CN1734300A - Optical fiber, optical fiber ribbon, and optical interconnection system - Google Patents

Abstract

An optical fiber (10) includes a core and a cladding (11) which are made from silica glass, allows single mode transmission at a wavelength of 1100 nm, and has a mode field diameter of not less than 4 m at a wavelength of 1100 nm, and a bending loss of not more than 1 dB per turn with a curvature radius of 1 mm at a wavelength of 1100 nm.

Description

Optical fiber, fibre ribbon and optical interconnection system

Technical field

The present invention relates to optical fiber, relate to the interior light wiring of equipment in more detail and be with and use their optical interconnection system with optical fiber and its.

Background technology

Transmit employed mode as the signal in the equipment, two kinds of electrical transmission mode and light interconnection (interconnection) mode are arranged.Follow the high speed of cpu clock frequency in recent years, in the electrical transmission mode, high-density wiring and disturb mutually (crosstalk) that cause becomes problem needs applied waveforms forming technique etc.Its result using under the situation of electrical transmission mode as the signal transmission form in the equipment, becomes transmission limit about transmission range 100m and transmission speed 10Gbps as can be known.On the other hand,, remote wide band transmission can be carried out, the signal transmission system of the light parts that use small-sized and low consumpting power can be constructed simultaneously if should then compare with the light interconnection mode as the signal transmission form in the equipment with the electrical transmission mode.Therefore, present light interconnection mode signal transmission technology and being paid close attention in the equipment of electrical transmission mode instead.

Have in the light interconnection mode as optical communication means and use the mode of optic waveguide circuit and the mode of use optical fiber, but owing to wish whole light parts of using in the save space ground housing apparatus as far as possible, so can connect up flexibly and the optical fiber that can hang down the light transmission of losing is located in and is suitable for one of light parts that light interconnects.

In the past, the optical fiber as the short distance light transmission is used used multimode optical fiber (MMF).Usually the core diameter of MMF with 10 times of speed of single-mode fiber (SMF) because the size of its numerical aperture, do not need high precision during connection between optical fiber and light source etc., therefore can simply connect.Especially, as light source, frequent use will be as a kind of refraction index graded index fiber (graded index fiber) of multimode optical fiber method as optical transmission medium with the surface-emitting type semiconductor laser (VCSEL) of oscillation wavelength 850nm.The refraction index graded index fiber is to be made as the best by the refractive index profile shape with the core zone, thereby has suppressed the optical fiber of the influence of pattern dispersion.The refraction index graded index fiber of critically having controlled refractive index profile shape can carry out transmission speed 10Gbps, apart from the high speed optical communication about 100m.

But, with carry out longer Distance Transmission or more high-speed transfer be purpose, the application of the wide band SMF that begins one's study.Under these circumstances, the light source as using in recent years, is advancing the research of GaInAs/GaAs based semiconductor laser device.This laser instrument has the oscillation wavelength of 1100nm～1200nm, and oscillation threshold is low, and temperature characterisitic is good, in addition, has the characteristics such as direct modulation that can carry out 10Gbps, is constantly paid close attention to as the light source of purposes such as LAN.Oscillation wavelength can change, and so far, is carrying out both research and development to 1100nm and 1200nm, and is learning to deliver etc.

For example, F.Koyata etc.; " 1.2 μ m highly strained GaInAs/GaAs quantum welllasers for single-mode fibre datalink "; ELECTRONICS LETTERS; Vol.35; No.13, pp.1079-1081, June; 1999; and, F.Koyata etc., " Data Transmission OverSingle-Mode Fiberby Using 1.2 μ m Uncooled GaInAs/GaAs Laser for Gb/s LocalArea Network ", PHOTONICS TECHNOLOGY LETTERS, Vol.12, No.2, pp.125-127, February, in 2000, disclose the GaInAs/GaAs quantum well laser has been used as light source, transmitted via SMF.Under the situation of using SMF, can carry out the high speed optical communication about transmission speed 40Gbps.

Thereby, require to realize following optical fiber: reduce bending loses simultaneously and be connected loss, can carry out the high-speed light transmission, be suitable for easily constructing optical interconnection system.In addition, require to realize following optical fiber: can twine with little bending radius, the fracture probability that bending causes is little, can hold standby in addition.

