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Kravspesifikasjon VTK Nett Generelle krav i nettet Generell krav til skjøtedemping: Generell krav til Refleksjoner i sveiseskjøter: IL < 0,2 db RL > 60 db Det tillates ikke mekaniske skjøter i stamnettet. Alle rør som ender på vegg eller innendørs, tettes med forsegling mellom kabel og rør med minimum 3 bar trykk mot vann og gass. Alle skjøtebokser i aksessnett må kunne organisere og ivareta bøyekontroll på hver enkelt fiber, ref. minimum krav gitt i 1.2 Functional optical requirements. I skjøtebokser mot kundetilkopling tillates maks 4 fiber pr kassett (Single Sircut). Gjennom skjøting av andre fiber i samme boks maks 12 fiber pr kassett (Single Element). I transportnett uten kundeaksess tillates kassetter med masse organisering (inntil 72 fiber pr kassett). Det kreves installasjonsbeskrivelse, kravspesifikasjon og datablad for alle optiske komponenter. For komponenter som i sin ytelse, form og kapasitet er variable kreves ordreguide. DEFINISJONER Masseorganisering Single Element Single Sircut Alle fibrer kan forlegges i en kassett inntil maks kapasitet, ingen bøyekontroll eller tiltak mot transienttap ved driftsendring (ny skjøt eller kundetilkopling). Alle fibrer i et fiberrør forlegges i en kassett, bøyekontroll og tiltak mot transienttap er ivaretatt ved driftsendring (ny skjøt eller kundetilkopling) Inntil 4 fiber forlegges i en kassett, bøyekontroll og tiltak mot transienttap er ivaretatt ved driftsendring (ny skjøt eller kundetilkopling) IL Innskuddsdemping db. RL Refleksjonsdemping db. Issued by Knut Ove Fidje 2012 Side 1

Kravspesifikasjon VTK Nett Målekriterier innskuddsdemping: IL Når det gjelder krav til parametre og målenøyaktighet, må det være et visst forhold. Normalt tar man høyde for en viss usikkerhet i kravet ved at man for eksempel adderer to ganger måleusikkerhetens standardavvik til det man mener er et fornuftig krav. Dersom fabrikanten skal følge dette kreves at de tilsvarende beregner samme forskjell i måleverdi ved sluttkontrollmålinger. Eksempel. Usikkerheten til IL måling er ca. 0,1 db. 2 ganger usikkerheten er 0,2 db. Med andre ord vil vi være mer enn 95 % sikre på at målingen er bedre enn 0,4 db dersom målingen viser 0,2 db. Ut fra denne tankegangen vil man typisk få produkter som har 0,2 db innskuddsdempning ved å kreve at den skal være 0,4 db. Målekriterier innskuddsdemping: RL Tilvarende gjelder for RL målinger. Det er vanskelig å måle med bedre enn 2 db usikkerhet slik at man ikke bør sette kravet høyere enn 50 db. Når det gjelder krav til parametre og målenøyaktighet, må det være et visst forhold. Normalt tar man høyde for en viss usikkerhet i kravet ved at man for eksempel adderer to ganger måleusikkerhetens standardavvik til det man mener er et fornuftig krav. Dersom fabrikanten skal følge dette kreves at de tilsvarende beregner samme forskjell i måleverdi ved sluttkontrollmålinger. Tilsvarende gjelder for RL målinger. Det er vanskelig å måle med bedre enn 2 db usikkerhet slik at man ikke bør sette kravet høyere enn 50 db. Issued by Knut Ove Fidje 2012 Side 2

