JP2000075169A - Receptacle system surface mount type light receiving module - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a receptacle system surface mount type light receiving module sufficiently securing tolerance even for a light receiving element such as an ADP with a small light receiving diameter and without causing problems on reliability and manufacturing yield caused by light receiving module assembly precision. SOLUTION: Relating to the receptacle system surface mount type light receiving module consisting of a receptacle 6 attachably/detachably connecting a connector of an optical fiber constituting an optical transmission line, a short fiber 2 having a prescribed length coaxially fitted with a ferrule 1, the light receiving element 3 arranged oppositely to the inner end surface 4 of the short fiber 2 at a prescribed interval and a vessel integrally housing/fixing them, a single mode fiber(SMF) is used as the short fiber 2. In such a case, the mode field diameter D1 of the inner end surface 4 of the side opposite to the light receiving element 3 of the single mode fiber constituting the short fiber 2 is preferably enlarged by thermal diffusion.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receptacle type surface mount type light receiving module for receiving an optical signal transmitted through an optical fiber constituting an optical transmission line.

[0002]

2. Description of the Related Art Generally, an optical coupling system in a light receiving module of this type couples a light receiving element and an optical fiber by lens coupling or direct coupling. Direct coupling is advantageous for miniaturization and thickness reduction as compared to lens coupling, and is mainly used in surface mount type light receiving modules. In particular, a so-called receptacle type surface mount type light receiving module having a base for making an optical fiber connector detachable has been widely used because of its excellent mounting work and handleability at a user level.

[0003]

The receptacle type surface mount type light receiving module (hereinafter simply referred to as "light receiving module") comprises a receptacle for detachably connecting a connector of an optical fiber constituting an optical transmission line, A short fiber having a predetermined length in which a ferrule for introducing an optical signal is coaxially attached to the outer periphery of the outer end face, a light receiving element arranged to face the inner end face of the short fiber at a predetermined distance, and these are integrated. Multimode fiber (MMF) as a short fiber
Is used, and the light receiving element has a light receiving diameter of 80 μm.
It is common to use a light receiving element of the order.

With a light receiving element having such a large light receiving diameter, even if the light receiving element is directly coupled using a short fiber made of a multimode fiber having a large numerical aperture, the positional deviation tolerance with respect to the light receiving element (hereinafter simply referred to as "tolerance"). Was sufficient, and there was no problem in reliability and manufacturing yield due to the assembly accuracy of the light receiving module.

However, when a light receiving element having a small light receiving diameter is used, a sufficient tolerance cannot be secured with the numerical aperture of the multimode fiber, which causes a problem in reliability and manufacturing yield. For example, an avalanche photodiode (hereinafter, referred to as “APD”) is a light-receiving element that is advantageous for high-speed, long-distance transmission, and has a light-receiving diameter of 30 to 50 μm.
m. Therefore, when a multimode fiber is used as the short fiber, the spread of the laser light emitted from the multimode fiber toward the light receiving element is about 50 μm as described above, so that sufficient tolerance can be secured. difficult. In particular, when an APD having a light receiving diameter of about 30 μm is used, the coupling efficiency is extremely reduced as it is.

Accordingly, the present invention has been made in view of the above-mentioned problems in the prior art, and has been made in view of the above-mentioned problem.
Provide a receptacle-type surface-mounted light-receiving module that can secure sufficient tolerance for light-receiving elements such as PDs and that does not cause problems in reliability and manufacturing yield caused by light-receiving module assembly accuracy. The purpose is to do.

[0007]

According to the first aspect of the present invention,
A receptacle for detachably connecting an optical fiber connector constituting an optical transmission line, a short fiber of a predetermined length to which a ferrule is coaxially mounted, and a predetermined length facing the inner end face of the short fiber at a predetermined interval. In the receptacle type surface mount type light receiving module comprising a light receiving element and a receptacle for integrally receiving and fixing the receptacle, the short fiber and the light receiving element, a single mode fiber is used as the short fiber. Features.

According to a second aspect of the present invention, the mode field diameter of the inner end face of the single mode fiber constituting the short fiber on the side facing the light receiving element is enlarged by thermal diffusion.

According to a third aspect of the present invention, an avalanche photodiode is used as the light receiving element.
The length of the single mode fiber constituting the short fiber is 10 mm, the mode field diameter of the inner end face of the single mode fiber on the side facing the avalanche diode is 20 to 40 μm, and the avalanche is -The distance from the light receiving surface of the diode is set to 100 µm.

