展望了今后半导体气敏传感器技术的发展趋向。
The technology development trends of metal oxide gas sensors are also discussed.
同时,以二氧化锡为基材的气敏传感器备受亲徕。
At the same time, tin dioxide as a substrate for gas sensor is highly welcome.
本发明公开了一种有机气敏传感器,涉及一种气敏传感器。
The invention discloses an organic gas sensor and relates to a gas sensor.
本文报道有限元方法在膜片型微结构气敏传感器设计中的应用。
The application of finite element method (FEM) in the design of a membrane-type micro gas sensor is reported.
气敏传感器已在生物、化学、航空、军事等领域获得了广泛的应用。
Gas sensors have been extensively developed in biology, chemistry, aeronautics, military affairs.
研究结果对于MOS结构的半导体气敏传感器的研制具有重要的意义。
The investigated results are very important for the research and fabrication of the MOS structure gas sensors.
对影响气敏传感器性能漂移的两个主要因素温度和湿度进行了在线式补偿。
On-line compensation about temperature and humidity as two main factors can resolve the drift of sensor to a great extent.
模仿生物嗅觉系统,由气敏传感器阵列结合神经网络模式识别技术构成了仿生鼻。
Imitating the biological olfactory system, a bionic nose system was constructed, which consists of gas sensor array and pattern recognition system of neural network.
适用于多层布线作细线导体,也适用于气敏传感器作电极和电极引线的焊接材料。
Applicable for thin multi-layer wiring conductor, also apply to gas sensors for welding electrodes and electrode-lead material.
本发明涉及一种具备气敏传感器的空气净化器以及利用气敏传感器检测污染度的方法。
The present invention provides air purifier with gas sensor and method of detecting pollution degree.
克服了目前气敏传感器人工操作测试带来的效率低、误差大、操作人员长时间工作等问题。
Overcomes the present gas sensor manual control test to bring the efficiency lowly, the error big, the operator operating time long and so on the questions.
本文从改变材料、结构、工作原理三个方面论述了提高乙醇气敏传感器性能的途径及效果。
This paper introduces three ways to improve ethanol gas sensor's performance: Changing material, structure and work principle.
论文最后完成了基于气敏传感器的无线电子鼻传感器节点实现,并对测试结果进行了分析。
At last, the paper achieved the design of E-nose sensor nodes based on gas sensors, and the test results were analyzed.
研究表明激光微加工方法制作纳米气敏传感器阵列是一种可控性好、灵活、方便、廉价的制作方法。
The results show that YAG laser micro machining of Al 2O 3 plates used for the manufacture of the gas sensor arrays is easily controllable, flexible, convenient and cheap.
随着MEMS技术的飞速发展,各种MEMS器件和系统相继问世,MEMS气敏传感器是其中之一。
Different kinds of MEMS devices and systems were born in succession along with the development of MEMS technology quickly. One of them was MEMS gas sensor.
作为改善传感器性能的另一个尝试,本文还研究了水热预处理纳米粉对厚膜气敏传感器敏感性能的影响。
For exploiting a new route of improving the gas sensing performance of sensors, the effect of hydrothermal pre-treatment on the gas sensing properties has also been studied.
基于气敏传感器阵列与模式识别技术的人工嗅觉系统是利用气敏传感器交叉敏感性进行气体识别的重要途径。
The artificial olfactory system based on gas sensitive sensors array and patterns recognition technology is an important method to recognize gases use the cross sensitivity of gas sensitive sensor.
基于石英晶体微天平(QCM)原理的气敏传感器可以满足上述要求,因此近年来得到了研究人员的普遍关注。
Gas sensors based on quart crystal microbalance (QCM) principle that meet these requirements have drew much attention within research groups in recent years.
制作微型化的气体传感器是MEMS应用的主要领域之一。半导体气敏传感器,是当前MEMS气敏传感器的主流。
Currently, micro gas sensors have become one of the major MEMS fields, and semiconductor gas sensors are the mainstream.
PC-Au - 4910金导体浆料适用于多层布线作细线导体,也适用于气敏传感器作电极和电极引线的焊接材料。
PC-Au-4910 gold conductor paste suitable for thin multi-layer wiring conductor, also apply to gas sensors for welding electrodes and electrode-lead material.
两者都具有良好的导电、光电和气敏等特性,被广泛应用在气敏传感器、紫外光探测仪、催化剂和电池领域的电极材料等方面。
Both ZnO and CuO are applied on gas sensors, UV light detection, catalyst and electrode materials in batteries for their good physic properties, such as conductive, photoelectric and so on.
本文介绍了电化学co传感器气敏电极催化活性降低的原因及其改善措施。
The cause that induces low catalytic activity of gas-sensitive electrode of electrochemical CO sensors and its improvement measures have been presented in this paper.
高灵敏度的氟里昂气体传感器是检测氟里昂泄漏的关键元件,本文叙述了氟里昂气敏器件的制作工艺、敏感原理、测试方法及测试结果。
Freon sensor with high sensitivity is key device for detecting freon leak. The manufacture technology, sensitivity mechanism, measure method and parameter of samples have beendiscribed in this paper.
厚薄膜技术已广泛用于制作气体传感器,在气敏技术中起重要作用。
Thick film and thin film techniques play an important role in gas sensing techniques, which have been widely used in manufacturing the sensors.
半导体氢敏传感器是一种新型气敏元件。
Semiconductor Hydrogen Sensor is a new type of gas-sensitive element.
气体检测的关键结构单元是气敏元件和气体传感器。
The key construction unit to gas inspection is sensitive element for gas and gas transducer.
气体检测的关键结构单元是气敏元件和气体传感器。
The key construction unit to gas inspection is sensitive element for gas and gas transducer.
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