Summary of the invention

Optical fiber of the present invention is characterised in that, comprise the core and the clad (clad) that constitute by quartzy class glass, in wavelength 1100nm, carry out single mode propagation, have among the wavelength 1100nm more than or equal to the mode field diameter of 4 μ m and with radius 1mm the bending loses among the wavelength 1100nm when crooked smaller or equal to 1dB/ circle (turn).

In addition, fibre ribbon of the present invention is characterised in that by arranging a plurality of above-mentioned optical fiber and forms.

In addition, be characterised in that, comprise light source and above-mentioned optical fiber that the surface luminous semiconductor laser of the oscillation wavelength of 1100nm～1200nm constitutes by having optical interconnection system of the present invention.

About above narration and of the present invention other purpose, feature, advantage and technology and the meaning on the industry, read following of the present invention detailed explanation by the contrast accompanying drawing, then can further understand.

Description of drawings

Fig. 1 is that expression is calculated in the connection between the single-mode fiber of the same race, for the result's of the connection loss of the wavelength 1550nm of axle deviation figure.

Fig. 2 is the figure of the W shape profile (profile) of expression optical fiber of the present invention.

Fig. 3 is the figure of the unimodal shape profile of the existing optical fiber of expression.

Fig. 4 is the figure of W arc (segment) profile of expression optical fiber of the present invention.

Fig. 5 is the figure of the approximate W shape profile of expression optical fiber of the present invention.

Fig. 6 is the figure of structure example that the optical interconnection system of optical fiber of the present invention has been used in expression.

Fig. 7 is the sectional view of optical fiber of the present invention.

Fig. 8 is the sectional view of fibre ribbon of the present invention.

Embodiment

The core diameter of SMF is generally about 5～10 μ m, compares with the MMF with the core diameter about 50～62.5 μ m, and core diameter is very little, and therefore the shortcoming of the high-precision connection between essential optical fiber and the light source etc. is arranged.In addition, in constructing the equipment of light interconnection under the situation of communication system, suppose that light parts such as optical fiber and VCSEL are coupled by the space near 10 parts of using connector etc. to be connected.Under the situation of the light parts that are of coupled connections by the space, between link, produce the deviation of optical axis, loss takes place to connect.Therefore, even the MFD between parts is same degree, also, the axle deviation connects loss owing to causing.In addition, MFD between link difference is big more, and the coupling efficiency when spool deviation is then arranged significantly reduces, the tendency that increases for the connection loss of axle departure.

For example, Fig. 1 represents to calculate in the connection between SMF of the same race, for the result of the loss of the connection among the wavelength 1550nm of axle deviation.The axle deviation is an important parameters for the reduction of the loss of the connection between optical fiber and light source, optical fiber and light receiver or the optical fiber.Present situation is that the maximal value of the axle deviation that causes of foozle can be for about 1 μ m, from the viewpoint of worst-case value design, needs to consider to allow the error of the axle deviation of 1 μ m to design.

With reference to Fig. 1, be under the situation of 4 μ m at MFD, lose for the connection that axle deviation 1 μ m produces about 1.1dB.Having 10 tie points between as the VCSEL of light source and optical receiver, is under the situation of 1 μ m in the axle deviation of each tie point of supposition, the maximum generation of the connection loss 1dB of axle deviation.Suppose that the Output optical power of constructing VCSEL is-3dBm, the receiving sensitivity of optical receiver is-16dBm, during the typical optical interconnection system of fiber lengths about smaller or equal to 50cm, transmission loss beyond the sweep of optical fiber is smaller or equal to 0.01dB, very little, so the dynamic range of this system is about 13dB.But, in fact,, not only can produce the loss 11dB that above-mentioned axle deviation causes at tie point, also can produce the connection loss that angular deviation causes, so under the situation of above-mentioned supposition, almost not more than needed for the dynamic range 13dB of system.Thereby, be difficult to use the SMF that has smaller or equal to the MFD about 4 μ m and constitute aforesaid optical interconnection system.

