Thetitle"发射电压响应+transmitting+voltage+responseEnglishshortsentences+examplesentencescompilation"referstoacollectionofshortsentencesandexamplesrelatedtothetopicoftransmittingvoltageresponse.Thiscompilationaimstoprovideacomprehensiveresourceforunderstandingandutilizingtheconceptoftransmittingvoltageresponse.Thesentencesandexamplescovervariousaspectsofthistopic,includingtheeffectsofdifferentvoltagelevelsontransmission,theresponseofelectricalsystemstovoltagechanges,andtheimplicationsofvoltageresponseindifferentapplications.Byexploringtheseshortsentencesandexamplesentences,readerscangainabetterunderstandingoftheconceptoftransmittingvoltageresponseanditspracticalimplications.
发射电压响应,transmitting voltage response
1)transmitting voltage response发射电压响应
1.The admittance of the transducer in air and in water,and thetransmitting voltage response of the transducer are calculated.首先介绍了用有限元模型分析换能器的基本理论,然后建立了凹桶型弯张换能器的轴对称有限元模型,给定换能器的材料属性与边界条件,计算其在空气和水中的导纳曲线,及其发射电压响应。
英文短句/例句
1.A transducer with large directivity and high transmitting sensitivity具有大指向性开角及高发射电压响应的发射换能器
2.Influence Factors for Synthetic Jet Actuator Driven by Piezoelectric Membrane压电驱动自耦合射流激发器影响因素
3.Effect of Electroforming Voltage Waveform on Electrical Characteristics of Surface-Conduction Electron-Emitter Display电形成电压波形对表面传导电子发射显示器电学特性的影响
4.Voltage and Current Response of Transformer under Step Voltage Excitation阶跃电压激励下变压器的电压响应及电流响应
5.The Measurement of Disturbance Voltage and Radiated Emission for Arc Welding Equipment弧焊设备骚扰电压和辐射发射的测量
6.Influence of Capacitor Parameters on Launch Performance of Induction Coilgun电容器参数对感应线圈炮发射特性影响的分析
7.Effect of EBW Grid Bias and Cathode Emissive Area on Weld Configuration电子束焊接栅偏压和阴极发射面积对焊缝形状的影响
8.Acoustic Emission Testing of a 240MVA Power Transformer240MVA电力变压器局部放电的声发射检测
9.Acoustic emission technique and its application of detection of partial discharge in power transformer;声发射技术及其在变压器局部放电检测中的应用
10.Seismic Response Analysis of DC Voltage Generator Tower Support大型直流电压发生器塔架结构地震响应分析
11.Influence of oxygen partial pressure on residual stresses of TiO_2 films prepared by electron beam evaporation氧分压对电子束蒸发TiO_2薄膜残余应力的影响
12.Nonlinearity Analysis About Generators Impaction on Power System Voltage Stability by Using Normal Forms应用正规形理论分析发电机对电力系统电压稳定性的影响
13.partial undisturbed response voltage半选不受干扰响应电压
14.SIMULATION DESIGN OF OPTOELECTRICAL EMISSION CIRCUIT FOR HV MEASUREMENT高压测量用电光发射回路的仿真设计
15.Research on the effect of the influence of confining pressure on EME during the deformation and fracture of coal or rock mono-axial compressed单轴压缩煤岩变形破裂电磁辐射围压效应研究
16.The Effect of Thunderbolt Formation and Development on Tower Cranes雷电的形成与发展对建筑塔吊感应高压电的影响
17.Study on Environmental Pollution by Electromagnetic Radiation for Transformers and Transmission Lines;变压器和输电线电磁辐射对环境影响的研究
18.Electromagnetic Radiation of High Voltage Transportation and Transfer Facilities Environmental Impact Assessment高压输变电工程的电磁辐射及其环境影响评价
相关短句/例句
Transmitting current response发射电流响应
3)transmitting voltage response发送电压响应
4)piezoresponse压电响应
1.Domains in-plane and out-plane were detected usingpiezoresponse in longitudinal and transverse directions, respectively.应用扫描力显微镜(SFM)的压电响应模式观测未经抛光处理的PZT陶瓷片的电畴结构,用纵向压电响应信号和侧向压电响应信号获得PZT陶瓷材料三维电畴结构。
5)voltage response电压响应
1.Based on nodal admittance matrix of fault transmission line in complex frequency domain, this paper applies another numerical inverse Laplace transform (NILT) to analyze thevoltage response of ends of transmission line.基于故障传输线分布参数复频域节点导纳方程及数值拉普拉斯反变换方法,对故障传输线首末端节点电压响应进行分析。
6)piezoelectric response压电响应
1.Ultrahighpiezoelectric response along some special cleavage plane in BaTiO_3 single-crystals;钛酸钡单晶沿垂直解理面方向的超高压电响应的研究
2.According to the rules of variation of piezoelectric parameters,and noting the fact that the most sensitive part of a piezoelectric sensor is its electrode surface,the complicated mechanism of thepiezoelectric responses was elucidated.由血凝各阶段的压电参数变化规律,和血凝过程的生化变化,并注意到压电传感最敏感部分为其电极表面,阐明了血凝三个阶段的复杂压电响应机理,提出了相应的压电传感方程,及从血凝压电特征曲线上提取血液流变学信息的方法。
延伸阅读
响应系统受到激励作用时的输出,对于机械系统就是系统在输入作用时产生的机械振动。系统中某点的响应可用这一点的位移、速度、加速度或其他量的时间历程(或时间函数)来表示。例如,汽车底盘上各点振动的大小及其随时间的变化历程,表示行驶中的汽车由于地面凹凸不平所引起的响应。系统的响应一方面与系统的动态特性有关:具有不同动态特性的系统受到相同的激励时,各系统的响应不同。例如,在同一地面上行驶时,抗振性好的汽车就比抗振性差的汽车的振动小。另一方面,系统的响应还与外部激励有关:同一系统受到不同激励时响应也不相同。例如,汽车在振动台上进行简谐激励时会产生简谐响应,在地面上行驶时会产生随机响应,在粗糙地面上行驶时的振动比在平滑地面上行驶时的振动大。此外,系统的响应还因激励点的不同或测量点的位置而不同。同一系统同时受到各种激励时会产生相应的各种响应。线性系统某点的总响应为各种响应之和,通常称为叠加原理。总之,在线性系统中,激励、响应和系统的动态特性之间有完全确定的关系。可用传递函数或频率响应函数表示系统的激励与响应之间的明确数量关系。对于已知的激励,系统的响应可用有限元法或模态综合法计算出来,也可通过振动测试得到。对于随机激励引起的随机响应的各种统计特征,必须经过信号处理后才能得到。