最后对热电转换器的各种应用了概括。
Finally, a survey of various applications of thermocouple, are made.
他们希望通过控制该设备的每个方面,更好地了解如何设计出理想的热电转换器。
By controlling all aspects of the device, they hoped to better understand how to design the ideal thermal-to-electric converter.
另外,本文从电化学动力学的角度,对碱金属热电转换器的电极极化过程及对其特性的影响进行了讨论。
In addition, from the viewpoint of electrochemical kinetics, the electrode polarizing process of AMTEC and its effect on the AMTEC performance were discussed.
一种电源,包括一热电发生器,一初始能量管理组件,一静电转换器及一最终能量管理组件。
A power supply comprises a thermoelectric generator, an initial energy management assembly, an electrostatic converter and a final energy management assembly.
NIST测量客户的热电压转换器,用来和那些由串联热电偶和一个电阻相乘的AC - DC对比区别。
NIST measures the AC-DC difference of customer's thermal voltage converters by comparing them with standards composed of a thermoelement in series with a multiplying resistor.
系统采用了高精度热电偶数字转换器芯片MAX6675。
In this system, high precision thermocouple digital converter chip MAX6675 is adopted.
计算碱金属 热电 转换器的特性是本文的重要任务之一。
The evaluation of electrical characteristics of AMTEC was one of the several important tasks in this thesis.
MAX6675冷端温度补偿、热电偶数字转换器可进行冷端温度补偿,并将K型热电偶信号转换成数字信号。
MAX6675 Cold-junction compensation, thermocouple digital converter can be cold junction compensation, and K-type thermocouple signals into digital signals.
MAX6675冷端温度补偿、热电偶数字转换器可进行冷端温度补偿,并将K型热电偶信号转换成数字信号。
MAX6675 Cold-junction compensation, thermocouple digital converter can be cold junction compensation, and K-type thermocouple signals into digital signals.
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