摘要：【中文】本发明涉及一种基于望远镜光学调制器的远距离共振光无线供能装置，该装置包括发射机和接收机，所述的发射机内设有第一逆反射器和增益模块，所述的接收机内依次设有第二逆反射器和光电转换模块，所述的第一逆反射器与第二逆反射器之间形成共振光谐振腔，所述的发射机内还设有望远镜光学调制器，所述的第一逆反射器、增益模块和望远镜光学调制器沿光路依次设置，与现有技术相比，本发明具有压缩并稳定共振光、减小衍射损耗、高功率远距离稳定能量输出等优点。 【EN】The invention relates to a long-distance resonant light wireless energy supply device based on a telescope optical modulator, which comprises a transmitter and a receiver, wherein a first retro-reflector and a gain module are arranged in the transmitter, a second retro-reflector and a photoelectric conversion module are sequentially arranged in the receiver, a resonant light resonant cavity is formed between the first retro-reflector and the second retro-reflector, the telescope optical modulator is further arranged in the transmitter, and the first retro-reflector, the gain module and the telescope optical modulator are sequentially arranged along a light path.

摘要：【中文】本发明涉及一种基于检测反馈控制的共振波束通信装置，该装置包括共同构成自由空间共振腔的主机和从机，所述的从机内设有第二逆反射器所述的主机包括第一逆反射器、功率放大器和信号处理模组，所述的信号处理模组包括依次连接的分束器、探测器、信号处理器和调制器，所述的第一逆反射器、功率放大器、分束器和调制器依次沿共振波束路径设置，所述的探测器接收分束器从主机和从机之间共振波束中按设定比例分出的样本光束并输出电信号，信号处理器接收探测器输出的电信号以及携带信息的输入信号向调制器发送控制信号。与现有技术相比，本发明具有超高速率通信、可移动性和安全性高等优点。 【EN】The invention relates to a resonance wave beam communication device based on detection feedback control, which comprises a host machine and a slave machine which jointly form a free space resonant cavity, wherein a second retro-reflector is arranged in the slave machine, the host machine comprises a first retro-reflector, a power amplifier and a signal processing module, the signal processing module comprises a beam splitter, a detector, a signal processor and a modulator which are sequentially connected, the first retro-reflector, the power amplifier, the beam splitter and the modulator are sequentially arranged along a resonance wave beam path, the detector receives a sample light beam which is split by the beam splitter according to a set proportion from the resonance wave beam between the host machine and the slave machine and outputs an electric signal, and the signal processor receives the electric signal output by the detector and an input signal carrying information and sends a control signal to the modulator. Compared with the prior art, the invention has the advantages of ultrahigh-speed communication, mobility, high safety and the like.