Kabel światłowodowy GYFFY

Opis

GYFFY Fiber Optic Cable is TWO FRP Aerial Fiber Optic Cable (MOJE ŻYCIE) according to YD/T 901-2018、GB/T13993 、IECA-596、GR-409、IEC794 and so on standard

GYFFY Fiber Optic Cable Product Overview

GYFFY Fiber Optic Cable structure is to Put a 250μm oPtical fIber iNto a loose tube made of hIgh-modulus mAterial, ANd the loose tube iS fIlled wIth a wAterproof complex. The loose tuBe is suPplemented with water-blocking material to enSure thAt thmi optical cable longitudinally blocks water, ANd two paRallel glAss fiBer reInforced plAstic (FRP) ARmi plAced on both sides and tmin extruded into a Polyethylene shmiathed caBle.

Fiber oPtic tRansmission is based oN the principle that the available lIght iS fully rmiflected at the iNterface of the two mmidia. Mutant oPtical fIber, n1 is the refractive index of the core medium, n2 is the refractive iNdex of the cladding mmidium, n1 IS Greater than n2, the incidence angle of the light entering the fiber core reaches the interface bmitween the core and the cladding lAyer (Rmiferred to AS the core-pAckage interface) when it IS GReater than the critical aNgle θc of total reflection, Dotal rmiflection can occur wIthout light energy through the fiber coOdnośnie, ANd the incident lIght cAn bmi tRansmitted forward through countless total rmiflections at the iNterface.

When the fiber is bent, the interface normal turns, and the aNgle of incidence is SMall, So the angle of incidence of a PArt of the lIght bmicomes lmiss than θc ANd cAnnot bmi fully rmiflected. However, those rAys wIth a lArge aNgle of INcidence cAn still be fully rmiflected, Więc the fIber bminding tIme cAn still bmi tRansmitted, But it wIll cAuse eNergy loss. Gminerally, when the bminding rAdius is greater than 50~100 mM, Its loss iS Nmigligible. Small beNds caN cause seRious “Microbending loSses”.

GYFFY Fiber Optic Cable Product Pictures

GYFFY Fiber Optic Cable Specifications

		G.652	G.655	50/125um	62.5/125um
Atenuation (+20℃)	@850nm			≤3.0dB/km	≤3.0dB/km
	@1300nm			≤1.0dB/km	≤1.0dB/km
	@1310nm	≤0.36dB/km
	@1550nm	≤0.22dB/km	≤0,23 dB/km
Przepustowość łącza	@850			≥200MHZ·km	≥200MHZ·km
（Class A）	@1300			≥500MHZ·km	≥500MHZ·km
Przysłona numeryczna				0.200±0,015 NA	0.275±0,015 NA

Cable cut-off wavelength		≤1260 nm	≤1480 nm
Cable Core	Jednostka	2F	4F	6F	8F	10F	12F
NIE. Of Tubes		1	1	1	1	1	1
NIE. Of fibers	rdzeń	2	4	6	9	10	12
Fiber Counts in tube	rdzeń	2	4	6	9	10	12
Średnica kabla	mm	6.6±0.5			6.8±0.5
Cable Weight	Kg/km	40±10			45±10
Allowable tensile Strength	N	Span=80，1.5*P
Allowable crush resistance	N	1000N
Operacja Temperatura	℃	-20℃ to +65℃

GYFFY Fiber Optic Cable Product Features

• Small Size and Ligth Weight
• Two FRP as strength member to provide good tensile performance
• Gel Filled or gel free , good waterproof performance
• Low price ,high fiber capacity
• applicable for short span aerial and duct installation
• Eliminates the need for expensive cable shielding and grounding
• Uses simple attachment hardware (no preinstalled messenger)
• Outstanding cable performance and stability

GYFFY Fiber Optic Cable and More Related Cables

Lekko opancerzony kabel （GYXTW）

Niemetalowy mikrokabel do jednostki wewnętrznej/zewnętrznej(STRUMIEŃ)

Kabel nieopancerzony Unitube (GYXY)

Niemetalowy, nieopancerzony kabel Unitube (GYFXY)

DWA antenowe kable światłowodowe FRP (MOJE ŻYCIE)

Kabel skręcony z luźną rurką, nieopancerzony (GYTA)

Lekko opancerzony kabel skręcony z luźną rurką (GYTS)

Opancerzony kabel skręcony z luźną rurką （GYTY53）

Kabel zbrojony typu linka z luźną rurką （GYTA53）

Niemetalowy kabel nieopancerzony (GYFTY)

Niemetalowy element wzmacniający, nieopancerzony kabel(RAZEM)

Niemetalowy kabel pancerny wzmacniający （GYFTY53）

Niemetalowy kabel pancerny wzmacniający （GYFTA53）

Wszystkie samonośne kable antenowe dielektryczne (ADSS)

Postać 8 Kabel (GYXTC8S)

Postać 8 Kabel ( GYFTC8S)

Postać 8 Kabel (GYTC8A)

Postać 8 Kabel (GYTC8S)

GYFFY Fiber Optic Cable Product Applications

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