通常情况下矢量网络分析仪的校准都是使用机械校准件来完成的。
Generally the calibration of Vector Network Analyzers has been accomplished with mechanical standards.
给出了以矢量网络分析仪HP8510C为主要设备测量耦合函数的实验方法。
To measure the coupling function, this paper suggests the experimental setup which mainly consists of the vector network analyzer HP8510C.
矢量网络分析仪是测试微波射频器件的专用仪器,在无线电测试领域应用非常广泛。
The vector network analyzer is the special instrument that tests microwave and radio frequency devices, its application is very extensive in the wireless measurement field.
文中基于矢量网络分析仪测试方法,给出了该宽带正交解调器的幅相不平衡实验结果。
Based on measuring method of vector network analyzer, the experimental results of the wideband quadrature demodulator in the imbalance of amplitude and phase are given in this paper.
为此,以非线性矢量网络分析仪(NVNA)为代表的新一代非线性矢量网络测量技术应运而生。
In this case, as a new generation of nonlinear vector network measurement technique, nonlinear vector network Analyzer (NVNA) emerges as times require.
但这个过程费力而且容易产生误差。使用电子校准模块对矢量网络分析仪进行校准比用机械校准件更快、更简单。
This process could be laborious and error prone. With the electronic calibration module, the calibration can be made faster and simpler.
在使用矢量网络分析仪对射频吸波材料进行测试的过程中,由于矩形同轴装置阻抗不匹配,将引起不希望有的反射。
In the process of measuring radio frequency absorb material by vector network analyzer, the impedance of rectanglecoaxial measuring device is mismatched and cause redundant reflection.
最后,借助矢量网络分析仪对设计的天线进行了实际的加工测试,给出了天线的主要参数,并与仿真结果进行比较分析。
Finally, we will fabricate and test that antenna, give some parameters and compare to simulation results. The simulation and measured results shows that this antenna has good wideband characteristic.
基于ADS软件仿真和优化,并用矢量网络分析仪进行测量其s21曲线,本设计最终结果与理论吻合,达到指标要求。
Based on ADS and VNA, the filters had been simulated and optimized and the response of S21 had been measured. Final results show that achieve index requirements.
本论文研究了基于安捷伦8720et20ghz矢量网络分析仪的26.5 - 40ghz扩频技术中的一些关键问题。
A 26.5-40ghz broadband frequency extension technique based on Agilent 8720et 20ghz VNA is presented and some critical problems are discussed.
用矢量网络分析仪进行射频和微波元器件的测量时,配合网络分析仪的误差修正技术,进行全二端口校准,能彻底地消除系统误差。
When measuring the RF&MW devices, applying error correction to the vector network analyzer, and executing the full two-port calibration, the systematic errors can be removed completely.
用矢量网络分析仪进行射频和微波元器件的测量时,配合网络分析仪的误差修正技术,进行全二端口校准,能彻底地消除系统误差。
When measuring the RF&MW devices, applying error correction to the vector network analyzer, and executing the full two-port calibration, the systematic errors can be removed completely.
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