On the other hand, light wiring in the equipment is used under the situation of quartzy type optical fiber, required this optical fiber to connect up flexibly and can hold compactly.On the other hand, under the situation of constructing of having supposed the high-speed optical interconnection system, it is 0 that the transmission loss of best optical fiber does not have limit.In other words, for light interconnection optical fiber, do not produce bending loses even require when wiring, optical fiber to be applied the very little bending of radius-of-curvature yet.In fact, supposing in the equipment under the situation of light wire laying mode, supposing the optical fiber after the wiring is applied bending about the radius-of-curvature 1mm of many places at last.Therefore, considering under the situation of bending loses permissible value under the situation of the bending of the part when having applied the wiring winding or in the viewpoint that designs from worst-case value, bending at radius-of-curvature 1mm increases under the situation of 1 circle, if bending loses is below the 1dB, then be abundant good bending loses characteristic, we can say and to carry out light wiring flexibly.

In this instructions, the method for counting that forms crooked part (sweep) is used ' circle (turn) ', at fibre-optical bending counting 1 circle under the situations of 360 degree.For example, there is everywhere the situation of the sweeps of 90 degree be called 1 circle, has the situation of the sweep of two places, 90 degree to become 1/2 circle.

For example, in common SMF, increased under the situation of bending of 1 circle radius-of-curvature 5mm, in wavelength 1550nm, produced bending loses near 30dB.And then, increased under the situation of bending of 1 circle radius-of-curvature 1mm, produce bending loses more than or equal to 60dB.For example, in the system of above-mentioned dynamic range 13dB, the 2dB of being up to more than needed that the loss that bending loses causes increases, when considering that winding owing to optical fiber produces the cloth line states of bending of part of 2 circle left and right sides radius-of-curvature 1mm, require 1 smaller or equal to the very little bending loses about 1dB, therefore when constructing such system, can't use common SMF.In addition, among the common SMF with unimodal shape profile, because the inhibition of bending loses and the relation of expanding as compromise (tradeoff) of MFD, so can't improve bending loses simultaneously and connect loss.

And then, supposing in the equipment under the situation of light wire laying mode, require to hold compactly, each position in equipment, beyond the bending about described bending radius 1mm, consider to apply the little bending of radius-of-curvature about the bending radius 5mm that the bending etc. of the wiring between end-end (tip-tip) causes.Be implemented thermal treatment etc. about applying the bent position about radius-of-curvature 1mm, getting, the position that distortion is open, but, can not get such position for the bending about the bending radius 5mm of each position generation in equipment.Thereby in the bent position that optical fiber is applied about radius-of-curvature 5mm, owing to the stress deformation that produces at crooked position, probably optical fiber is disrumpent feelings.Thereby, need to reduce the crooked disrumpent feelings probability that causes.

Generally, the clad diameter is big more, and then the distortion during fibre-optical bending is big more, and disrumpent feelings probability increases.For example, under the situation of constructing the optical interconnection system that uses optical fiber, suppose optical fiber is applied the bending of 20 angle 90 degree about the radius-of-curvature 5mm of the left and right sides.(screening level) is made as 2% with screening criteria, will and cladding material between endurance ratio be made as 22, when product life was made as 5 years, the clad diameter of optical fiber was that the failure rate of the situation of 125 μ m is 5.5.But the failure rate that the clad diameter of optical fiber is made as under the situation of 90 μ m is 0.04, can be reduced to 125 μ m situation about 0.7%.In system design, preferred failure rate is smaller or equal to 0.05.In common optical fiber, the requirement of the reduction of the disrumpent feelings rate that causes for bending is not really strong, but is being bent into as the optical fiber of using in the optical interconnection system under the situation of minor radius, and as mentioned above, it is big to reduce the minor radius effect that the disrumpent feelings rate that causes causes of reeling.

Generally, in SMF, we can say under the situation of the clad diameter about having smaller or equal to 10 for MFD has baneful influence to loss.Therefore, in need optical fiber more than or equal to this purposes of the MFD of 4 μ m, at least need be more than or equal to the clad diameter of 40 μ m.

As embodiment 1, obtain the characteristic of silicon dioxide substrate of the present invention (silica base) optical fiber as shown in Figure 2 by simulation with W shape profile.In this optical fiber, be provided with the core (first core) that has applied germanium at ground floor, be provided with (depressed) layer (second core) that sink that has applied fluorine at the second layer.The optical fiber A of table 1 represents for the detailed design load of each layer and the characteristic of calculating.