Kravspesifikasjon VTK Nett PATCHESNORER / KONTAKTER Kontakttype: Poleringsgrad: Innskuddsdemping: Refleksjonsdemping: GENERELLE KRAV SC og LC min Ultra Polish IL < 0,2 db RL > 50 db Temperaturområde: -30 - +70 C Krav til ferrum: Minste tillatte snorlengde: Ikke metallisk materiale 1 m Det kreves sporbarhet og id logg på hver batch, samt tilfeldig måling med interferometer på minimum hver 100 stk. Produkter i denne kategori må tifredstille følgende IEC normer: IEC 61300-3-4 (2001-01) procedures - Part 3-4: Examinations and measurements - Attenuation. IEC 61300-3-6 (2005-01) procedures - Part 3-6: Examinations and measurements - Return loss. IEC 61300-1 (2004-07). General and guidance. procedures - Part 1. IEC 61300-2-1 (2004-01). Tests - Vibration (sinusoidal). procedures - Part 2-1. IEC 61300-2-2 (2004-11). Tests - Mating durability. procedures - Part 2-2. IEC 61300-2-4 (1995-06). Tests - Fiber/cable retention. procedures - Part 2-4. IEC 61300-2-5 (2004-08). Tests - Torsion/Twist. procedures - Part 2-5. Issued by Knut Ove Fidje 2012 Side 3

Kravspesifikasjon VTK Nett IEC 61300-2-6 (1995-07). Tests - Tensile strength of coupling mechanism. procedures - Part 2-6. IEC 61300-2-17 (2003-02). Tests Cold. procedures - Part 2-17. IEC 61300-2-21 (1995-06). Tests - Composite temperature-humidity cyclic test. procedures - Part 2-21. IEC 61300-2-22 (2007-02). Tests - Change of temperature. procedures - Part 2-22. IEC 61300-2-50 (2007-06). Tests - Fiber optic connector proof test with static load - Single mode and multimode. procedures - Part 2-50. IEC 61300-3-15 (2006-10) procedures - Part 3-15: Examinations and measurements - Dome eccentricity of a convex polished ferrule end face. IEC 61300-3-34 (2001-12) IEC 61300-3-34, Ed. 2: Fiber optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-34: Examinations and asurements - Attenuation of random mated connectors. Issued by Knut Ove Fidje 2012 Side 4

Kravspesifikasjon VTK Nett Figure 1 Insertion Loss Measurement Method Patch cords Figure 2 Return Loss Measurement Method Patch cords Issued by Knut Ove Fidje 2012 Side 5

Table 1-2 Mechanical Performance Test Items Conditions Vibration Shock Drop Repetitive operation Straight pull Straight pull (strength ) 10 to 55 Hz, 1.5 mmp-p, 2 hr (120cyc.) x 3 axis 100 G (=980 m/s 2 ), 6 ms, half sine wave-form 1 m 1000 times Pulling speed 2 mm/min, 7 kgf (68.6 N), for 1 min Pulling speed 2 mm/min. Performance: 7 kgf (68.6 N) or more Table 1-3 Environmental Performance Test Items Temperature change Temperature humidity change High temperature Low temperature Humidity Thermal shock Conditions -40 to 85 C 6hr/cycle, 100 cycle -10 to 65 C, 93 %RH, 24 hr/cycle, 20 cycle 85 C, 1000 hr -40 C, 1000 hr 40 C, 95 %RH, 1000 hr -40 85 C, 1 hr/cycle, 50 cycle Issued by Knut Ove Fidje 2012 Side 6

ADAPTERE GENERELLE KRAV Kontakttype: SC og LC Poleringsgrad: min Ultra Polish Innskuddsdemping: IL > 0,2 db Refleksjonsdemping: RL > 50 db Temperaturområde: -30 - +70 C Krav til hylse i adapter: Keramisk Produkter i denne kategori må tifredstille følgende IEC normer: IEC 61300-3-4 (2001-01) procedures - Part 3-4: Examinations and measurements - Attenuation. IEC 61300-3-6 (2005-01) procedures - Part 3-6: Examinations and measurements - Return loss. IEC 61300-1 (2004-07). General and guidance. procedures - Part 1. IEC 61300-2-1 (2004-01). Tests - Vibration (sinusoidal). procedures - Part 2-1. IEC 61300-2-2 (2004-11). Tests - Mating durability. procedures - Part 2-2. IEC 61300-2-4 (1995-06). Tests - Fiber/cable retention. procedures - Part 2-4. IEC 61300-2-5 (2004-08). Tests - Torsion/Twist. procedures - Part 2-5. IEC 61300-2-6 (1995-07). Tests - Tensile strength of coupling mechanism. procedures - Part 2-6. Issued by Knut Ove Fidje 2012 Side 7