According to the first aspect of the present invention, a single mode fiber is used as the short fiber, and the numerical aperture of the single mode fiber is smaller than that of the multimode fiber. The spread of the laser light emitted toward the element is reduced, and sufficient tolerance for the light receiving element can be obtained. Therefore, even a light receiving element having a small light receiving diameter can be used.

According to the second aspect of the present invention, the mode field diameter of the inner end face of the single mode fiber constituting the short fiber on the side facing the light receiving element is enlarged by thermal diffusion to further increase the numerical aperture. Because it is small,
The spread of the emitted laser light can be further reduced, and a light receiving element having a light receiving diameter of about 30 to 50 μm can be used.

According to the third aspect of the present invention, an APD suitable for high-speed and long-distance transmission as a light receiving element of a light receiving module.
Can be used.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a specific example of an embodiment of a receptacle type surface mount type light receiving module according to the present invention will be described with reference to FIGS.

As shown in FIG. 2, a short fiber 2 having a length of 10 mm to which a ferrule 1 is coaxially mounted is arranged in a container 7, and as shown in FIG. 2. The distance L between the inner end face 4 and the inner end face 4 is 100
It is arranged opposite to the optical axis extension so as to be μm, and is directly coupled to the short fiber 2. In addition, short fiber 2
An optical fiber connector (not shown) constituting an optical transmission path is connected to the outer end face 5 of the optical disc 1, and is configured so as to be detachably coupled by a receptacle 6, as shown in FIG.

The ferrule 1, the short fiber 2, the light receiving element 3, and the receptacle 6 are hermetically sealed and fixed in a container 7, and an optical signal (laser light) sent from an optical transmission line is transmitted to the short fiber 2. Introduced from the outer end face 5 and the inner end face 4
From the light-receiving element 3.

According to the present invention, in a light receiving module having such a structure, as shown in FIG. 1, an avalanche photodiode (APD) having a light receiving surface 8 having a diameter of 30 to 50 μm is used as the light receiving element 3. At the same time, a single mode fiber (S
MF), and an AP constituting the light receiving element 3
The mode field diameter D ₁ of the inner end face 4 of the short fiber 2 on the side facing D is set to 20 to 40 μm.

The mode field diameter D ₂ on the outer end face 5 side of the short fiber 2 to which the optical fiber constituting the optical transmission line is connected remains at 10 μm which is the original mode field diameter of the single mode fiber. The outer end face 5 is polished to a convex spherical shape by PC (phisical contact).

The mode field diameter D ₁ of the inner end face 4 of the short fiber 2 composed of a single mode fiber is set to 20 to 40 μm.
In order to obtain m, the inner end face 4 side of the short fiber 2 is heated by a micro burner, the core is expanded by the principle of heat diffusion, and the numerical aperture (NA) of the expanded core is set to the numerical aperture of a normal single mode fiber. What is necessary is just to make it about 50-70% smaller than 0.1. Thereby, the mode field diameter D ₁ of the inner end face 4 is obtained.
Can be set to 20 to 40 μm.

The reason why the numerical aperture of the inner end face 4 is reduced as described above is that the difference in the refractive index between the core and the clad is reduced by thermal diffusion. The numerical aperture of the core enlarged portion is set to 0.03-0.
Mode field diameter D ₁ is set to 20 to 40 μ
Assuming that a laser beam having a wavelength of 100 μm is used, the spread at a position 100 μm away is D = (100 × tan θ) × 2 where θ = sin −1 (numerical aperture), and D = 6 ~
10 μm. From this calculation result, the mode field diameter D ₁ of the laser beam emitted from the inner end surface 4 in the case of using a single mode fiber 20 to 30 [mu] m 100
The optical circle diameter at a position apart by μm is 26 to 50 μm, and sufficient tolerance can be obtained even with an APD having a light receiving diameter of 30 to 50 μm.

Actually, in order to manufacture the short fiber 2 satisfying the above conditions, a single mode fiber having a length of about 20 mm including a surplus length or a single mode fiber before being cut into a fixed size is heated by a micro burner. I do. Heating range is 10
mm. The enlargement of the core portion utilizes the principle of thermal diffusion, and a desired mode field diameter can be obtained by heating temperature and heating time. The refractive index of the thermal diffusion is the mode field diameter D ₁ of the portion of the inner end surface 4 of the short fiber 2 exhibits a refractive index profile of graded index type.

