As a result, the network parameters and the resonant frequency are obtained.
理论结果不仅能计算谐振频率,而且还给出散射矩阵等网络参数。
The operation principle and control strategy are analyzed in detail, and an optimizing program of designing resonant parameters is provided.
本文还深入分析了该电路的工作原理及和控制策略,并且对谐振元件参数进行了优化设计。
By comparative analysis, the dependence of the resonant frequency, voltage standing wave ratio, bandwidth and input resistance on different geometric parameters is obtained.
通过比较分析,得到了天线谐振频率、谐振点电压驻波比、带宽以及输入阻抗随不同几何参数的变化规律。
Through observing of resonant and vibration mode, validate the design parameters of transducer.
通过对谐振频率和振动模态的观察,验证了换能器设计参数的正确性。
The resonant frequency is calculated as a function of the system parameters, and the curves of the field strength variation and the contours of individual field components are ploted.
计算了这种结构中低次模的谐振频率,及该频率随谐振器系统参量变化的调谐特性。
The accurate parameters can create a precondition for LLC resonant converter to achieve high efficiency and satis-factory soft switching.
合理选择其参数的是实现变换器高工作效率,优良软开关特性的前提和保证。
The effective inductor, Q-factor and the self-resonant frequency are extracted from S-parameters.
从得到的散射参数中提取出有效电感、Q值和自谐振频率。
Based on the principle of sonic resonance, resonant frequency and damping capacity are used as two parameters to test the volume online quickly.
依据音频共振原理,利用共振频率和内耗两个音频参数的共同作用,快速在线检测弹体药室容积,并用此法与传统的“水称重”法进行理论和实验对比分析。
This paper presents the basic principle of LLC series resonant converter, analyses its equivalent circuit model and the influence of different key parameters to its performance.
介绍了LLC谐振变换器的基本原理,分析了它的等效电路模型及其关键参数对性能的影响。
Thirdly, the parameters of multi-resonant frequency piezoelectric energy harvesting structure are optimized and its generation capacity is analyzed.
再次,对多谐振频率压电发电结构参数进行了优化,并对发电性能进行了分析。
Thirdly, the parameters of multi-resonant frequency piezoelectric energy harvesting structure are optimized and its generation capacity is analyzed.
再次,对多谐振频率压电发电结构参数进行了优化,并对发电性能进行了分析。
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