电子水平仪

差动电容式传感器在智能电子水平仪中的应用

Application of differential capacitive sensor in intellectual electronic level gauge

分辨率为0.001mm/m的智能电子水平仪的研制

The Design of Intellectual Electronic Level with Resolution 0.001mm/m

采用双环光放大反射镜和二维位置传感器（PSD）制作了电子水平仪，利用该仪器可以测出待测平面与水平面之间的夹角，并且能自动控制其角度的变化。

Abstract : The electronic leveler is made of light amplification mirror of double circles and position sensor diode , the angle of level can be measured and the change of the angle of level can be automatically controlled .

全方位电子水平仪的结构及测量原理分析

The Structure and Measurement Principle Analysis for Omnibearing Electronic Gradienter

基于数字电位器的电子水平仪自动调零方法

Method of Automatic Zero Adjust in Gradienter Using Digital Potentiometer

介绍了一种新型的应用于小角度测量的智能电子水平仪的设计。

Introduce a intellectual electronic level widely used in small angular measurement .

所开发的通信系统在数字电子水平仪中已经得到了成功应用。

The communication system has made a good application in Electronic Level gauge .

一种全方位电子水平仪的测量算法及实现

The Measure Algorithm and Implement of Omnidirectional Electronical Gradienter

介绍新型实用专利&电子水平仪。

The electronic gradienter which has won the practical new model patent was introduced .

研制了与电子水平仪配套的直线度误差专用处理系统。

A straightness error processing system is developed .

智能电子水平仪的通信设计

The Communication Design of Intellectual Electronic Level

通过对温度补偿原理的理论推导，介绍了智能电子水平仪中的温度补偿策略。

Via the theoretic derivation of temperature compensation , the temperature compensation strategy of intellect electronic level instrument is introduced .

基于全站仪的基坑水平位移监测及结果分析一种全方位电子水平仪的测量算法及实现

Horizontal Displacement Monitoring and Results Analysis of Pit Surveyed by Total Station The Measure Algorithm and Implement of Omnidirectional Electronical Gradienter

该系统可实现自准直经纬仪、电子水平仪、中心机与测量系统计算机之间的实时数据通讯。

The serial communication system can realize real-time data communication among self-collimation theodolite , electronic gradienter , center computer and computer of measuring system .

本文应用直角坐标系的旋转变换建立了多轴系统各环节相对于地理坐标系的姿态的数学模型，据此提出了应用电子水平仪测试轴间不正交度的新方法。

The rotate transformation in cartesian coordinate system was applied to measure the interaxial non-orthogonality in multiaxial system , the mathematical model relatively to the geographical coordinate system was created , and a new method of measuring non-orthogonality using electronic level was put forward .