1)RTT-HF谐振变比
1.RTT-HF Technology Used by Constant-power Switching Rectification Module恒功率开关整流模块采用的谐振变比技术
英文短句/例句
1.RTT-HF Technology Used by Constant-power Switching Rectification Module恒功率开关整流模块采用的谐振变比技术
2.Comparison and Optimization for LLC Half-bridge Resonant Converter Parameter DesignLLC半桥谐振变换器参数设计法的比较与优化
3.Proportional-resonant Control for Dual PWM Converter in Doubly Fed Wind Generation System双馈风力发电系统双PWM变换器比例谐振控制
4.Characteristic of Resonant Current vs Switching Frequency of Series Resonant Converter谐振变换器中谐振电流-开关频率特性
5.variable delay multivibrator可变延迟多谐振荡器
6.resonated impedance bond谐振式阻抗联接变压器
7.(iii)the output v oltage increases directly proportional t o DC voltage applied on the Wheatstone br i dge at the clamped end of beam.谐振器输出电压与谐振器根部压敏电桥电源电压成正比。
8.Resonant Analysis and EMTP Model Simulation of Grid Harmonics in Transformer Substation变电站中电网谐波谐振分析与EMTP建模仿真
9.Research on the Resonant-Tank Parameters Design and Load-Matching of Voltage-Source Load-Resonant Converters;电压型负载谐振变换器谐振槽路参数优化设计与负载匹配的研究
10.Application of High-voltage Resonance Controller L6599 to LLC Half-bridge Resonance Converter高压谐振控制器L6599在LLC半桥谐振变换器中的应用
11.colour phase alternation multivibrator彩色相位变换多谐振荡器
12.resonant slope varactor amplifier谐振斜率变容二极管放大器
13.Parameters Design of Single-phase Resonant DC Link Inverter谐振直流环节单相逆变器的参数设计
14.Wide-Band Varactor-Tuned Gunn Oscillators in Full-Height Waveguide Cavity宽带变容管调谐全高波导耿氏振荡器
15.Novel Resonant Transition Soft-Switching Three-Phase PWM Inverters;新型谐振过渡软开关三相PWM逆变器
16.Research on LLC Resonant Half-Bridge DC-DC Converter;LLC谐振半桥DC-DC变换器的研究
17.Research on LLC Series Resonant Full-Bridge DC/DC Converter;LLC串联谐振全桥DC/DC变换器的研究
18.High-Power Asymmetrical Half-bridge ZCS Quasi-Resonant Converter;新颖不对称半桥零电流准谐振变换器
相关短句/例句
proportional resonant(PR)比例谐振
1.According to the analysis results,a novel double fed wind generation(DFWG) vector control method based on the proportional resonant(PR) regulator is presented.文中基于对称分量理论,建立了不平衡电压下双馈发电机和网侧变流器的数学模型,分析了负序电压对传统双馈发电系统矢量控制策略的影响,并据此提出了一种基于比例谐振调节器的矢量控制策略。
3)variable frequency resonance变频谐振
1.Using variable frequency resonance to perform pressure test of 110 kV high-voltage cable;应用变频谐振技术进行110kV高压电缆耐压试验
2.The validity of on-site variable frequency resonance test for 110 kV XLPE power cable is discussed based on some on-site tests.结合实例重点介绍110kV交联电缆的变频谐振试验,论证试验的有效性,并提出变频谐振试验所需电源容量的估算方法,分析该试验方法的局限性,建议重点发展局部放电、红外成像等非破坏性试验。