Characteristic guide look when each parameter of table 1 changes

	Δ1	α1	Δ2	Δ3	a/μm	b/μm	c/μm	MFD/μm 1100nm	λc/nm	Bending loses/dB1100nm, 1 circle
											A	0.9	2.0	-0.4	-	7.3	10.4	-	5.1	1078	0.8
B	1.5	3.0	-	-	4.5	-	-	3.9	1082	0.9
											C	0.9	3.0	-0.4	0.2	6.1	8.7	12.2	5.2	1091	0.9
D	0.8	2.5	0.0	-0.4	6.9	9.9	13.7	5.0	1075	0.7
											A1	0.4	7.0	-0.2	-	7.8	11.2	-	4.1	1092	3.4
A2	0.5	7.0	-0.2	-	7.4	10.5	-	4.3	1084	0.9
											A3	1.0	1.4	-0.2	-	6.3	9.0	-	4.0	1087	2.5
A4	1.0	1.5	-0.2	-	6.4	9.1	-	4.1	1067	0.8
											A5	1.3	2.0	-0.1	-	3.4	4.9	-	3.8	1078	0.7
A6	1.3	2.0	-0.2	-	3.3	4.7	-	4.0	1073	0.9
											C1	0.4	7.5	-0.3	0.2	6.3	9.0	11.7	4.1	1090	2.9
C2	0.5	7.5	-0.3	0.2	5.9	8.5	11.9	4.3	1072	0.7
											C3	0.9	1.4	-0.3	0.3	6.5	9.3	12.8	4.2	1084	1.5
C4	0.9	1.5	-0.3	0.3	6.4	9.1	12.3	4.1	1072	0.4
											C5	1.0	6.5	-0.1	0.2	4.5	6.0	8.4	3.5	1078	0.8
C6	1.0	6.5	-0.2	0.2	4.8	6.5	8.3	4.0	1089	0.5
											C7	0.8	2.0	-0.3	0.1	6.4	9.1	12.7	3.7	1075	0.4
C8	0.8	2.0	-0.3	0.2	6.5	9.3	13.0	4.1	1072	0.8
											D1	0.4	6.0	0.0	-0.2	7.4	10.5	14.7	4.1	1089	5.4
D2	0.5	6.0	0.0	-0.2	6.8	9.8	13.7	4.2	1068	0.7
											D3	0.8	1.4	0.0	-0.3	8.1	11.6	16.2	4.0	1090	2.5
D4	0.8	1.5	0.0	-0.3	7.8	11.1	15.5	4.1	1071	0.8
											D5	0.8	2.0	0.0	-0.1	7.6	11.3	15.3	3.8	1086	0.7
D6	0.8	2.0	0.0	-0.2	7.9	11.6	15.8	4.3	1078	0.7

In table 1, α 1 is the α value of shape of the index distribution of expression first core, is defined by the α in the following formula (1).

n ²(r)＝n _c1 ²{1-2·(Δ1/100)·(2r/a)α} (1)

Wherein, 0＜r＜a/2

Here, r represents from the position of the radius centered direction of optical fiber, the refractive index of n (r) expression position r.In addition, n _C1The largest refractive index of representing first core, a are the diameters of first core.

In addition, Δ 1 and Δ 2 are represented the refractive index contrast for metalclad first core respectively, and for the refractive index contrast of metalclad second core 2, by following formula (2) and (3) expression.

Δ1＝{(n _c1-n _c)/n _c1}·100 (2)

Δ2＝{(n _c2-n _c)/n _c2}·100 (3)

Here, n _C1Be the largest refractive index of first core, n _C2Be the minimum refractive index of second core 2, n _cIt is metalclad refractive index.