IEC 61300-2-17 (2003-02). Tests Cold. procedures - Part 2-17. IEC 61300-2-21 (1995-06). Tests - Composite temperature-humidity cyclic test. procedures - Part 2-21. IEC 61300-2-22 (2007-02). Tests - Change of temperature. procedures - Part 2-22. IEC 61300-2-50 (2007-06). Tests - Fiber optic connector proof test with static load - Single mode and multimode. procedures - Part 2-50. IEC 61300-3-34 (2001-12) IEC 61300-3-34, Ed. 2: Fiber optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-34: Examinations and measurements - Attenuation of random mated connectors. Issued by Knut Ove Fidje 2012 Side 8

Figure 3 Insertion Loss Measurement Method Adapters Figure 4 Return Loss Measurement Method Adapters Return Loss = -10 log RR(POUT-PT) PR-PT (db) Issued by Knut Ove Fidje 2012 Side 9

Table 1-2 Mechanical Performance TEST ITEMS Repetitive operation Drop Vibration Shock Straight pull (Tensile strength of coupling mechanism) CONDITIONS 1000 times 1.0m, 3drops 10 to 55 Hz, 1.5 mmp-p, 2 hr (120cyc.) x 3 axis 100 G (=980 m/s), 6 ms, half sine wave-form 10kgf (10.2N) or more Table 1-3 Environmental Performance TEST ITEMS Temperature change Temperature humidity change Dry Heat Cold CONDITIONS -40 85 C, 6 hr/cycle, 10 cycle -10 65 C, 93% RH, 24 hr/cycle, 20 cycle + 85 C, 240 hr - 40 C, 240 hr Issued by Knut Ove Fidje 2012 Side 10

SKJØTEBOKSER Alle skjøtebokser med kapasitet over 12 fiber må oppfylle følgende standarder og tester 1.1 Functional tightness requirements PERFORMANCE CRITERIA Performance criteria references Pressure loss during test Visual appearance METHOD AND CONDITIONS Internal pressure: Temperature: Elapsed time: Internal pressure: Test temperature: Test time: Depth: Examination of product with the naked eye (40 ± 2) kpa at test temperature <12 hrs (40 ± 2) kpa (23 ± 3) C 15 minutes Just below water surface INTERN. NORM/REF IEC 61300-2-38 Method B IEC 61300-2-38 Method A IEC 60068-2-17 Test Qc IEC 61300-3-1 REQUIREMENTS Difference in pressure before and after the test 2 kpa at the same atmospheric conditions No continuous emission of bubbles No defects which should adversely affect product performance Mechanical tests (tightness evaluation) Axial tension Flexure Impact Re-entries Shock Static load Load/cable: Test pressure: Test time: Test pressure: Test temperatures: Force: Force application: No. of cycles: Test temperatures: Test pressure: Impact tool: Weight: Drop height: Location: N of impacts: Number: Aging between each reentry: Temperature range: - Dwell time: - Transition: Test pressure: Severity: Duration: Wave form: Number of shocks: Axes: Test pressure: Test temperature: Load: Surface: Time: Test pressure: Position: D*/45 x 1000 N (1000 N max.) (40 ± 2) kpa 1 hr each cable (40 ± 2) kpa (-15 ± 2) C and (+45 ± 2) C 30 bending or max. 500 N force 250 mm from end of cable seal sleeve 5 per cable (-15 ± 2) C and (+45 ± 2) C (40 ± 2) kpa Steel ball 1 kg 2 m 0, 90, 180, 270 1 per location 10 Minimum 1 cycle -30 C/+60 C 4 hrs 2 hrs (40 ± 2) kpa 15 g (150 m/s 2 ) 11 milliseconds Half sine 3 up & 3 down 3 mutually perpendicular (40 ± 2) kpa (-15 ± 2) C and (+45 ± 2) C 1000 N 25 cm 2 10 min (40 ± 2) kpa 0 and 90 IEC 61300-2-4 IEC 61300-2-37 IEC 61300-2-12 Method B IEC 61300-2-9 IEC 60068-2-27 Test Ea IEC 61300-2-10 Pressure loss during test Displacement 3mm Pressure loss during test Appearance Pressure loss during test Appearance Appearance Pressure loss during test Pressure loss during test Appearance * D is the cable outer diameter in mm. All testing is at room temperature unless otherwise stated Issued by Knut Ove Fidje 2012 Side 11