3.Meanwhile,according to the operating method and the existing problems of the Baosteel XLPE power cable on-site withstand voltage test,and combining the current dissimilar standards both at home and abroad,it clarified the application effects of the variable frequency resonance test to XLPE power cable.对XLPE交联聚乙烯电力电缆的耐压试验方法作了总结,并根据宝钢电力电缆安装后现场试验的做法和问题,结合国内外现行的不同标准,论述了变频谐振试验在宝钢交联电力电缆的应用效果,给出了进一步研究的建议。
4)variable frequency resonance test变频谐振
1.The validity of on-site variable frequency resonance test for HV XLPE power cable is discussed based on a mass of on-site tests.通过变频谐振方法成功实施现场高压交联电缆试验的实例论证了变频谐振现场试验的有效性。
2.The validity of on-site variable frequency resonance test for 110kV XLPE power cable is discussed based on some on-site tests.通过变频谐振方法成功实施了现场110kV交联电缆试验的实例,论证了变频谐振现场试验的有效性。
5)variable resonant可变谐振
6)scale of resonance voltage (SRV)谐振电压比
1.By defining the scale of resonance voltage (SRV) the occurrence condition of serial voltage resonance in the line of double circuits on same tower and the frequency characteristics of SRV at the position near the resonance point are discussed.就定义谐振电压比这一概念,讨论了同杆并架线路中串联电压谐振的发生条件,以及谐振电压比在谐振点附近的频率变化特性。
延伸阅读
谐振谐振resonance 一l/幸产云三)时,电路谐振。串联的电感电压亡:和电一…图2图l电路谐振时的相量图容电压U。相互抵俏;电阻电压U*等于电源电压亡S。电压相量图见图冬谐振咏电路中电流10一Us/R和电源电压同娜感抗仍0L和容抗1/(畅0相等下并以特性阻杭尸来表示,即p一。0L一l/(。0c)o电感电压和电容电压的有效值相等,u:一Uc一QUs,其书畔e/R,称作谐振电路的品质因数。Q>1时,电感 谐振林电霎暴默器瑟咒赢应…{麟娜洋淤I1I。/,、2 心1+Q“}夕一言J V、专/其曲线见图3o谐振时,亏一1,电流最大。_品质因数Q┌─┐│口│└─┘图3串联电路的 普用谐振曲线其他频率下,电流很小,有“选择性,’oQ越大,愈大,曲线愈尖,它表明电源频率f稍许离开谐振频率f0(即夕稍许偏离l)时,电流比谐振时电流了。要小得多。这也意味着Q大时,只有频率接近于f0的电源,才在电路中产生较大电流,此时电路呈现低阻抗;在电路呈现高阻抗,电路对频率电路的选频特性越好。 电流谐振又称并联谐振。谐振时,二端网络内相并联的两个子网络的无功电流分量相互抵消。最简单的电流谐振电路由电阻R、电感L和电容c并联构成,由电流源激励,见图4。电源频率等于电路的谐振频率f0一1/(27t丫饭万)时,电路谐振。谐振时,电感电流Il.和电容电流Ic相互抵消,电阻电流九等于电源电流15。它们的相图4并联谐振电路量图见阶。电路的品质因数Q叛/e,式中特性阻抗产一两去一l/(。oc)。品质因数Q大时,只有其频率接近谐振频率f0的电源,才在电路里引起较大电压,此时电路呈现高阻抗;在}其他频率下,电压很低,电路呈现低阻!抗。Q越大,电路的选频特性越好。Q)一一场二人>1时,电感电流、电容电流大于电源{电流。{IL 混联形式的谐振电路电阻、电图5图4电感、电容元件以混联形式构成的谐振路谐振时的电路。这种电路的谐振频率可以不止相量图一个。图6所示电路就是其中之一例。当电源频率‘一1/「2二认了万花再瓦夕]时,图中用虚厂一一厂一一几厂乙刁{厂一-}喇日洲。。份 匕二曰{‘一一卜一习{匕_____」 2图6由电容C,、CZ和电感L组成的谐振电路线框住的两个串联子电路的电压相互抵消,出现串联谐振,电路呈现低阻抗。当电源频率九一l/(2二x为交百)>f,时,L和岛的并联子电路的电流相互抵消,电路呈现高阻抗。此电路可顺利地让频率是fl的电流流通,阻止频率是九的电流通过。f,和fZ是该电路的两个谐振频率。
