Wheatstone bridge
英
美
单臂电桥;惠斯通电桥
双语例句
- Delicate degree of wheatstone bridge is an important factor that affects its measurement precision.
惠斯通电桥灵敏度是影响惠斯通电桥测量精度的一个重要因素。 - Recording units for resistance thermometers are mostly based upon the Wheatstone bridge circuit.
电阻温度计的记录设备基本上是根据惠斯通电桥的电路。 - Some problems in Wheatstone bridge
关于惠斯登电桥测电阻中几个问题的讨论 - Extremum Problem in the Wheatstone Bridge Circuit
惠斯通电桥电路中耗散功率的极值问题 - Uncertainty analysis of measuring electrical resistance with Wheatstone bridge
惠斯登电桥测电阻实验的不确定度分析 - Probe Into the Survey Precision to Measure a Middle Resistance Using a Wheatstone Bridge Made by Oneself
自组惠斯登电桥测量中值电阻有关测量精确度问题探讨 - Relationship of the measuring instrument, measuring amplifier and the measurement sensitivity of a Wheatstone bridge is discussed in this paper, in order to explore how to enhance the measurement sensitivity of a Wheatstone bridge.
讨论测量仪表、量放大器与惠斯登电桥测量灵敏度的关系,研究如何提高惠斯登电桥测量灵敏度。 - Wheatstone Bridge Aided by Programmable Analog Circuit
在系统可编程模拟电路构成的测量电桥 - Analysis of the Equation of Wheatstone Bridge in DC Measurement
解析惠斯顿电桥在直流测量电路中的应用方程 - This paper, based on theoretical deduction and numerical analysis, discusses the relationship between sensitivity of Wheatstone bridge and internal resistance of galvanometer.
本文是从理论推导和数值分析两方面讨论惠斯通电桥灵敏度与检流计内阻值的关系。 - The bonded-foil gage monitored with a wheatstone bridge has become a highly perfected measuring system.
用惠斯登电桥监测的粘贴―箔式应变片已成为高度完善的测量系统。 - Relationship between Sensitivity of Wheatstone Bridge and Internal Resistance of Galvanometer
惠斯通电桥灵敏度与检流计内阻值关系的分析 - The Wheatstone bridge is most sensitive to small fractional impedance changes in one of its arms when all the arms are the same impedance.
惠斯通电桥在四个桥臂阻抗相同时而其中的一条桥臂发生哪怕是极小的变化都非常敏感。 - Wheatstone bridge has a "generator", four impedance" arms", and a "detector".
惠斯通电桥有一个信号发生器,四个阻抗桥臂和一个检测器。 - Application of Matlab to Sensitivity Analysis of Wheatstone Bridge
Matlab在惠斯通电桥灵敏度分析中的应用 - The error analysis of measuring resistance by slide wire Wheatstone bridge
用滑线式惠斯登电桥测电阻的误差分析 - Aiming at the influential factors of circuit precision, which were composed of Pt resistance R-T relation, Wheatstone bridge nonlinear characteristic, analog amplify circuit noise, A/ D convert errors and CPU operation truncation errors, a solution has been presented.
着重分析了铂电阻R-T关系、惠斯通电桥非线性、模拟放大电路、A/D量化误差和处理器运算截断误差对电路精度的影响,并给出了解决方案。 - This paper probes into the sensibility of the self-assembling Wheatstone Bridge and analyses the factors affecting the sensitivity of the bridge. The author also compares the theoretical calculation with the experimental results.
探究自组惠斯登电桥的灵敏度,分析影响电桥灵敏度的因素,用实验结果与理论计算作比较。 - The adjustable frequency range can be extended by decreasing the wide of the bridge and the resistance of the Wheatstone bridge.
中心频率的可调节范围可通过减小梁的宽度和压敏电桥的电阻来扩展。 - Measurement theory and implementation method of source Wheatstone bridge in laser high speed resistance trim
有源单臂电桥在激光调阻中的测量原理及实现 - By means of proposing adjustment sensitivity of slide-wire Wheatstone bridge, the paper solves the problems of calculation of error of resistance measured by slide-wire Wheatstone bridge.
本文通过引人线式惠斯登电桥的调节灵敏度,解决了用线式惠斯登电桥测量电阻时误差计算中存在的问题。 - Based on the wheatstone bridge principle, the time variant characteristic of headphones has been studied.
基于Wheatstone桥原理,对动态耳机时变特性进行了实验研究。 - The sensitivity, significant figures and errors of voltage-sensitive Wheatstone bridge are primarily discussed.
本文中初步讨论了电压敏感型惠斯登电桥的灵敏度、有效数字以及数字万用表内阻引起的误差。 - An adaptive correction method based on the measuring theory of Wheatstone bridge is proposed to reduce the effect of the multi-range measuring errors of a laser resistor trimming machine on the resistance adjusting accuracy.
为了减小激光调阻机测量系统的多档测量误差对阻值修调精度的影响,提出了一种基于有源单臂电桥测量原理自适应地校正激光调阻机多档测量误差的方法。 - Study on the measurement sensitivity of a Wheatstone bridge
惠斯登电桥测量灵敏度研究 - Linear Disposal of Wheatstone Bridge in Strain Measurement
应变测量中单臂电桥输出的线性化处理 - In this paper, a resistance-to-frequency converter consisting of a Wheatstone bridge followed by an integrator and a comparator is described.
文中给出了一个由惠斯登电桥、积分器、过零检测器等组成的电阻-频率转换器。 - The weak resonant signal was picked up by piezoresistor Wheatstone bridge designed and fabricated on the silicon micro-cantilever.
成功实现了对硅微悬臂梁谐振器前三阶振型的实验测试。 - Resistance variation is converted into voltage variation by Wheatstone bridge circuit.
电桥电路将传感器的电阻变化量转换为电压变化量。 - Based on the characteristics of the body surface pressure sensor, the discharge capacitance measuring system TDC choice Wheatstone bridge design and the calculation of equivalent resistance, and external comparator circuit.
根据车体表面压力传感器的特征,进行TDC测量系统的放电电容选择,惠斯通电桥的设计与等效电阻的计算,以及外部比较器电路的设计。