Aluminum-air battery with cotton substrate:Controlling the discharge capacity by electrolyte pre-deposition

Conventional Al-air battery has many disadvantages for miniwatt applications,such as the complex water management,bulky electrolyte storage and potential leakage hazard.Moreover,the self-corrosion of Al anode continues even when the electrolyte flow is stopped,leading to great Al waste.To tackle these issues,an innovative cotton-based aluminum-air battery is developed in this study.Instead of flowing alkaline solution,cotton substrate pre-deposited with solid alkaline is used,together with a small water reservoir to continuously wet the cotton and dissolve the alkaline in-situ.In this manner,the battery can be mechanically recharged by replacing the cotton substrate and refilling the water reservoir,while the thick aluminum anode can be reused for tens of times until complete consumption.The cotton substrate shows excellent ability for the storage and transportation of alkaline electrolyte,leading to a high peak power density of 73 mW cm^(-2) and a high specific energy of 930 mW h g^(-1).Moreover,the battery discharge capacity is found to be linear to the loading of pre-deposited alkaline,so that it can be precisely controlled according to the mission profile to avoid Al waste.Finally,a two-cell battery pack with common water reservoir is developed,which can provide a voltage of 2.7 V and a power output of 223.8 mW.With further scaling-up and stacking,this cotton-based Al-air battery system with low cost and high energy density is very promising for recharging miniwatt electronics in the outdoor environment.

一种阻隔板结合烘干功能的多功能扫地机器人

针对目前扫地机器人普遍存在价格高、功耗大、无法合理解决地面水渍等问题,提出一种阻隔板结合烘干功能的多功能扫地机器人设计,对相关扫地机器人进行了改良。综合效率、功率等因素,选用2HB064M混合式驱动器和86BYG2503的步进电机;对出水装置进行了改良,采用阻隔板控制并用卡扣固定;采用小功率烘干装置来清除地面水渍,该设计主要解决的是地面水渍问题。并对样机试验的结果分析,校核了部件参数,让整机的结构更符合真实环境使用。

太阳能光伏电源在智能控制系统中的应用研究

提出了一种由太阳能光伏电池和蓄电池联合供电的小功率、低功耗智能控制系统电源设计方案。阐述了太阳电池的工作原理及蓄电池的四阶段充电过程,设计了太阳电池与蓄电池之间的切换电路,给出了以UC3909为核心的四阶段充电方式具体电路。最后将测试样机应用到智能温棚控制系统中。实践表明,该方案符合设计要求,对于小功率、低功耗智能控制系统的电源设计具有实际应用意义,尤其在电源紧缺的偏远山区更具有推广价值。

激光结构光测量连续调节智能光源控制器设计

激光结构光视觉测量过程中被测物体的表面材质差异、表面几何曲率大小均会影响到实际采集的激光光斑图像质量,从而影响到测量数据处理的精确度和准确性。为了适应工业测量中多变的被测对象特性和使用环境,对结构光源的激光二极管进行电流控制。在分析m W级别小功率激光二极管工作特性的基础上,提出了一种使用上位机和ARM微控制器的微小功率半导体激光器智能控制器的低成本设计方案。研究了数字PWM信号驱动激光二极管的技术,使用ARM微控制器生成PWM信号输出,然后PWM数字信号通过光电隔离的阻容滤波电路、运放电压跟随、调理电路以及压控恒流源电路(V-I)驱动半导体激光二极管的电流大小。激光控制器的PWM信号的占空比、基准频率通过上位机串行Modbus协议通讯进行快速设定。系统经过激光结构光投影成像实验进行验证,适时调整激光结构光输出强度大小,可优化激光视觉测量系统的测量输出和适应性。通过实验验证的结果表明,系统可以稳定运行。

工业电源小功率器件的散热设计

针对工业电源恶劣的工作环境,对工业电源小功率器件的散热设计进行了探讨。给出了工业电源小功率器件几种散热方案,并对它们的安规、工艺、成本、散热性能等进行了详细的分析和对比。这几种散热方案各有优缺点,具体应用需根据工业电源的成本及应用环境等各方面的因素来选择性价比最高的方案。

充电式小功率LED灯具电路结构及主要参数计算

采用电容器降压和限流,不仅实现了对充电式小功率LED灯具的多项安康性能设计,同时还对电网无功功率进行了补偿;从而将该灯具推向了经济可靠与安全健康兼顾的善美境界。