At wavelength 1100nm, MFD is 5.1 μ m, with co-wavelength single mode action, and is the 0.8dB/ circle at the bending loses of co-wavelength bending radius 1mm.And then the optical fiber A1～A6 of table 1 represents to have changed in the optical fiber with W shape profile shown in Figure 2 the analog result of each parameter value.In the A and A1～A6 of table 1, the MFD of wavelength 1100nm is more than or equal to 4 μ m, but in wavelength 1100nm single mode transport, and, be A, A2, A4 and A6 with the bending loses of the wavelength 1100nm of radius 1mm bending smaller or equal to the 1dB/ circle.Thereby, according to these analog results, in the optical fiber as shown in Figure 2 with the arc profile of W, in the index distribution of core, the refractive index contrast (Δ 1) of first core is made as more than or equal to 0.5%, α is made as more than or equal to 1.5, the refractive index contrast (Δ 2) of second core is made as smaller or equal to-0.2%, thereby obtain having the optical fiber of the present invention of the characteristic of requirement as can be known.

For with the optical fiber of the invention described above relatively, obtain the characteristic of optical fiber that has the unimodal shape profile low bending loses characteristic, shown in Figure 3 of bending radius 1mm, 1.0dB/ circle at wavelength 1100nm by simulation.The optical fiber B of table 1 represents the characteristic calculated.The MFD of wavelength 1100nm is 3.9 μ m.

As embodiment 2, obtain as shown in Figure 4 the characteristic arc profile of W, silicon dioxide substrate optical fiber of the present invention that has by simulation.In this optical fiber, be provided with the core (first core) that has applied germanium at ground floor, be provided with the sagging layer (second core) that has applied fluorine at the second layer, be provided with arc (segment) layer (the 3rd core) that has applied germanium at the 3rd layer.The optical fiber C of table 1 represents about the detailed design load of each layer and the characteristic of calculating.Δ 3 is the refractive index contrasts for metalclad the 3rd core, is represented by following formula (4).

Δ3＝{(n _c3-n _c)/n _c3}·100 (4)

Here, n _C3It is the largest refractive index of the 3rd core of the arc profile of W.

At wavelength 1100nm, MFD is 5.2 μ m, with co-wavelength single mode action, and is the 0.9dB/ circle at the bending loses of co-wavelength bending radius 1mm.And then the optical fiber C1～C8 of table 1 represents to have changed in the optical fiber with the arc profile of W shown in Figure 4 the analog result of each parameter value.In the C and C1～C8 of table 1, the MFD of wavelength 1100nm is more than or equal to 4 μ m, but in wavelength 1100nm single mode transport, and, be C, C2, C4, C6 and C8 with the bending loses of the wavelength 1100nm of radius 1mm bending smaller or equal to the 1dB/ circle.Thereby, according to these analog results, in the optical fiber as shown in Figure 4 with the arc profile of W, in the index distribution of core, the refractive index contrast (Δ 1) of first core is made as more than or equal to 0.5%, α is made as more than or equal to 1.5, the refractive index contrast (Δ 2) of second core is made as smaller or equal to-0.2%, the refractive index contrast (Δ 3) of the 3rd core is made as more than or equal to 0.2%, thereby obtains having the optical fiber of the present invention of the characteristic of requirement as can be known.

As embodiment 3, obtain characteristic approximate W shape profile, silicon dioxide substrate optical fiber of the present invention that has as shown in Figure 5 by simulation.In this optical fiber, be provided with the core (first core) that has applied germanium at ground floor, be provided with silicon dioxide layer (second core) at the second layer, be provided with the sagging layer (the 3rd core) that has applied fluorine at the 3rd layer.The optical fiber D of table 1 represents about the detailed design load of each layer and the characteristic of calculating.Same with the foregoing description 2, Δ 3 is the refractive index contrasts for metalclad the 3rd core, is represented by formula (4).N in the formula (4) in this case _C3It is the minimum refractive index of the 3rd core of approximate W shape profile.

