基于对测量过程、测量误差的认识,提出了一种利用极限点法的评估非线性传感器静态特性的一种新方法。
Based on the measurement process and learning of measuring error, a novel method evaluate the static characteristics of the nonlinear transducer by using the limit point.
讨论了高准确度测试仪表的质量指标,并分析了数字式智能仪表的结构、静态特性修正和测试误差修正。
In order to demarcate the other testing instrument the paper analyzes a digital intelligent instrumentation including its constitution , static characteristic revision and temperature error revision.
基于对测量过程、测量误差的认识,提出了一种利用极限点法评估非线性传感器静态特性的一种新方法。
Based on the measurement process and learning of measuring error, a novel method of using the limit point to evaluate the static characteristics of the nonlinear transducer is presented.
另外,对测试系统的噪声进行了分析和计算,通过误差分析确定了设备的静态特性。
In addition, noise of the system was analyzed and calculated, static characteristics were determined by error analysis.
计算结果表明,几何形状误差和位置误差对该种轴承的静态特性有着不同程度的影响。
The calculation results show that the geometric form error and the bearing alignment error affect the static characteristics of the bearing in different degrees.
计算结果表明,几何形状误差和位置误差对该种轴承的静态特性有着不同程度的影响。
The calculation results show that the geometric form error and the bearing alignment error affect the static characteristics of the bearing in different degrees.
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