1.1 Functional tightness requirements (continued) PERFORMANCE CRITERIA METHOD AND CONDITIONS INTERN. NORM/REF REQUIREMENTS Mechanical tests (tightness evaluation) Torsion Vibration Test pressure: Test temperature: Torque: Torque application: Tensile load No. of cycles Test pressure: Frequency: Cycle: Amplitude: Cable clamping: Duration: (40 ± 2) kpa (-15 ± 2) C and (+45 ± 2) C Max. 50 Nm or max. 90 rotation 250 mm from end of cable seal sleeve None 5 per cable (40 ± 2) kpa regulated (10 ± 1) Hz Sinusoidal 3 mm 500 mm from end of cable seal sleeve 10 days IEC 61300-2-5 IEC 61300-2-1 IEC 60068-2-6 Test Fc Pressure loss during test Appearance Appearance Environmental tests (tightness evaluation) Resistance to aggressive media Resistance to stress cracking Salt fog Temperature cycling Water head Test pressure: Media: Test time: Drying time at 70 C: Test temperature: Test pressure: Medium: Test time: Drying time at 70 C: Test temperature: Test pressure: Medium: Test time: Lowest temperature: Highest temperature: Dwell time: Transition time: Internal pressure: Number of cycles: Column height: Test pressure: Duration: Wetting agent: (40 ± 2) kpa ph 2, ph 12 Kerosene (lamp oil) Petroleum jelly Diesel fuel for cars 5 days None (+50 ± 2) C (40 ± 2) kpa 10% Igepal 5 days None (+35 ± 2) C (40 ± 2) kpa 5% NaCl in water 5 days (-30 ± 2) C* (+60 ± 2) C* 4 hrs 2 hrs (40 ± 2) kpa regulated 20 5 m water 0 kpa 7 days None IEC 61300-2-34 ISO1998/l 1.005 EN 590 IEC 61300-2-34 IEC 61300-2-26 IEC 60068-2-11 Test Ka IEC 61300-2-22 IEC 60068-2-14 Test Nb IEC 61300-2-23 Method 2 Appearance No visible cracking Appearance Appearance No water ingress * If this temperature falls outside the range specified for any of the cables being the test temperature must be modified accordingly. used, Issued by Knut Ove Fidje 2012 Side 12

1.2 Functional optical requirements PERFORMANCE CRITERIA METHOD AND CONDITIONS Performance criteria references (optical evaluation) Change in attenuation Transient loss Visual appearance INTERN. NORM/REF REQUIREMENTS Source wavelength: 1310, 1550 and 1625 nm IEC 61300-3-3 IL 0,5 db per incoming fiber during the test at 1625 nm Source wavelength: Detector bandwidth: Examination of products with the unaided naked eye NOTES: 1550 nm, Unpolarized (0-1500) Hz IEC 61300-3-28 IEC 61300-3-1 - Quoted indicated loss values refer to the initial optical signal at the start of the test. IL 0,2 db per incoming fiber during the test at 1310 and 1550 nm IL 0,1 db per incoming fiber after the test at 1310, 1550 and 1625 nm IL 0,5 db during the test measured in active circuit IL 0,1 db after the test in active circuit No defects which would adversely affect product performance - An incoming fiber is defined as a part of an optical circuit containing the fiber entering the product, a connection spliced to a fiber leaving the product. One optical circuit can contain many incoming fibers. Light will sequentially flow through all the incoming fibers. - Fiber type to be used for all test samples: Fiber characteristics Fiber type: Non dispersion shifted (ITU-T G.652) Proof stress test: 0,7 Gpa Mode field diameter at 1310 nm: 9.3 µm ± 0.5 µm Mode field diameter at 1550 nm: 10.5 µ ± 1.0 µm Cabled fiber cut off wavelength: 1260 nm 1550 nm loss performance: < 0.5 db for 100 turns on 60 mm mandrel diameter Fiber curl: > 4.0 meter radius Cladding diameter: 125.0 µm ± 1.0 µm Non colored coating diameter: 245 µm ± 10 µm Issued by Knut Ove Fidje 2012 Side 13

