Thermopile is usually a blackened thermal detector.
热堆一般是个涂黑了的热探测器。
Thermopile is usually a blackened thermal detector .
热堆一般是个涂黑了的热探测器。
The sensors consist of a membrane with a thermopile on top of it.
该传感器包括一个膜与热电堆在它上面。
This paper described a novel thermopile detector for infrared horizon sensors.
本文报道了试用于红外地平仪的新型热堆传感器。
The refrigeration efficiency also has close relation to the voltage and current of the thermopile.
热电堆的工作电压和电流与制冷效率也有着密切的关系。
Thermopile ir detector is one of the first thermal ir imaging device that has been studied and applied.
热电堆红外探测器是最早研究并实用化的热电型红外成像器件之一。
This work constructs a stable base for the further research on the large scale array of the thermopile infrared sensor.
这为进一步制作大规模的单片集成热电堆面阵奠定了基础。
The thermopile used to measure infrared energy from body radiation, a medical noncontact thermometer is developed in this paper.
利用温差电堆测量人体辐射的红外能量,研制医用非接触体温计。
According to the principle of thermopile, and the three-dimensional loop wire laying is substituted by new-style plane wire laying.
研究成果是基于热电堆的原理用新型的平面布线取代三维的线圈布线。
A new kind of annular thermopile sensor which consisted of 16 structure cells, 800 chromel - constantan thermocouples was developed.
设计了一种可以方便地增加热电偶数目和灵活调节时间常数的新型环状热电堆传感器。
The modules are connected to form an array of multiple thermocouples, or a thermopile. Then they're sandwiched between two thin ceramic wafers.
这些部件与一系列温差电偶或一个温差电堆相连接,随后被夹在两层陶瓷薄片之间。
This paper, taking thermopile infrared sensor as example, studies a modeling method of sensor with multiple-input and single-output, which bases on neural network.
本文以建立热电堆红外传感器模型为例,对基于神经网络的多输入单输出的传感器的建模方法进行了研究。
The temperature distribution on the coplanar waveguide(CPW)and the terminal resistors was simulated, and so did the impact of approach of the thermopile on the CPW.
模拟结果包括共面波导(CPW)与终端电阻上的温度分布,以及热电堆的接近对CPW性能的影响。
A new kind of thermopile sensor system for vehicle exhaust gas monitoring was designed, aiming at new emission standards and measurement methods of vehicle exhaust gas.
针对汽车尾气新的排放标准和检定方法的实施,设计了用于汽车尾气监测的热电堆传感器系统。
In operation, the silicon lens collects radiated heat from an object onto the thermopile sensor in the module and the heat produces an electromotive force on the sensor.
在操作中,硅透镜收集从物体辐射热到热电堆传感器模块中的热产生的电动势在传感器上。
An applied numerical temperature compensation method for the non-contact infrared thermometers is described. The thermometers employ thermopile sensors as the key element.
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。
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.
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.
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。
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