Refrigeration coaxial light-emitting pipe core

Abstract

The invention provides a refrigeration coaxial light-emitting pipe core, which comprises a TO (transmission optical) pipe shell and a sealing pipe cap with a light window. The TO pipe shell comprises a pipe shell base and a laser mounting sleeve connected with the pipe shell base in a sealing way, the pipe shell base is provided with a plurality of pins electrically connected with an external system, the inner sidewall of the laser mounting sleeve is provided with a mounting platform, a heat dissipating surface of a refrigerator is arranged on the surface of the mounting platform, a refrigeration surface of the refrigerator is used for the arrangement of a laser carrier, the surface of the laser is provided with an electro-absorption modulated n laser chip, a thermistor and a backlight detector, and the light-emitting optical axis of the laser chip is arranged coaxial with the central axis OA of the TO pipe shell and is output by the light window of the sealing pipe cap. Heat dissipation of the whole device is achieved by the laser mounting sleeve instead of the base of the traditional TO pipe shell, and the problem of laser cooling is solved. The pipe core with the structure is coupled with an external optical element of the TO pipe shell to manufacture the light-emitting component with the appearance complying with multi-source agreements XMD (Xilinx microprocessor debugger) for small devices of 10 Gb/s.

Description

technical field [0001] The invention relates to a light emitting tube core for an optical communication system, in particular to a cooling coaxial light emitting tube core. Background technique [0002] There are two types of light emission dies with cooling in optical communication systems, one such as figure 1 The Chinese invention patent application number shown is CN200510007732.4, which is used in the surface mount type light emitting component described in figure 2 The light emitting die 100 shown is composed of an externally modulated laser chip 101, a backlight detector 104, a silicon optical bench 107 with a matching resistor 105 and a microstrip line 106, a thermoelectric cooler 108, a thermistor 109. Components such as a collimating lens 110, an optical isolator 111, and a focusing lens 112 are assembled in a square metal shell 114 with a multilayer ceramic RF signal feed-in interface 113, and the lead wires 115 are horizontally arranged in the square metal shel...

AI Technical Summary

Problems solved by technology

In this structure, the laser chip 201 is mounted horizontally on the carrier 205, causing the optical axis of the laser chip 201 to be located in the horizontal direction and perpendicular to the direction of the optical axis OA of the external optical fiber adapter (also the central axis of the TO socket 207). 204 to rotate the optical axis of the laser chip 201 to the direction of the optical axis OA of the fiber optic adapter, the manufacturing process is complicated and the cost is high

The modulation signal of the laser is fed in through the connection between the carrier 205 and the pin 209 at the bottom of the tube base 207 using a conductive wire 210 by pressure welding. This connection method causes the modulation signal feed-in circuit to have a serious impedance discontinuity problem, especially in The signal will be severely...

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