The mode field diameter gradually decreases as the distance from the center of heating increases, and outside the heating range, it becomes the original mode field diameter of the single mode fiber. FIG.
Referring to the mode field diameter D ₁ of the inner end surface 4 is about 20 to 40 [mu] m, and gradually decreases toward the outer end face 5 (FIG. 2), the mode field diameter D ₂ at the outer end face 5 parts This is about 10 μm, which is the original mode field diameter of the single mode fiber. When the mode field diameter D ₁ of the inner end face 4 is 20 to 40 μm, the numerical aperture of the inner end face 4 is 0.03 to 0.05 as described above. The relationship between the numerical aperture and the refractive index is given by the following equation.

(Equation 1)

Next, the operation of the receptacle type surface mount type light receiving module having the above configuration will be described.

As shown in FIG. 2, an optical signal (laser light) transmitted through an optical fiber constituting an optical transmission line.
Enters the short fiber 2 from the outer end face 5 of the short fiber 2 polished by the PC. The laser beam incident on the short fiber 2 propagates through the short fiber 2 and is emitted from the opposite inner end face 4 toward the light receiving surface 8 of the light receiving element 3.

The inner end face 4 of the short fiber 2 made of a single mode fiber has a mode field diameter D ₁ of about 20 to 40 μm due to thermal diffusion as described above, so that the numerical aperture is 0.03 to 0. It is about 0.05, and emission light with a one-sided emission angle of about twice is obtained.

The radiated light emitted from the inner end face 4 of the short fiber 2 propagates through a space of 100 μm in space and
It spreads by about μm, becomes a light spot having an optical circle diameter of 26 to 50 μm, and is directly coupled to the light receiving element 3 of the APD having a light receiving diameter of 30 to 50 μm.

In this manner, sufficient tolerance for the light receiving element 3 can be obtained, and an optical signal can be received without lowering the coupling efficiency.

[0027]

According to the first aspect of the present invention, since a single mode fiber is used as the short fiber, a sufficient tolerance can be ensured even for a light receiving element having a small light receiving diameter. It is possible to provide a high-quality light-receiving module that does not cause problems in reliability and manufacturing yield due to accuracy.

According to the second aspect of the invention, since the mode field diameter of the inner end face of the single mode fiber constituting the short fiber on the side facing the light receiving element is enlarged by thermal diffusion, the laser to be emitted is The spread of light can be further reduced, and a light receiving element having a smaller light receiving diameter can be used.

According to the third aspect of the present invention, an APD optimal for high-speed and long-distance transmission can be used as a light receiving element, so that higher-quality optical transmission can be realized as compared with the related art.

[Brief description of the drawings]

FIG. 1 is a perspective view of an essential part showing an embodiment of a receptacle type surface mount type light receiving module according to the present invention.

FIG. 2 is a cross-sectional view showing the overall structure of the receptacle-type surface-mounted light-receiving module of FIG.

FIG. 3 is a partially enlarged view of a short fiber of the receptacle type surface mount type light receiving module of FIG. 1;

[Explanation of symbols]

Reference Signs List 1 ferrule 2 short fiber (single mode fiber) 3 light receiving element (APD: avalanche photodiode) 4 inner end face of short fiber 5 outer end face of short fiber 6 receptacle 7 container 8 light receiving face D ₁ mode field diameter on inner end face mode field diameter D ₂ the outer end surface side

Claims (3)

[Claims] 1. A receptacle for detachably connecting an optical fiber connector constituting an optical transmission line, a short fiber having a predetermined length to which a ferrule is coaxially attached, and a predetermined distance from an inner end face of the short fiber. In a receptacle type surface mount type light receiving module comprising a light receiving element disposed opposite to the light receiving element, and a container for integrally receiving and fixing the receptacle, the short fiber and the light receiving element, a single mode fiber is used as the short fiber A receptacle type surface mount type light receiving module characterized by using: 2. The receptacle type surface according to claim 1, wherein a mode field diameter of an inner end face of said single mode fiber constituting said short fiber on a side facing said light receiving element is enlarged by thermal diffusion. Mounting type light receiving module. 3. An avalanche photodiode is used as the light receiving element, and the length of the single mode fiber constituting the short fiber is 10 mm, and the length of the single mode fiber on the side facing the avalanche diode is Mode field diameter of end face is 20-40μ
3. The receptacle type surface mount type light receiving module according to claim 2, wherein the distance between the inner end surface and the light receiving surface of the avalanche diode is 100 μm.