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A novel wide-range precision instrument for measuring three-dimensional surface topography
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作者 杨旭东 《Journal of Chongqing University》 CAS 2008年第1期52-57,共6页
We developed a measuring instrument that had wide range, high precision, small measuring touch force. The instrument for three-dimensional (3D) surface topography measurement was composed of a high precision displacem... We developed a measuring instrument that had wide range, high precision, small measuring touch force. The instrument for three-dimensional (3D) surface topography measurement was composed of a high precision displacement sensor based on the Michelson interference principle, a 3D platform based on vertical scanning, a measuring and control circuit, and an industrial control computer. It was a closed loop control system, which changed the traditional moving stylus scanning style into a moving platform scanning style. When the workpiece was measured, the lever of the displacement sensor returned to the balanced position in every sample interval according to the zero offset of the displacement sensor. The non-linear error caused by the rotation of the lever was, therefore, very small even if the measuring range was wide. The instrument can measure the roughness and the profile size of a curved surface. 展开更多
关键词 instrument circuit surface topography measurement error wide range precision instrument displacement sensor 3D platform
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Fluke 9640A RF Reference Source combines level precision,dynamic range,frequency capability in a single instrument
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作者 Stream lines workload enables automationof calibration procedures with MET/CAL(Plus Calibration Measurement Software 《国外电子测量技术》 2007年第1期81-81,共1页
关键词 Source RF Fluke 9640A RF Reference Source combines level precision dynamic range frequency capability in a single instrument
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Dual transponder ranging performance in the presence of oscillator phase noise 被引量:1
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作者 赵明臣 王春晖 +1 位作者 金小军 金仲和 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第4期1350-1357,共8页
A dual transponder carrier ranging method can be used to measure inter-satellite distance with high precision by combining the reference and the to-and-fro measurements. Based on the differential techniques, the oscil... A dual transponder carrier ranging method can be used to measure inter-satellite distance with high precision by combining the reference and the to-and-fro measurements. Based on the differential techniques, the oscillator phase noise, which is the main error source for microwave ranging systems, can be significantly attenuated. Further, since the range measurements are derived on the same satellite, the dual transponder ranging system does not need a time tagging system to synchronize the two satellites. In view of the lack of oscillator noise analysis on the dual transponder ranging model, a comprehensive analysis of oscillator noise effects on ranging accuracy is provided. First, the dual transponder ranging system is described with emphasis on the detailed analysis of oscillator noise on measurement precision. Then, a high-fidelity numerical simulation approach based on the power spectrum density of an actual ultra-stable oscillator is carried out in both frequency domain and time domain to support the presented theoretical analysis. The simulation results under different conditions are consistent with the proposed concepts, which makes the results reliable. Besides, the results demonstrate that a high level of accuracy can be achieved by using this oscillator noise cancelation-oriented ranging method. 展开更多
关键词 inter-satellite carrier ranging oscillator phase noise power spectral density high precision
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Progress on the use of satellite technology for gravity exploration
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作者 Ding Yanwei Ma Li +14 位作者 Xu Zhiming Li Ming Huo Hongqing Tan Shuping Gou Xingyu Wang Xudong Yang Fuquan Mao Wei Liu Yingna Zhong Xingwang Xi Dongxue Hu Lingyun Huang Lin Li Songming Zhang Xiaomin 《Geodesy and Geodynamics》 2015年第4期299-306,共8页
In this paper, the technological progress on Chinese gravity exploration satellites is presented. Novel features such as ultra-stable structure, high accurate thermal control, drag-free and attitude control, micro-thr... In this paper, the technological progress on Chinese gravity exploration satellites is presented. Novel features such as ultra-stable structure, high accurate thermal control, drag-free and attitude control, micro-thrusters, aerodynamic configuration, the ability to perform micro-vibration analyses, microwave ranging system and mass center trimmer are described. 展开更多
关键词 Ultra-stable structure precision thermal control Drag-free Micro-thruster K-band ranging Aerodynamics Micro-vibration Gravity satellite
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