1.2.1 Functional optical requirements PERFORMANCE CRITERIA METHOD AND CONDITIONS INTERN. NORM/REF REQUIREMENTS Mechanical tests (optical evaluation) Flexure Test temperature: Force: Force application: (+23 ± 3) C 30 bending or max. 500 N force 250 mm from end of cable seal sleeve. 5 per cable No. of cycles: Installation Test temperature: (+23 ± 3) C All fibers active Installation of looped Cable inside closure (EN) Reconfiguration Shock Torsion Vibration Test temperature: Handle closure: - unroll cable - add of drop cable - add module - splice fibers Severity: Duration: Wave form: Number of shocks: Axes: Test temperature: Torque: Torque application: Tensile load No. of cycles Test temperature: Sweep range: - crossover frequency: - severity below 9 Hz: - severity above 9 Hz: Axes: Duration: Environmental tests (optical evaluation) Temperature cycling Lowest temperature: Highest temperature: Dwell time: Transition time: Number of cycles: IEC 61300-2-37 Noen Transient loss (+23 ± 3) C IEC 61300-2-23 Transient loss 15 g (150 m/s 2 ) 11 milliseconds Half sine 3 up & 3 down 3 mutually perpendicular (+23 ± 2) C Max. 50 Nm or max. 90 rotation 250 mm from end of cable seal sleeve None 5 per cable (+23 ± 3) C (5-500) Hz at 1 octave/minute 9 Hz 3.5 mm 10 m/s 2 (1g) 3 mutually perpendicular 10 cycles/axis (-30 ± 2) C* (+60 ± 2) C* 4 hrs 2 hrs 20 IEC 61300-2-9 IEC 60068-2-27 Test Ea IEC 61300-2-5 IEC 61300-2-1 IEC 60068-2-6 Test Fc IEC 61300-2-22 IEC 60068-2-14 Test Nb Change in attenuation after test Appearance Transient loss Transient loss Appearance Transient loss Appearance Change in attenuation Issued by Knut Ove Fidje 2012 Side 14

Patchehylle ODF Generelle krav 19 innfesting med mulighet for organisering av patchesnorer. Hvis dette ikke er en del av patchehylla må den leveres separat. Det tillates maksimalt 48 fiber per hylle. Hyller med mer enn 12 fiber må oppfylle kravene gitt i 1.2 Functional optical requirements. 1.2 Functional optical requirements PERFORMANCE CRITERIA METHOD AND CONDITIONS Performance criteria references (optical evaluation) Change in attenuation Transient loss Visual appearance INTERN. NORM/REF REQUIREMENTS Source wavelength: 1310, 1550 and 1625 nm IEC 61300-3-3 IL 0,5 db per incoming fiber during the test at 1625 nm IL 0,2 db per incoming fiber during the test at 1310 and 1550 nm IL 0,1 db per incoming fiber after the test at 1310, 1550 and 1625 nm Source wavelength: Detector bandwidth: Examination of products with the unaided naked eye NOTES: 1550 nm, Unpolarized (0-1500) Hz IEC 61300-3-28 IEC 61300-3-1 - Quoted indicated loss values refer to the initial optical signal at the start of the test. IL 0,5 db during the test measured in active circuit IL 0,1 db after the test in active circuit No defects which would adversely affect product performance - An incoming fiber is defined as a part of an optical circuit containing the fiber entering the product, a connection spliced to a fiber leaving the product. One optical circuit can contain many incoming fibers. Light will sequentially flow through all the incoming fibers. - Fiber type to be used for all test samples: Fiber characteristics Fiber type: Non dispersion shifted (ITU-T G.652) Proof stress test: 0,7 Gpa Mode field diameter at 1310 nm: 9.3 µm ± 0.5 µm Mode field diameter at 1550 nm: 10.5 µ ± 1.0 µm Cabled fiber cut off wavelength: 1260 nm 1550 nm loss performance: < 0.5 db for 100 turns on 60 mm mandrel diameter Fiber curl: > 4.0 meter radius Cladding diameter: 125.0 µm ± 1.0 µm Non colored coating diameter: 245 µm ± 10 µm Issued by Knut Ove Fidje 2012 Side 15

