Results 31 to 40 of about 9,804 (119)
ABSTRACT The development of neuromorphic electronics with visual perception and adaptive capability is highly desirable for advancing artificial vision systems. Herein, we have demonstrated a dual‐plasticity adaptive phototransistor based on IGZO nanofibers that exhibits the perception and dynamic adaptation behavior of rod and cone cells to varying ...
Shanshan Jiang +5 more
wiley +1 more source
为了研究雷击线路杆塔时埋地油气管道的防护措施对降低防腐层感应电压防护效果的影响,本文通过CDEGS软件建立了埋地油气管道、线路杆塔及接地装置的仿真计算模型,对排流带的布置方位、与管道的连接方式、与管道的距离、排流带的长度对降低防腐层感应电压的效果进行了分析,得到如下结论:排流带靠近杆塔侧敷设比背向杆塔侧敷设效果更优;排流带与管道连接点数量对管道防腐层感应电压影响不大,但管道上排流带连接点与杆塔越接近效果会稍好;排流带与管道之间的距离对管道防腐层感应电压影响不明显 ...
谭波 +5 more
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ABSTRACT The edge deployment of artificial intelligence has driven the exploitation of compact, energy‐efficient information processing systems that integrate sensing, memory, and multi‐task processing functions. However, conventional vision systems suffer from significant energy/time overhead, extra hardware costs, and an unaffordable algorithm ...
Shanshan Jiang +6 more
wiley +1 more source
500/220kV同塔四回输电线路接地开关开合感应电压—感应电流能力研究
同塔多回输电线路有效解决了电网建设与输电走廊紧缺之间的矛盾,但对接地开关提出了严苛的要求。笔者以500 kV祯宝甲乙线与220 kV东莆甲乙线同塔四回架设为例,对感应电压和感应电流进行了理论分析,采用电磁暂态仿真程序(ATP-EMTP)计算了两种不同运行工况下,停运线路的感应电压和感应电流。发现计算结果超过了标准规定的接地开关能够开合的B类感应电压、电流的要求。依据计算结果对500 kV东莞站采用的220 kV JW6-252/J50型接地开关进行了开合超B类感应电压、电流的试验。在开断电磁感应电压2 ...
李兴旺 +5 more
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ABSTRACT The inherent trade‐off between high saturation induction (Bs) and low core loss in soft magnetic materials presents a challenge in the development of high‐frequency power electronics. Here, a processing approach that combines accelerated Cu ordering with dual magnetic anisotropy control in high‐Bs Fe‐based nanostructured cores is examined ...
Xiaoying Li +11 more
wiley +1 more source
为了有效地对埋地电力电缆进行雷电防护,必须合理分析埋地电缆在雷电电磁脉冲影响下产生的感应过电压。分析了雷电对埋地电缆的危害方式,具体介绍了埋地电缆雷电感应过电压计算方法,在EMTP中搭建实际电缆模型,利用model模块变成计算分段电缆感应过电压。分析埋地电缆截面积、电缆排列方式和电缆埋设深度对电缆中感应电流和护套层感应过电压影响。仿真结果表明:埋地电缆截面积越大,感应电流和过电压也越大;电缆排列方式对电缆中感应电流几乎没有影响,对感应过电压存在一定影响,三角排列方式感应过电压最大;电缆埋设越深 ...
季明丽
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ABSTRACT Moisture‐enabled electricity generation technology offers a new paradigm for sustainable energy harvesting, but its practical applications are still limited by issues such as low output power and insufficient long‐term stability. In this paper, an asymmetric sandwich‐structured hydrogel moist–electric generator (SSHMEG) with an ion ...
Peng Chen +7 more
wiley +1 more source
ABSTRACT In conventional piezoceramics, the coordinated change between the dielectric constant (εr) and the piezoelectric charge constant (d33) usually limits the piezoelectric voltage constant g33 (g33 = d33/εr), a critical figure of merit for piezoelectric sensors.
Xiaoying Feng +7 more
wiley +1 more source
笔者介绍了用于高压直流电流测量的电子式直流电流互感器,针对其中决定测量结果的关键部分-分流器及一次联结导体,重点进行了热效应分析。理论分析得出:分流器自身和一次联结导体在直流大电流下都有热效应,而在高压直流线上谐波和阶跃响应产生的集肤效应还将导致不可忽视的附加热效应;一次联结导体的交、直流热效应共同作用将对分流器的测量产生影响。实验证明鼠笼结构的分流器可有效地抑制谐波电流的热效应,电子式直流电流互感器的热稳定性试验不宜用工频交流等效,只有采用实际直流才能真实可靠的反映其热稳定性能。
徐雁 +6 more
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人工触发闪电条件下近距离强雷电电磁脉冲对内浮顶油罐模型的耦合效应研究
为了研究近距离强雷电电磁脉冲对内浮顶油罐的耦合效应,对2019年6月30日、2019年7月7日和2019年7月22日的3次内浮顶油罐模型人工触发闪电试验中的观测数据进行分析。试验结果表明:1)在内浮顶油罐模型接地的情况下,T1704的6次回击引起的地电位抬升电压峰值范围为-1 666.7 V至-12 500.0 V,相应的罐壁与浮盘间的电位差峰值在-4 750.0 V至-16 083.0 V之间。罐壁与浮盘间的电位差主要受地网地电位抬升的影响,可能造成油罐雷击火灾事故。2 ...
陈思学 +5 more
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