JPS63223609A - Laser diode light source device - Google Patents

Abstract

PURPOSE:To obtain high coupling efficiency by housing a laser diode and light source into a housing, holding one end part of an optical fiber, and subjecting the housing and holder to thin soldering. CONSTITUTION:The housing 11 and the holder 14 are soldered to each other in respective soldering parts 11a, 14a. The housing 11 houses the laser diode 12 and a lens 13 for converging the light emitted therefrom. The holder 14 holds one end of the optical fiber 15 in the position where the light converges. The soldering parts 11a, 14a are formed thinner than the parts near the same. The adjustment of position at the time of assembling the device may be executed merely to the housing 11 and the holder 14. The quantity of the heat transmitted from the soldering parts 11a, 14a to the entire part at the time of soldering is small and the relative positional deviation of the housing 11 and the holder 14 by a temp. fluctuation is less. The high coupling efficiency is thereby obtd. and the assembly is facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a laser diode light source device for inputting light into an optical fiber using a laser diode (LD) as a light source.

[Summary of the invention]

In the laser diode light source device as described above, the present invention accommodates the laser diode and the light source in a housing, holds one end of the optical fiber in a halter manner, and connects the housing and the holder with a relatively thin soldered part. Although high coupling efficiency can be obtained by soldering, assembly is easy, and high coupling efficiency can be stably maintained.

[Conventional technology]

As devices for optically connecting an LD and an optical fiber and making light from the LD enter the optical fiber, devices that directly couple the two, devices that use a ball lens, and the like are conventionally known.

In a device in which an LD and an optical fiber are directly coupled, the end face of the optical fiber is placed directly in the vicinity of the light emitting part of the LD. Furthermore, in a device using a ball lens, the light from the LD is converged by the ball lens, and the converged light is made to enter the optical fiber. In either device, the entire device is assembled using an organic adhesive.

[Problem that the invention seeks to solve]

However, although the direct coupling type device has a simple structure, the coupling efficiency is low.

Furthermore, it is possible to obtain high coupling efficiency with a device using a ball lens, but it is difficult to assemble the device because the position adjustment of the optical path system such as the ball lens is complicated, and the entire device is made of organic adhesive. Because they are assembled by bonding, there is a large relative positional shift between the parts due to temperature fluctuations. Therefore, even if a high coupling efficiency is obtained using a ball lens, this high coupling efficiency cannot be stably maintained. I can't.

[Means for solving problems]

In the laser diode light source device according to the present invention, the housing 11 and the holder 14 have soldered portions 11a and 14, respectively.
The housing 11 is connected to a laser diode 12 and the laser diode 1 is soldered to each other at a.
The holder 14 holds one end of the optical fiber 15 at the position where the light is converged, and the holder 14 houses a lens 13 that converges the light emitted from the housing 1 .
1 and the soldering part 11a in the holder 14,
14a are thinner than their neighboring parts.

[Effect]

In the laser diode light source device according to the present invention, a laser diode 12 and a lens 13 are housed in a housing 11, and one end of an optical fiber 15 is held in a holder 14. Therefore, although the lens 13 is used to obtain high coupling efficiency, only the housing 11 and the holder 14 need be adjusted in position when assembling the device.

In addition, since the housing 11 and the holder 14 are soldered, relative positional displacement between the housing 11 and the holder 14 due to temperature fluctuations is less than when using an organic bonding side or the like.

In addition, since the soldering portion 113% 14a of the housing 11 and the holder 14 is thinner than the adjacent portions thereof, the soldering prevents heat conducted from the portion 118% 14a to the entirety of the housing 11 and the holder 14. The amount is small, and this also reduces relative positional deviation between the housing 11 and the holder 14 due to temperature fluctuations.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

In the laser diode light source device of this embodiment, an LD 12 and a lens 1 are installed in a housing 11 made of metal and shaped like a cylinder.
3 is accommodated. The lens 13 is rod-shaped and may be a refractive index variable lens or the like.

On the other hand, one end portion of an optical fiber 15 is held at the center of the bottom surface of the holder 14, which is made of metal and has a nearly cylindrical shape.

The housing 11 and the holder 14 are soldered in part 1.
1a and 14a are fixed to each other with solder 16. These soldering parts 11a and 14a are plated with gold in advance to facilitate soldering.

In the housing 11, the thin flange portion is a soldered portion 11a. Moreover, in the holder 14,
A recess 14b is formed by a cut in the vicinity of the end face on the opposite side from the part holding the optical fiber 15, and the thin part formed by this recess 14b becomes the soldering part 14a. .

The inner diameter of the portion of the holder 14 that fits into the housing 11 is 0.5 to 0.05 mm larger than the outer diameter of the portion of the housing 11 that accommodates the LD 12. Therefore, the holder 14 is moved relative to the optical axis 13a of the lens 13 in a direction perpendicular to the optical axis 13a, and the holder 14 is
The relative positions of the housing 11 and the holder 14 are adjusted so that one end of the optical fiber 15 is positioned at the convergence point of the light emitted from the lens 13 by relatively moving the housing 11 and the holder 14 in a direction parallel to a. ing.

Therefore, in this embodiment, the light emitted from the LD 12 is converged by the lens 13, enters the optical fiber 15, and propagates through the optical fiber 15.

〔Effect of the invention〕

In the laser diode light source device according to the present invention, only the housing and the holder need to be adjusted in position when assembling the device, so that assembly is easy even though high coupling efficiency can be obtained.

Moreover, since there is little relative displacement between the housing and the holder due to temperature fluctuations, high coupling efficiency can be stably maintained.

[Brief explanation of drawings]

The drawing is a side sectional view of one embodiment of the present invention. In addition, in the symbols used in the drawings, 11----------------- Housing 11a-----m----11--Soldering is part 12.
------ -------Holder 14a--
・−・−・−−−−−−1 Soldering part 14b−・−・−
-1--Concavity 15--Optical fiber 16--Solder.

Claims (1)

[Claims] 1. A housing and a holder are soldered to each other at respective soldering portions, and the housing accommodates a laser diode and a lens that converges light emitted from the laser diode. A laser diode light source device, wherein the holder holds one end of the optical fiber at a position where the light is converged, and the soldered portions of the housing and the holder are thinner than their neighboring portions. 2. The laser diode light source device according to claim 1, wherein the soldering portion is formed by a flange portion. 3. The laser diode light source device according to claim 1, wherein the soldering portion is adjacent to a recess, and the soldering portion is made thin due to the recess.