Self-supporting Optical Fiber Cable Loose Tube (Figure 8) ADSS Self-supporting cable Dette dokumentet beskriver minimum krav gitt i standarder. Detaljspesifikasjoner er eksempler gitt av leverandør på aktuell kabel. Tilsvarende informasjon må forelegges hver enkelt forespurt kabeltype. Krav til fargekode, merking og standarder er identisk med dette eksempel: EKSEMPEL 1. Scope This document specifies a loose tube, self-support cable with a dielectric central member, containing up to 12 tubes; each tube contains up to 12 optical fibers. The cable jacket is PE. The cable shall be designed for aerial installation on an integrated self-supporting messenger. 2. Cable Description Optical cable for aerial installation on poles. The outer sheath should be made of abrasion resistant polyethylene. The cable should have a steel messenger wire suitable for up to 80 m span lengths. Span length should be dependent on ice load, wind load and installation sag. Ice load min. 3 kg/m, wind load 22m/sec. The figure-8 construction should allow easy installation with cable grips attached to the messenger wire. The cable core should be to prevent moisture penetration. The cable core should be non-metallic and should be easily separated from the steel messenger wire to eliminate problems with induced high voltages in termination and splice points. The fibers should be protected in jelly filled loose tubes stranded around a central strength member to ensure optimum performance and long life. Each fiber and loose tube should be color-coded for easy identification during splicing and termination. The outer sheath should be marked to show fiber type and cable type. Swelling tape are accepted as water-blocking 3. Reverse lay (SZ) stranding The elements (loose buffer tubes and if necessary filling elements) should be stranded around a central member according to the reverse lay method, which means, that the direction of stranding reverses after a predetermined number of revolutions. At the reverse point the elements are laying parallel to the axis of the cable. A binder should be wound around the elements in order to retain them in the proper position. Issued by Knut Ove Fidje 2012 Side 16

4. Cross Section Drawing Kravspesifikasjon VTK nett 5. Nominal Dimensions and Weight (to be filled in by supplier) No. of fibers No. of fibers in each tube No. of tubes + fillers Loose tube diameter (mm) Cable core outer diameter (Dcc) (mm) Messenger wire outer diameter (mm) Weight (kg/km) 24 48 96 144 192 Issued by Knut Ove Fidje 2012 Side 17

6. Mechanical and Environmental Properties TEST DETAIL SPECIFICATIONS TEST PROCEDURE IEC 60794-1-2 Test Method TIA/EIA-455 FOTP No. Operating Load 12000 N E1 Installation Load 9000 N E1 Crush 2000 N/10cm E3 Min Bending Diameter (incl.wire) Min Bending Diameter (cable core) 30xDcc 20xDcc Cable bend <0.1dB/ ±5 turn E11 Repeated bending 1000 cycles E6 Max. Compressive Loading 4000 N E3 41 Impact Resistance 1 impact, 15J E4 Twist (Torsion) ± 1 turn/1m E7 Core Fluid Penetration 1 m sample, 1 m water head for 24 hrs F5 82 Water tightness < 3 m/24 hours F5 7. Temperature window. The max. attenuation variation in the operational temperature range is 0, 15 db/km. TEST Operating Temperature Range Installation Temperature Range Storage Temperature Range Temperature cycling test DETAIL SPECIFICATIONS TEST PROCEDURE IEC 60794-1-2 Test Method TIA/EIA-455 FOTP No. -40 C to +70 C F1 3-15 C to +60 C F1-40 C to +70 C F1 3-40 C to +70 C Issued by Knut Ove Fidje 2012 Side 18

