Power supply topology for lidar system onboard UAV platform

International Symposium on Lidar and Radar Mapping Technologies Pub Date : 2011-06-12 DOI:10.1117/12.912607

Guoqing Zhou, Jiazhi Yang, Xincheng Yu, Wei Zhu

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引用次数: 8

Abstract

Laser diode adopted in LiDAR (Light Detection And Ranging) onboard a small low-cost UAV (Unmanned Aerial Vehicle - UAV) platform usually requires its carried components to be light in weight, small in volume, and specially efficient in energy supply. A DC-DC converter and a fast switch are often applied for the traditional power supply to drive the LiDAR system. This traditional method is not proper for application in a UAV platform. This paper provides a novel power supply topology, which consists of two coupled coils, pulse generator circuit, and a fast switch. The power supply topology has been designed, assembled, tested, and confirmed to generate pulse voltage of 100-300 V, up to 120 A pulse current, 50-200 μs pulse width, and 50 Hz maximum pulse frequency. The driver circuit is very simple, but could restrain current surge efficiently. This ensures that the laser diode does not be disturbed. It is demonstrated that it is sufficient to drive a laser diode used in LiDAR onboard UAV, and meets the requirement of weight and volume. Now the driver has been manufactured for application in UAV-based airborne lidar sample system.

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无人机平台上激光雷达系统的电源拓扑

小型低成本无人机(UAV)平台上激光雷达(LiDAR)所采用的激光二极管通常要求其携带的组件重量轻、体积小，并且在能源供应方面特别高效。传统电源驱动激光雷达系统通常采用DC-DC变换器和快速开关。这种传统方法不适合在无人机平台上应用。本文提出了一种新颖的电源拓扑结构，它由两个耦合线圈、脉冲产生电路和一个快速开关组成。该电源拓扑已完成设计、组装、测试并确认，可产生100 ~ 300v的脉冲电压、最大120a的脉冲电流、50 ~ 200 μs的脉宽、50hz的最大脉冲频率。驱动电路结构简单，但能有效抑制浪涌电流。这就保证了激光二极管不受干扰。结果表明，该能量足以驱动用于机载无人机激光雷达的激光二极管，且满足重量和体积要求。目前已研制出用于无人机机载激光雷达采样系统的驱动器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Symposium on Lidar and Radar Mapping Technologies

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