Reconfigurable space-borne all-optical add-drop multiplexing equipment

A technology of optical add-drop multiplexing and equipment, which is applied in the field of spatial information network, can solve problems such as the inability to realize spatial wavelength division multiplexing and laser add-drop multiplexing, and achieve the effect of simple structure, compact system structure and small volume

Active Publication Date: 2016-08-24
CHANGCHUN UNIV OF SCI & TECH
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Problems solved by technology

[0005] In order to solve the problem that the existing technology cannot realize the add-drop multiplexing function of the space wavelength division multiplexing laser and is not suitable for the field of space network technology, the present invention provides a reconfigurable space-borne all-optical add-drop multiplexing device, It has simple control, low cost, small insertion loss, high channel isolation, and compact structure. The device can realize multi-channel wavelength reconfigurable functions of the same antenna in and out, and wavelength division multiplexing.

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  • Reconfigurable space-borne all-optical add-drop multiplexing equipment

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Embodiment Construction

[0017] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0018] Such as figure 1 As shown, the reconfigurable spaceborne all-optical add-drop multiplexing device includes a Cassegrain antenna 1, a coupling lens 2, a first circulator 3, a second circulator 4, a fiber Bragg grating tunable filter 5, A third circulator 6 , an optical amplifier 7 , a tunable light source 8 , an optical modulator 9 , a controller 10 and a detector 11 .

[0019] The Cassegrain antenna 1 includes a primary reflector 1-1, a secondary reflector 1-2 and a collimating mirror 1-3.

[0020] The first circulator 3, the second circulator 4, the fiber Bragg grating tunable filter 5, the tunable light source 8, the optical modulator 9, the third circulator 6, the detector 11 and the optical amplifier 7 are connected by optical fibers .

[0021] The wavelength division multiplexed spatial light is incident on the Cassegrain optical antenna 1, the...

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Abstract

The invention discloses reconfigurable space-borne all-optical add-drop multiplexing equipment, and belongs to the technical field of spatial information networks. Spatial light passes through a Cassegrain optical antenna and a coupling lens and sequentially enters a first circulator, a second circulator and a fiber Bragg grating tunable filter, wherein a part of the light is reflected, output via the second circulator and detected by a photo-detector; the remaining transmitted light passes through a fiber Bragg grating filter and a third circulator, enters an optical amplifier, enters the coupling lens via the first circulator and is finally shot out by the Cassegrain optical antenna; the controller tunes a fiber Bragg grating; meanwhile, the controller selects the wavelength of a tunable light source, so that the emitted wavelength of the tunable light source is consistent with the reflected wavelength of the fiber Bragg gratin; the light enters the fiber Bragg grating via the third circulator, is reflected by the fiber Bragg grating tunable filter and multiplexed with the light of other wavelength, enters the coupling lens via the third circulator, the optical amplifier and the first circulator, and is shot out by the Cassegrain optical antenna.

Description

technical field [0001] The invention relates to a reconfigurable space-borne all-optical add-drop multiplexing device, which belongs to the technical field of space information network. Background technique [0002] The space information network serves high-dynamic, broadband real-time transmission in aerospace measurement and control, earth observation, space science experiments, emergency rescue, etc., and can also support ultra-long-distance, long-delay reliable transmission of deep space exploration. The development direction of future space information acquisition and transmission is large capacity and ultra-broadband. Only the high-resolution earth observation system development plan requires a single-load data transmission rate of more than 30Gbit / s. Wavelength division multiplexing networking using laser link technology has become an important mode and development direction for the confidentiality and real-time transmission of large-capacity information in space. ...

Claims

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Application Information

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IPC IPC(8): H04J14/02G02B6/293G02B6/35
CPCG02B6/29304G02B6/3532H04J14/0201
Inventor 王天枢苏煜炜张鹏毕明喆李晓燕刘显著张立中姜会林
Owner CHANGCHUN UNIV OF SCI & TECH
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