thermopile

简明释义

英[ˈθɜːmə(ʊ)paɪl]美[ˈθɜːrməˌpaɪl]

n. 热电堆

英英释义

单词用法

同义词

反义词

例句

1.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。

2.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。

3.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。

4.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。

5.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。

6.Thermopile is usually a blackened thermal detector .

热堆一般是个涂黑了的热探测器。

7.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。

8.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。

9.When designing a heating system, consider using a thermopile as part of the control mechanism.

在设计供暖系统时，可以考虑将热电堆作为控制机制的一部分。

10.The temperature sensor uses a thermopile to detect heat changes.

温度传感器使用热电堆来检测温度变化。

11.A thermopile can be used in gas appliances to ensure safety by detecting flame presence.

在燃气设备中，可以使用热电堆来确保通过检测火焰存在来保证安全。

12.The thermopile converts thermal energy into electrical energy for better efficiency.

这热电堆将热能转换为电能以提高效率。

13.In many infrared thermometers, a thermopile is employed to measure the thermal radiation.

在许多红外线温度计中，使用热电堆来测量热辐射。

作文

In the world of thermoelectric devices, the term thermopile refers to an assembly of thermocouples that are connected in series or parallel to convert thermal energy into electrical energy. This device is particularly important in various applications, including temperature measurement and infrared sensing. The principle behind a thermopile is based on the Seebeck effect, which describes how a voltage is generated when there is a temperature difference between two junctions of different conductors. This phenomenon allows the thermopile to effectively measure temperature variations and produce a corresponding electrical signal.One of the most common uses of a thermopile is in non-contact temperature measurement. For instance, in infrared thermometers, the thermopile detects infrared radiation emitted by an object and converts this energy into a measurable temperature reading. This capability is vital in many fields, including medical diagnostics, industrial processes, and environmental monitoring. The ability to measure temperature without direct contact provides significant advantages, such as preventing contamination and allowing for quick assessments.Moreover, thermopiles are also used in gas burners and combustion systems to ensure safety and efficiency. In these applications, the thermopile generates a small voltage when heated by the flame, which can be used to keep the gas valve open. This safety feature ensures that gas is only supplied when there is a flame present, thereby preventing hazardous situations like gas leaks.The technology behind thermopiles has advanced significantly over the years. Modern thermopiles are often miniaturized and integrated into electronic devices, making them more accessible and versatile. As a result, they have found their way into consumer electronics, such as smartphones and smart home devices, where they contribute to energy efficiency and user convenience.In addition to their practical applications, thermopiles also play a role in research and development. Scientists and engineers utilize these devices to study thermal properties and develop new materials with enhanced thermoelectric performance. The ongoing research in this field aims to improve the efficiency of thermopiles and expand their application range, potentially leading to innovations in energy harvesting technologies.Overall, the thermopile is a remarkable device that exemplifies the principles of thermoelectricity and its practical applications. Its ability to convert heat into electricity makes it invaluable in various industries, from healthcare to energy management. As technology continues to evolve, the significance of thermopiles is likely to grow, paving the way for new advancements in thermal sensing and energy conversion. Understanding the function and importance of thermopiles not only enhances our knowledge of thermoelectric devices but also highlights the potential for future innovations in this exciting field.

在热电设备的世界中，术语thermopile指的是一组串联或并联连接的热电偶，用于将热能转换为电能。该设备在温度测量和红外传感等各种应用中尤为重要。thermopile背后的原理基于塞贝克效应，该效应描述了当两个不同导体的接头之间存在温差时，会产生电压。这一现象使得thermopile能够有效地测量温度变化并产生相应的电信号。thermopile最常见的用途之一是非接触式温度测量。例如，在红外线温度计中，thermopile检测物体发出的红外辐射，并将这种能量转换为可测量的温度读数。这种能力在许多领域中至关重要，包括医疗诊断、工业过程和环境监测。无接触测量温度的能力提供了显著的优势，例如防止污染和快速评估。此外，thermopiles还用于燃气炉和燃烧系统，以确保安全和效率。在这些应用中，thermopile在火焰加热时产生小电压，可用于保持燃气阀门打开。这一安全特性确保只有在存在火焰时才供应燃气，从而防止诸如燃气泄漏等危险情况。近年来，thermopile背后的技术有了显著进步。现代thermopiles通常被微型化并集成到电子设备中，使其更易于获取和多功能。因此，它们已进入消费电子产品，如智能手机和智能家居设备，在提高能源效率和用户便利性方面发挥作用。除了实际应用，thermopiles在研究和开发中也发挥着重要作用。科学家和工程师利用这些设备研究热性质，并开发具有增强热电性能的新材料。该领域的持续研究旨在提高thermopiles的效率并扩大其应用范围，可能导致能源收集技术的创新。总的来说，thermopile是一种非凡的设备，体现了热电学原理及其实际应用。它将热量转换为电能的能力使其在医疗保健、能源管理等各个行业中不可或缺。随着技术的不断发展，thermopiles的重要性可能会增加，为热传感和能源转换的新进展铺平道路。理解thermopiles的功能和重要性不仅增强了我们对热电设备的认识，还突显了这一激动人心的领域未来创新的潜力。