8. Tubes and Fibers Color Code Fiber tube no. Color Fiber no. Color 1 Red 1 White 2 Green 2 Red 3 Yellow or white 3 Yellow 4 Yellow or white 4 Green 5 Yellow or white 5 Blue 6 Yellow or white 6 Grey 7 Yellow or white 7 Brown 8 Yellow or white 8 Black 9 9 Violet 10 10 Turquoise 11 11 Orange 12 12 Pink 9. Cable Marking The cable is marked with white characters. The outer sheet is marked to show fiber type, cable type & meters. The meter mark is printed every meter with an accuracy of ±1%. 10. Fiber specification: ITU-T recommendations G652 D, IEC 60793-2 The geometrical, optical, transmission and mechanical characteristics of the fiber shall confirm with ITU-T recommendations G652 D (March 2003) for characteristics of a single mode optical fiber cable. Issued by Knut Ove Fidje 2012 Side 19

Optical Fiber Cable for Duct Installation, Loose Tube Dette dokumentet beskriver minimum krav gitt i standarder. Detaljspesifikasjoner er eksempler gitt av leverandør på aktuell kabel. Tilsvarende informasjon må forelegges hver enkelt forespurt kabeltype. Krav til fargekode, merking og standarder er identisk med dette eksempel: EKSEMPEL 1. Scope This document specifies a loose tube cable with a dielectric central member, containing up to 12 tubes; each tube contains up to 12 optical fibers. The cable is designed for duct combined indoor and outdoor installation. 2. Cable Description Optical cable for duct installation. The outer sheath should be made of abrasion resistant polyethylene or high density polyethylene. To allow easy installation of long lengths, the cable should have a central FRP strength member, and is additionally reinforced with glass yarn around the cable core, which also reduces the chances for damages due to rodents. The cable should be non-metallic to eliminate any problem with induced electrical currents. Water swelling tape around the cable core should be used to prevent moisture penetration. The fibers should be protected in jelly filled loose tubes stranded around a central strength member to ensure optimum performance and long life. Each fiber and loose tube should be color coded for easy identification during splicing and termination. The outer sheath should be marked to show fiber type and cable type. The cable should contain at least two ripcords to easily remove outer sheet. 3. Reverse lay (SZ) stranding The elements (loose buffer tubes and if necessary filling elements) should be stranded around a central member according to the reverse lay method, which means, that the direction of stranding reverses after a predetermined number of revolutions. At the reverse point the elements are laying parallel to the axis of the cable. A binder should be wound around the elements in order to retain them in the proper position. Issued by Knut Ove Fidje 2012 Side 20

4. Cross Section Drawing Kravspesifikasjon VTK nett 96 F SM OPTICAL FIBER RIP CORD HDPE SHEATH - Min. 2, 2 mm thickness SM G652 D OPTICAL FIBRES POLYESTER TAPE CENTRAL STRENGTH MEMBER 2.5 mm (± 0.2 mm) FRP GLASS ROVINGS LOOSE TUBES 2.4 mm (± 0.1 mm) CABLE FLOODING TUBE FILLING 5. Nominal Dimensions and Weight (to be filled in by supplier) No. of fibers No. of fibers in each tube No. of tubes + fillers Loose tube diameter (mm) Cable diameter (mm) Weight (kg/km) Heat release (MJ/km) 12 24 36 48 72 96 144 192 Issued by Knut Ove Fidje 2012 Side 21

