1) cold-junction compensation
冷接点补偿,冷连接补偿
2) cold junction compensation
冷端补偿
1.
The unique method of cold junction compensation reduces the error brought by the traditional compesation.
独特的冷端补偿方法有效地减少了常规补偿引入的误差 ;利用参考函数使温度和热电势之间的转换很方便。
2.
In this paper,the main factors which result in the temperature fluctuation are probed,and the method of the cold junction compensation of thermocouple is enumerated in common u.
本文探讨了温度波动的主要因素,列举了热电偶的冷端补偿的常用方法,叙述了在此问题上的技术发
3.
In order to ensure the control accuracy, it also discusses the cold junction compensation of the thermocouple, and the non-linear correction also be researched, and this paper .
为了保证控制的精确,本文还对热电偶的冷端补偿技术以及温度/电压信号的转换技术作了进一步的探讨,并提出了用集成温度传感器AD590对热电偶进行冷端补偿的方法,设计了多区间线性拟合修正程序对电压信号进行非线性校正。
3) cold-compensation
冷端补偿
1.
This paper points out k-type thermocouple cold-compensation method and discusses the plan choosing and theoretical base.
文章提出了K型热电偶冷端补偿的方法,并详细讨论了方案的选择及理论依据。
4) cold-junction compensation
冷端补偿
1.
Basic principle and features of signal of thermocouple temperature sensor are introduced, several methods of cold-junction compensation are provided, and the linearization rule of thermocouple temperature signal is released too.
介绍各种热电偶温度传感器的基本工作原理及其信号特点,提出了几种冷端补偿办法,指出了热电偶温度信号线性化规律。
5) Cold terminal compensation
冷端补偿
1.
Application of a digital temperature sensor in the cold terminal compensation of thermocouple;
数字温度传感器在热电偶冷端补偿中的应用
6) cold-end compensation
冷端补偿
1.
This paper describes how to measure the B737 APU Exhaust Gas Temprature(EGT) by the micropocessor technology, and discusses the method of themal couple cold-end compensation and curve fitting as ed as the hardware cireuit and software construction of the instrument.
说明了如何利用单片机技术实现波音737飞机APU排气温度的检测;讨论了飞机发动机热电偶的冷端补偿、曲线拟合及测量仪的硬件电路和软件结构。
补充资料:冷端温度补偿器
分子式:
CAS号:
性质:一种用于补偿热电偶参比端温度不在0℃时引起热电势变化的装置。本质上是一个直流毫伏发生器,其输出的直流电压正好是热电偶参比端(冷端)温度不在0℃时所减少的热电势。将它串接在热电偶回路中,当热电偶参比端温度不在0℃时,能得到自动补偿。
CAS号:
性质:一种用于补偿热电偶参比端温度不在0℃时引起热电势变化的装置。本质上是一个直流毫伏发生器,其输出的直流电压正好是热电偶参比端(冷端)温度不在0℃时所减少的热电势。将它串接在热电偶回路中,当热电偶参比端温度不在0℃时,能得到自动补偿。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条