At wavelength 1100nm, MFD is 5.0 μ m, with co-wavelength single mode action, and is the 0.7dB/ circle at the bending loses of co-wavelength bending radius 1mm.And then the optical fiber D1～D6 of table 1 represents to have changed in the optical fiber with approximate W shape profile shown in Figure 5 the analog result of each parameter value.In the D and D1～D6 of table 1, the MFD of wavelength 1100nm is more than or equal to 4 μ m, but in wavelength 1100nm single mode transport, and, be D, D2, D4 and D6 with the bending loses of the wavelength 1100nm of radius 1mm bending smaller or equal to the 1dB/ circle.Thereby, according to these analog results, in the optical fiber as shown in Figure 5 with approximate W shape profile, in the index distribution of core, the refractive index contrast (Δ 1) of first core is made as more than or equal to 0.5%, α is made as more than or equal to 1.5, the refractive index contrast (Δ 2) of second core is made as 0%, the refractive index contrast (Δ 3) of the 3rd core is made as smaller or equal to-0.2%, thereby obtains having the optical fiber of the present invention of the characteristic of requirement as can be known.

Like this, have among the SMF of unimodal shape profile, change core diameter and determine to depend on the core shape hardly when (cutoff) wavelength, MFD is the bending loses that the optical fiber of same degree is represented same degree.But, be provided with as second core in the W shape profile etc. of the layer that sink in the periphery of first core, can be to change MFD with equal bending loses, the cutoff wavelength of unimodal shape profile.This be because, by the layer that sink is set, can not move to the long wavelength even improve refractive index contrast (Δ) cutoff wavelength of central cores yet, there is no need to reduce core diameter.In addition, be provided with as second core under the situation of the layer that sink, the shape of first core is big to the MFD influence.The α value of shape of index distribution of representing first core is more little, and then the sealing effect of light is more little, and MFD is big more.On the other hand, MFD is for the size or the almost not influence of width of the Δ of the layer that sink.

In the light interconnection, use under the situation of optical fiber, suppose with the optical transmit body multichannelization, to carry out high speed optical communication by with fibre ribbonization.Usually, the specification of quartzy type optical fiber covers back external diameter 250 μ m for clad diameter 125 μ m, and the spacing (pitch) as a plurality of and interconnective fibre ribbons that optical fiber is arranged in parallel is generally 250 μ m.In the thin footpath optical fiber that the external diameter with optical fiber attenuates, covering diameter is refinement also, therefore can make the fibre ribbon of the spacing narrower than existing fibre ribbon.Thereby, preferably use the thin footpath optical fiber of described clad diameter 40～90 μ m.Used the wiring dirigibility of fibre ribbon of the narrow-pitch of thin footpath optical fiber to improve, but and save space hold, become the light parts that are suitable for the light interconnection.

Shown in the result of calculation among the above-mentioned embodiment 1～3, optical fiber of the present invention can carry out the single-mode optics of wavelength 1100nm to be propagated, and the bending loses characteristic of wavelength 1100nm and connection loss characteristic good.Fig. 6 has represented that with such use the fibre ribbon of optical fiber of the present invention as transmission medium, has used the structure example of the VCSEL of oscillation wavelength 1100nm as the optical interconnection system of light source.Optical interconnection system shown in Figure 6 comprises backboard (back board) 3, is connected to printed base plate 2 on this backboard 3 by connector connecting portion 4.Light I/O1 is installed on the printed base plate 2, and this light I/O1 is connected with connector connecting portion 4 via above-mentioned thin footpath fibre ribbon 5.Thus, carrying out light between printed base plate 2 and backboard 3 connects.Thin footpath fibre ribbon 5 also is configured on the backboard 3, and thus, the light that can carry out between the optical interconnection system connects.

In fact made the optical fiber of embodiment 1 (the optical fiber A of table 1).The clad diameter is made as 80 μ m.The detailed refractive index profile and the optical characteristic value of the optical fiber that table 2 expression is made.Roughly had optical fiber as the characteristic of simulation.

Optical fiber A has W shape profile, and usually, long more then MFD is big more for wavelength, and effective refractive index is more little.Therefore, the MFD of wavelength 1200nm is bigger than the value of wavelength 1100nm, and bending loses then is that the situation of wavelength 1100nm is little.When being made as 5dB, use wavelength to allow 5 circles the loss limit (loss margin) of bending loses as the bending of radius-of-curvature 1mm under the situation of 1100nm.On the other hand, use under the situation of wavelength as 1200nm, the bending of radius-of-curvature 1mm allows 4 circles.

And then, use the optical fiber fabrication fibre ribbon of table 2, that in fact constructed the VCSEL that uses oscillation wavelength 1200nm and optical fiber of the present invention and the optical interconnection system same structure of Fig. 6.

