| CPC B62D 6/00 (2013.01) [A01D 34/008 (2013.01); G01S 7/4817 (2013.01); B62D 5/0457 (2013.01)] | 4 Claims |
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1. A LiDAR system, comprising:
a first data transmission apparatus and a second data transmission apparatus, wherein the first data transmission apparatus and the second data transmission apparatus are located in the LiDAR system; and
a rotator and a central shaft, wherein the rotator is connected with the central shaft through a bearing, the rotator is connected to a bearing rotor, and the central shaft is connected to a bearing stator, wherein
the first data transmission apparatus comprises a first optical module and a second optical module;
the first optical module comprises a first demodulation circuit and a first receiver;
the second optical module comprises a second emitter and a second modulation circuit;
the second optical module is arranged on the bearing stator;
the second modulation circuit is configured to modulate a second digital signal output by an upper application apparatus into an optical signal;
the second emitter is configured to receive the optical signal output by the second modulation circuit, and used as an emitting terminal of the second optical module for emitting the optical signal to the first receiver;
the first optical module is arranged on the bearing rotor, and the first receiver of the first optical module is used as a receiving terminal of the first optical module for receiving the optical signal, and outputting the optical signal to the first demodulation circuit;
the first demodulation circuit is configured to demodulate the optical signal into the second digital signal, and send the second digital signal to a radar front-end apparatus;
the first receiver and the second emitter are oppositely arranged on an axis of the central shaft;
the second data transmission apparatus comprises a third optical module, a coupling optical system, and a fourth optical module;
the third optical module is disposed on the rotator, and the fourth optical module is disposed on the center shaft;
the coupling optical system comprises an annular lens, and the annular lens is eccentrically arranged around the central shaft;
a receiving terminal of the fourth optical module is arranged at an image-side focal plane of the annular lens;
the third optical module is configured to receive a first digital signal output by the radar front-end apparatus, and convert the first digital signal into an optical signal, and emitting the optical signal to the annular lens in parallel to an optical axis of the annular lens;
the annular lens converges a propagation direction of the optical signal output by the third optical module, and emits the optical signal to a receiving terminal of the fourth optical module; and
the fourth optical module is configured to convert the optical signal into the first digital signal, and output the first digital signal to the radar front-end apparatus,
wherein the first data transmission apparatus further comprises a coupling optical system,
wherein the coupling optical system is arranged between the receiving terminal of the first optical module and the emitting terminal of the second optical module, and an optical lens group is arranged on the coupling optical system, and
wherein the optical lens group is configured to couple an optical signal emitted by the emitting terminal of the second optical module to the receiving terminal of the first optical module.
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