KR100498959B1 - Optical module having micro-lens plate - Google Patents

Abstract

The receiving optical module including the light receiving element according to the present invention includes an optical fiber for outputting an optical signal through one end, a substrate on which the light receiving element is mounted, and a light receiving surface of the light receiving element mounted therein. An optical package composed of a housing having a hole formed on one surface thereof facing one side thereof, and one surface thereof being in close contact with one end of the optical fiber, and the other surface thereof being formed of a lens surface for converging an optical signal input from the optical fiber to the light receiving element; And a microlens plate having the same refractive index as that of the optical fiber, a ferrule connected to the housing to support the optical fiber and the microlens plate, and the lens surface of the microlens plate to face the hole.

Description

Optical module with fine lens plate {OPTICAL MODULE HAVING MICRO-LENS PLATE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical module, and more particularly, to an optical module including an optical package capable of transmitting or receiving an optical signal and a lens system for improving light receiving efficiency between optical fibers, which is a transmission medium of the optical signal.

A general optical module includes an optical package including an active element such as a light receiving element capable of detecting an optical signal as an electrical signal or a light emitting element for outputting an electrical signal as an optical signal, and inputting or receiving the optical signal to the optical package. It includes an optical fiber that serves as an input / output medium of the optical signal, such as outputting the optical signal from the package. Therefore, the optical module serves as a transceiver for transmitting or receiving an optical signal on an optical communication network. As the above-described optical package, a thio can structure or a mini-DIL structure is used.

1 is a cross-sectional view showing a conventional optical module configuration. Referring to FIG. 1, the optical module includes an optical package 110 including a light receiving element, an optical fiber 150 serving as an input / output signal, a ferrule 120 supporting the optical fiber 150, and A lens system for converging the optical signal output from the optical fiber 110 with the stub 140 for preventing the deviation of the optical signal path due to the difference in refractive index at the interface by being in close contact with the interface of the optical fiber 130 and the like.

The optical package 110 includes a light receiving element 112 for converting and detecting an optical signal into an electrical signal, a stem 113 for supporting the light receiving element, and a housing extending from an upper surface of the stem 113. 111) and the like. As the optical package path 110, in addition to the above-described thio can structure, a mini-DIL structure in which an active element capable of performing a light receiving or emitting function is disposed on an upper surface of a semiconductor substrate. have.

The housing 111 extends from an upper surface of the stem 113 and protects the elements constituting the optical package 110 from an external environment. In addition, the housing 111 has a sight glass 111a having a predetermined size so that an optical signal can be input and output.

The stem 113 has the light receiving element 112 mounted on an upper surface thereof, and a plurality of lead wires 114 are electrically connected to the driving circuits to drive the light receiving element 112.

The light receiving element 112 is mounted at a predetermined position on the upper surface of the stem 113, and detects an optical signal input through the sight glass 111a. Active devices applicable to the optical package 110 include light emitting devices such as semiconductor lasers that can output electrical signals as optical signals in addition to the light receiving devices described above. The active elements described above are connected to a plurality of leads for providing a driving current or the like.

The optical fiber 150 is supported by the ferrule 120, and serves to output an optical signal or to input the optical signal according to the type of the active device constituting the optical package 110.

The stub 140 is made of a material having the same refractive index as that of the optical fiber 150, and is positioned to closely adhere to one end of the optical fiber 150 between the optical fiber 140 and the optical package 110. That is, the stub 140 serves to prevent the optical signal output through one end of the optical fiber 150 from changing its path due to the difference in refractive index at the interface of the optical fiber 150.

The lens system 130 converges the optical signal input from the stub 140 to the light receiving element 112, generally a spherical or aspherical lens or the like can be used.

That is, in the conventional optical module, an optical receiving module, an optical transmitting module, and the like are used according to their functions, and the above-described stub and lens system are used to improve the optical coupling efficiency between the optical fiber and the optical package.

However, the optical coupling means constituting the conventional optical module includes a separate stub and a lens system, respectively, so that the time required for the optical axis alignment and assembly process is increased, and thus the size of the optical module is not easily reduced. have.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide an optical module that can simplify the manufacturing process and minimize its volume.

Receiving type optical module including a light receiving element in the present invention to achieve the above object,

An optical fiber for outputting an optical signal through one end;

An optical package comprising a substrate on which the light receiving element is mounted, and a housing in which the substrate is mounted and a hole formed on one surface of the light receiving element facing the light receiving surface;

A microlens plate whose one surface is in close contact with one end of the optical fiber, and the other surface is formed of a lens surface for converging an optical signal input from the optical fiber to the light receiving element and has the same refractive index as the optical fiber;

And a ferrule connected to the housing to support the optical fiber and the microlens plate, and the lens surface of the microlens plate to face the hole.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention; In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

2 is a cross-sectional view showing the configuration of a light receiving type optical module having a thiocan structure including a fine lens plate according to the present invention. 2, the optical module according to the present invention fixes a receiving optical package 210, an optical fiber 240 which is an input / output medium of an optical signal, and the optical fiber 240 to one side of the optical package 210. And a fine lens plate 230 for improving light receiving efficiency between the optical fiber 240 and the optical package 210.