Table 2 trial-production optic fibre characteristic

(a) constructing variable

Δ1	α1	α2	a/μm	b/μm
					0.9	1.9	-0.4	7.5	10.2

(b) optical characteristic value

λc/nm	MFD/μm (1100nm)	MFD/μm (1200nm)	Bending loses/dB 1100nm, 1 circle	Bending loses/dB 1200nm, 1 circle
					1085	5.1	5.3	0.9	1.3

The Output optical power of VCSEL is-3dBm, and the receiving sensitivity of optical receiver is-16dBm, the dynamic range of system (bending loses be connected loss and the loss limit) be 13dB.

As shown in Figure 7, the diameter of clad 11 is made as 80 μ m, the external diameter of a covering resin 12 is made as 105 μ m, the external diameter of secondary covering resin 13 is made as 125 μ m.And then, as shown in Figure 8, be arranged in parallel 12, and it is covered with covering resin 21, thereby these optical fiber 10 are connected with spacing P125 μ m, make thin footpath fibre ribbon 20.Loss recruitment that consideration causes by attenuate covering resin 21 and two key elements of save spaceization are made as 170 μ m with covering diameter H (thickness H).Spacing P is that the fibre ribbon 20 of 125 μ m is existing half size, and dirigibility is very high, can carry out save space in equipment in addition and hold.As the material of covering resin 21, use ultraviolet hardening resin.

If using the diameter of clad 11 is that 40 μ m, the difference that covers external diameter and clad external diameter are the thin footpath optical fiber 10 of 20 μ m then spacing P can be reduced to 60 μ m.

Finishing of fibre ribbon 20 is of a size of, and width W is 1.55mm, and thickness H is 0.17mm.By will turning to spacing 125 μ m as the VCSEL array of the light source of connecting object, 12 channels, thus carry out connecting by the blanket light of the fibre ribbon 20 made.In this structure, by VCSEL is directly modulated, thereby realize surpassing the ultra high-speed optical communication of 100Gbps.

In the present embodiment, used the VCSEL of oscillation wavelength 1200nm, but the optical fiber of the embodiment of the invention described above also can single mode transport at wavelength 1100nm, under the situation of the VCSEL that has used oscillation wavelength 1100nm, also can similarly construct optical interconnection system, this point those skilled in the art should be understood that.

Ultraviolet hardening resin as the material of covering resin 21 uses the UV cured type polyurethane acrylic acid of flame retardancy (urethane acrylate) resin, makes difficult combustion band center line.The for example following making of the UV cured type polyurethane acryl resin of flame retardancy used herein.Add halogen adjuvants such as bromine, chlorine in the resin, also have antimony oxide, phosphorus compounds such as metal hydrate such as antimonial, aluminium hydroxide and magnesium hydroxides such as triphenyl antimony or phosphate, perhaps will constitute the prepolymer of ultraviolet hardening resin, or propylene monomer (acryl monomer) self is with bromine or chlorine halogenation, and then make it contain phosphorus etc., thereby the difficult burning of research ultraviolet hardening resin.In these methods, the method for adding bromine class incombustible agent is effective especially to difficult burning.

Like this,, be thought of as the surface of the product covering resin of decomposition reaction, form insulating course between decomposition gas that takes place when perhaps burning and the air as by forming the reason that change realizes difficult burning.In addition, can consider that the base that contains halogen compounds stops the continuation of burning, and then resin passes through and three dimensional stress etc. crosslinked.

Estimate ultraviolet hardening resin as bandization usefulness by JIS C3005 standard 60 degree inclination burning tests, use comprises the UV cured type polyurethane acryl resin of aluminium hydroxide as incombustible agent and the optical fiber that obtains.Its result, the flame that catches fire on the optical fiber extinguished in average about 3.2 seconds naturally, can satisfy standard.In the present embodiment, use difficult combustion ultraviolet hardening resin, but also can replace difficult combustion ultraviolet hardening resin and use difficult combustion thermoplastic resin.

