 Details to be specified 28 Method F9: Ageing 29 Method F10: Underwater cable resistance to hydrostatic pressure 29.1 Object 29.2 Sample 29.3 Apparatus 29.4 Procedure 29.5 Requirements |
| 54 | 29.6 Details to be specified 30 Method G1: Bend test for cable elements 30.1 Object 30.2 Sample 30.3 Apparatus 30.4 Procedure 30.5 Requirements 30.6 Details to be specified 31 Method G2: Ribbon dimensions and�geometry�— Visual method 31.1 Object 31.2 Sample 31.3 Apparatus |
| 55 | 31.4 Procedure 31.5 Requirements 31.6 Details to be specified 31.7 Definitions of ribbon dimensions and geometry |
| 56 | Figure 30 Cross-sectional drawing illustrating fibre ribbon geometry 32 Method G3: Ribbon dimensions�— Aperture gauge 32.1 Object 32.2 Sample 32.3 Apparatus 32.4 Procedure 32.5 Requirement |
| 57 | 32.6 Details to be specified Figure 31 Aperture gauge 33 Method G4: Ribbon dimensions�— Dial gauge 33.1 Object 33.2 Sample 33.3 Apparatus 33.4 Procedure 33.5 Requirements |
| 58 | 33.6 Details to be specified Figure 32 Dial gauge 34 Method G5: Ribbon tear (separability) 34.1 Object 34.2 Sample |
| 59 | 34.3 Apparatus 34.4 Procedure 34.5 Requirements 34.6 Details to be specified |
| 60 | Figure 33a Sample preparation Figure 33b Separability procedure Figure 33 Tear (separability) test 35 Method G6: Ribbon torsion 35.1 Object 35.2 Sample |
| 61 | 35.3 Apparatus 35.4 Procedure 35.5 Requirements 35.6 Details to be specified Figure 34 Torsion test 36 Method G7: Tube kinking 36.1 Object |
| 62 | 36.2 Sample 36.3 Apparatus 36.4 Procedure 36.5 Requirements 36.6 Details to be specified Figure 35 Tube kinking test |
| 63 | Annex ZA (normative) Normative references to international publications with their corresponding European … |