The optical fiber 240 outputs the optical signal input therein to the optical package 210 through an output terminal. The optical package 210 includes a light receiving element 212, a substrate 213 for fixing the light receiving element 212, and a housing 211 on which the substrate 213 is mounted, thereby providing the optical fiber 240. The optical signal inputted from) is detected. The optical package has a thiocan structure, and a photodiode or the like may be used as the light receiving element 212. It is also applicable to the optical package Mini-DIL structure.

The housing 211 covers the upper surface of the substrate 213, and the inside of the housing 211 is sealed to prevent the light receiving element 212 from being exposed to an external environment. In addition, the housing 211 has a hole 211a formed at one side thereof so that the light receiver 212 can receive an optical signal.

The fine lens plate 230 is positioned between the hole 211a and the optical fiber 240, one end 230a is in close contact with one end of the optical fiber 240, the other end is the optical fiber ( The lens surface 230a for converging the optical signal input therefrom into the light receiving element is molded. The microlens plate 230 uses the same material as the optical fiber 240 to prevent a path change of the optical signal due to the difference in refractive index at the interface of the optical fiber 240. In addition, by forming the lens surface 230a of a predetermined curvature at the other end, the optical signal passing through the inside can be converged to the light receiving element as much as possible.

That is, the microlens plate according to the present invention has a flat surface that is in close contact with the output end of the optical fiber at one end thereof, and a lens surface for forming the lens surface to allow the optical signal output therein to be converged to the light receiving element as much as possible. As a result, the optical axis alignment and assembly process can be simplified. Moreover, there is an advantage that it is easy to minimize the volume of the optical module.

The ferrule 220 supports the optical fiber 240 and the microlens plate 230, and the housing (so that the lens surface 230a of the microlens plate 230 may face the hole 211a). 211).

3 is a cross-sectional view showing the configuration of an optical module having a mini-deal structure including a fine lens plate according to the present invention. Referring to FIG. 3, the transmission type optical module according to the present invention includes an optical package 310, an optical fiber 340, and a fine lens plate 320 positioned between the optical fiber 340 and the optical package 310. And a ferrule supporting the optical fiber 340 and the microlens plate 320 so that the lens surface of the microlens plate may face the hole.

The optical package 310 includes a light emitting device 360 for outputting an optical signal, a substrate 350 to which the light emitting device 360 is attached at a predetermined position, and the substrate 350 mounted therein. Mini-DIL structure includes a housing 311 in which a hole 310a is formed at one side thereof so that an optical signal output from the light emitting device 360 may pass. Although FIG. 3 illustrates a transmission optical module including a mini-deal optical package, the present invention is also applicable to an optical package including a transmission optical module of a thiocan structure.

The present invention provides an optical module including an optical package including an optical fiber which is a medium for transmitting and receiving an optical signal to and from the outside, and an optical package including an active element such as a light receiving element for receiving an optical signal or a light emitting element for transmitting the optical signal. By using a fine lens plate in which the stub and the lens system are integrated to improve the coupling efficiency, there is an advantage that the optical axis can be easily aligned, the productivity can be improved, and the volume can be achieved.

The present invention has the advantage that the optical axis alignment is easy because one end thereof is in close contact with one end of the optical fiber, and the other end includes an integrated fine lens plate having a lens surface for improving the light receiving efficiency of the optical signal. In addition, there is an advantage that the production cost and volume of the optical module can be reduced by using the integrated fine lens plate.

1 is a cross-sectional view showing the configuration of an optical module of a thiocan structure including a conventional stub;

2 is a cross-sectional view showing the configuration of a light receiving module of a thiocan structure including a fine lens plate according to a preferred embodiment of the present invention;

3 is a cross-sectional view showing the configuration of an optical transmission module having a mini-DIL structure including a microlens plate according to another embodiment of the present invention.

Claims (7)

In the receiving optical module comprising a light receiving element, An optical fiber for outputting an optical signal through one end; An optical package comprising a substrate on which the light receiving element is mounted, and a housing in which the substrate is mounted and a hole formed on one surface of the light receiving element facing the light receiving surface; A microlens plate whose one surface is in close contact with one end of the optical fiber, and the other surface is formed of a lens surface for converging an optical signal input from the optical fiber to the light receiving element and has the same refractive index as the optical fiber; And a ferrule connected to the housing to support the optical fiber and the micro lens plate, and the lens surface of the micro lens plate to face the hole. delete The method of claim 1, The optical package is an optical module having a fine lens plate, characterized in that the thiocan structure used in the optical transmitter or optical receiver. The method of claim 1, The optical package having a micro lens plate, characterized in that the mini-deal structure. In the transmission type optical module including a light emitting device, An optical package including a substrate having the light emitting element attached thereto at a predetermined position on an upper surface thereof, and a housing having the hole mounted on one side thereof to mount the substrate therein and to allow an optical signal output from the light emitting element to pass therethrough; An optical fiber which receives an optical signal output from the optical package and outputs the optical signal to the outside; Positioned between the hole and the optical fiber, one end of which is in close contact with an output end of the optical fiber, and the other end of which is formed of a lens surface for converging an optical signal output from the light emitting element to the optical fiber and has the same refractive index as that of the optical fiber A fine lens plate having; And a ferrule coupled to the housing to support the optical fiber and the micro lens plate, and the lens surface of the micro lens plate to face the hole. The method of claim 5, The optical package is an optical module having a fine lens plate, characterized in that the thiocan structure. The method of claim 5, The optical package having a micro lens plate, characterized in that the mini-deal structure.