Research is by being made as difficult combustion ultraviolet hardening resin with the whole or a part of of optical fiber covering resin and band covering resin, thus the flame retardancy of obtaining.Its result, by at least to two generations (secondary) resin and the band fibre ribbon that uses the UV cured type polyurethane acryl resin contain incombustible agent to obtain with resin of optical fiber, can be in JIS C3005 standard 60 degree inclination burning tests, the flame that catches fire extinguished in average about 2.6 seconds naturally, can satisfy standard.

In addition, carry out the result of UL1581 standard vertical burning test, flame extinguished in average 5.7 seconds naturally.In addition, do not have the droppings of burning, can satisfy described UL standard.In addition, carried out the result of testing vertical flammability with the state of single line, flame extinguished in average 7.6 seconds naturally, had sufficient flame retardancy under both state of single line, band center line.In the present embodiment, used difficult combustion ultraviolet hardening resin, but also can replace difficult combustion ultraviolet hardening resin and use difficult combustion thermoplastic resin.

Other effect and variation can easily be derived by those skilled in the art.Thereby mode widely of the present invention is not limited to top represented and specific details and the representational embodiment recorded and narrated.Thereby, only however break away from claim with and the spirit or scope of the defined blanket invention thought of equipollent, various changes can be arranged.

Claims (11)

1. an optical fiber is characterized in that,

Comprise first core that constitutes by quartzy class glass, second core and the clad that surrounds described first core,

In wavelength 1100nm, carry out single mode propagation,

Have among the wavelength 1100nm more than or equal to the mode field diameter of 4 μ m and

Bending loses among the wavelength 1100nm during with radius 1mm bending smaller or equal to the 1dB/ circle.

2. optical fiber as claimed in claim 1 has the clad diameter of 40 μ m～90 μ m.

3. optical fiber as claimed in claim 1, described first core have more than or equal to 0.5% refractive index contrast and represent described first core index distribution shape more than or equal to 1.5 α value,

Described second core has the refractive index contrast smaller or equal to-0.2%.

4. optical fiber as claimed in claim 1 also comprises the 3rd core that surrounds described second core,

Described first core have more than or equal to 0.5% refractive index contrast and represent described first core index distribution shape more than or equal to 1.5 α value,

Described second core has 0% refractive index contrast,

Described the 3rd core has the refractive index contrast smaller or equal to-0.2%.

5. optical fiber as claimed in claim 1 also comprises the 3rd core that surrounds described second core,

Described first core have more than or equal to 0.5% refractive index contrast and represent described first core index distribution shape more than or equal to 1.5 α value,

Described second core has the refractive index contrast smaller or equal to-0.2%,

Described the 3rd core has the refractive index contrast more than or equal to 0.2%.

6. optical fiber as claimed in claim 1 has the covering of ultraviolet hardening resin, and at least a portion of described ultraviolet hardening resin has flame retardancy.

7. optical fiber as claimed in claim 1 has the covering of thermosetting resin, and at least a portion of described thermosetting resin has flame retardancy.

8. a fibre ribbon is formed by a plurality of optical fiber that are arranged in parallel, wherein,

Each optical fiber comprises:

First core that constitutes by quartzy class glass, surround second core and the clad of described first core,

In wavelength 1100nm, carry out single mode propagation,

Have among the wavelength 1100nm more than or equal to the mode field diameter of 4 μ m and

Bending loses among the wavelength 1100nm during with radius 1mm bending smaller or equal to the 1dB/ circle.

9. fibre ribbon as claimed in claim 8 has the covering of ultraviolet hardening resin, and at least a portion of described ultraviolet hardening resin has flame retardancy.

10. fibre ribbon as claimed in claim 8 has the covering of thermosetting resin, and at least a portion of described thermosetting resin has flame retardancy.

11. an optical interconnection system comprises:

Have the light source that the surface luminous semiconductor laser of the oscillation wavelength of 1100nm～1200nm constitutes,

Have first core of quartzy class glass formation, second core and the metalclad optical fiber of described first core of encirclement,

Described optical fiber

In wavelength 1100nm, carry out single mode propagation,

Have among the wavelength 1100nm more than or equal to the mode field diameter of 4 μ m and

Bending loses among the wavelength 1100nm during with radius 1mm bending smaller or equal to the 1dB/ circle.

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