6. Mechanical and Environmental Properties TEST Min Operating Load DETAIL SPECIFICATIONS Minimum 60% of Installation load TEST PROCEDURE IEC 60794-1-2 Test Method TIA/EIA-455 FOTP No. E1 33 Installation Load 2000 N E1 33 Crush 2000 N/10cm E3 Min Bending Diameter (incl.wire) Min Bending Diameter (cable core) 30xDcc or better 20xDcc or better Cable bend <0.1dB/ ±5 turn E11 Repeated bending 1000 cycles E6 Max. Compressive Loading 4000 N E3 41 Impact Resistance 1 impact, 15J E4 Twist (Torsion) ± 1 turn/1m E7 Core Fluid Penetration 1 m sample, 1 m water head for 24 Hrs Water tightness < 3 m/24 hours F5 Outer sheet material F5 82 7. Temperature window TEST Operating Temperature Range Installation Temperature Range Storage Temperature Range Temperature cycling test DETAIL SPECIFICATIONS TEST PROCEDURE IEC 60794-1-2 Test Method TIA/EIA-455 FOTP No. -40 C to +70 C F1 3-15 C to +60 C F1-40 C to +70 C F1 3-40 C to +70 C Issued by Knut Ove Fidje 2012 Side 22

8. Tubes and Fibers Color Code Fiber tube no. Color Fiber no. Color 1 Red 1 White 2 Green 2 Red 3 Yellow or white 3 Yellow 4 Yellow or white 4 Green 5 Yellow or white 5 Blue 6 Yellow or white 6 Grey 7 Yellow or white 7 Brown 8 Yellow or white 8 Black 9 9 Violet 10 10 Turquoise 11 11 Orange 12 12 Pink 9. Cable Marking The cable is marked with white characters. The outer sheet is marked to show fiber type, cable type & meters. The meter mark is printed every meter with an accuracy of ±1%. 10. Fiber specification The geometrical, optical, transmission and mechanical characteristics of the fiber shall confirm with ITU-T recommendations G652 D (March 2003) for characteristics of a single mode optical fiber cable. Issued by Knut Ove Fidje 2012 Side 23

Mikrofiberkabelrør med innvendig antifriksjonssjikt. Forlegning direkte i bakken. Beskrivelse: Dimensjoner: Materiale for innersjikt: Co-ekstrudert rør med innvendig antifriksjonssjikt beregnet for blåsing av mikrofiberkabel. 4,4/8 mm, 6,2/10 mm, 10/16 mm PEHD-basert silikoncompound Materiale for hovedrør: Polyetylen nyvare med høy densitet (PEHD) Farge: Etter ønske Egenvekt: 0,958 g/cm3 Smelteindeks: 0,9 g/10 min. MFI 190/5 Lengdeutvidelseskoeffisient: 1,2 x 10-4 /K Varmeledningsevne: 0,44 WK m Elastisitetsmodul: 1600 N/mm2 Forlengelse ved brudd: >500% Bøyeradius: Min. 20 x D v/ +20 C Min. 50 x D v/ 0 C Utelagring: Rørene skal kunne ligge utelagret i 1 år med tilnærmet uforandret fargenyanse. Dimensjon indre / ytre diameter Indre diameter Toleranser Ytre diameter Arbeidstrykk 4,4/8 mm +0/-0,2-0/+0,1 15 bar 6,0/10 mm 0,2-0/+0,1 15 bar 10/14 mm 0,2-0/+0,1 15 bar 16/10 mm 0,2-0/+0,1 15 bar Sprengtrykk 29 bar Issued by Knut Ove Fidje 2012 Side 24

Direktelagte rør. Forlegning direkte i bakken. Beskrivelse: Co-ekstrudert rør med innvendig antifriksjonssjikt beregnet for blåsing av fiberkabel. Co-ekstrudert rør med innvendig antifriksjonssjikt beregnet for Beskrivelse: blåsing av fiberkabel Ytre/indre dimensjon: 25/20,4 mm 40/32,6 mm 50/40,8 mm Rørene skal kunne ligge utelagret i 1 år med tilnærmet uforandret Utelagring: fargenyanse Standard: Trykk- klasse PN10 NS2967 Issued by Knut Ove Fidje 2012 Side 25

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