介绍了非接触式红外测温仪的一种实用数字温度补偿方法,其中,测温仪采用热电堆传感器作为核心器件。
An applied numerical temperature compensation method for the non-contact infrared thermometers is described. The thermometers employ thermopile sensors as the key element.
论文第四章以一种便携式红外体温筛检仪的研制为背景,设计了一套对热电堆红外传感器的温度补偿方案。
In addition, to develop a portable infrared device for human temperature screening, a set of temperature compensation method on thermopiles was designed.
德州仪器TMP006 /B红外热电堆传感器的晶片级封装(图3)提供非接触式温度传感器用于保健,美容,和火焰检测应用。
The Texas Instruments TMP006/B Infrared Thermopile Sensor in a Chip-Scale Package (Figure 3) provides non-contact temperature sensing for use in health, beauty, and flame-detection applications.
热电偶以及热电堆也是利用塞贝克效应的器件用于测试两个待测点之间的温度差,其工作时将其中的一个待测点连接伏特表而另一个待测点连接传感器探头。
Thermocouples and thermopiles are devices that use the Seebeck effect to measure the temperature difference between two objects, one connected to a voltmeter and the other to the probe.
热电偶以及热电堆也是利用塞贝克效应的器件用于测试两个待测点之间的温度差,其工作时将其中的一个待测点连接伏特表而另一个待测点连接传感器探头。
Thermocouples and thermopiles are devices that use the Seebeck effect to measure the temperature difference between two objects, one connected to a voltmeter and the other to the probe.
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