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40g or 100g optical component transmission based on wavelength division multiplexing technology

A technology of wavelength division multiplexing and optical components, which is applied in the direction of optical components, optical waveguide coupling, and light guides, can solve the problems of large power deviation, affecting the sensitivity of the receiving end, and decreased flatness, so as to reduce power deviation and reduce The effect of reducing component cost and optical path loss

Active Publication Date: 2018-03-27
四川华拓光通信股份有限公司
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Problems solved by technology

[0005] First, this patented technology integrates the functions of the receiving end and the sending end. When the receiving end is used in practice, because the degree of each standard thin-film filter is fixed, it is set to 45 degrees. Therefore, when performing the light receiving operation, because The difference in the polarization direction of the light will directly affect the sensitivity of the receiving end, that is, the responsivity of the photodiode, and then affect the performance parameters of the optical component;
[0006] The second is that the patented technology integrates the functions of the receiving end and the sending end, and the sending end can be obtained from the attached figure 1 It can be seen that when the four laser emitting mechanisms emit corresponding optical signals, when the light is transmitted to the light-receiving side, some laser emitting mechanisms directly reach the light-incoming side through a standard thin-film filter, and some laser emitting mechanisms pass through two The standard thin-film filter reaches its light-incident side, and some laser emitting mechanisms have to pass through three standard thin-film filters to reach its light-incident side, which makes the output light of each laser emitting mechanism pass through different numbers of standard filters. , so that the light loss is different. For example, the light loss of the output light passing through only one standard filter may only be 0.1-0.5db, while the light loss of the output light passing through three standard filters will reach 1.5db, or even more High, resulting in a large power deviation between different channels due to different optical paths, and then the flatness of the four output light beams coupled to the light incident side is greatly reduced, further affecting the performance parameters of the optical components, making it impossible Meet the same requirements of using planar optical waveguide and gold wire bonding technology

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  • 40g or 100g optical component transmission based on wavelength division multiplexing technology
  • 40g or 100g optical component transmission based on wavelength division multiplexing technology

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[0035] The present invention / invention will be described in further detail below in conjunction with the accompanying drawings, so that those skilled in the art can implement it with reference to the description.

[0036] It should be understood that terms such as "having", "comprising" and "including" as used herein do not entail the presence or addition of one or more other elements or combinations thereof.

[0037] figure 2 It shows an implementation form of 40G or 100G optical component transmission based on wavelength division multiplexing technology according to the present invention, including:

[0038] Light receiving unit;

[0039] A light output unit, which includes four laser emitting mechanisms 6, 7, 8, 9 with a rate of 10G or 25G;

[0040]Wherein, the output light of each said laser emitting mechanism passes through two thin-film filters 3, 4, 5 respectively in any mode of transmission and / or reflection, reflection and / or transmission, and the incident light of...

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Abstract

The invention discloses a 40 G or 100 G optical assembly emitting end based on the wavelength division multiplexing technology. The optical assembly emitting end comprises a light receiving unit and a light emitting unit, and the light emitting unit comprises four laser emitting mechanisms with the rate of 10 G or 25 G. Output light of the laser emitting mechanisms is guided through the light-in side of the light receiving unit by means of two film filters in a transmission and / or reflection mode or a reflection and / or transmission mode, so that the light receiving unit and the light emitting unit form a light transmission scheme of the 40 G or 100 G optical assembly emitting end in space. By means of the 40 G or 100 G optical assembly emitting end based on the wavelength division multiplexing technology, each laser light-emitting diode can pass through the two wavelength division filters in the optical conduction process, then, the light loss of coupled light is made average, the flatness of input light of the light receiving unit is high, and it is guaranteed that performance parameters meet the same requirements of technologies adopting planer optical waveguides, gold wire bonding and the like.

Description

technical field [0001] The invention relates to a receiving end scheme in a 40G / 100G optical component used in optical communication. More specifically, the present invention relates to a 40G or 100G optical component transmission based on wavelength division multiplexing technology in the case of optical communication. Background technique [0002] With the advent of the Internet + era, data processing and transmission have been rapidly discovered, the rapid growth of e-commerce, massive video services, etc. all indicate that the data exchange industry is developing towards higher transmission rates. 40G and 100G optical modules The market demand is also becoming more and more urgent. However, as the core component of the optical module, the optical transceiver component is hindering the further promotion and application of 40G and 100G optical modules due to its superb technology and complex process. [0003] At present, 40G and 100G optical transceiver components on the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B6/42
CPCG02B6/4204G02B6/4215G02B6/4225G02B6/4296
Inventor 范巍刘金
Owner 四川华拓光通信股份有限公司
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