当前我们研究的重点是评估铂/陶瓷氧传感器在寒冷气候的可行性。
The current focus of our research is assessing the viability of standard platinum/ceramic oxygen sensors in cold-weather climates.
本文介绍了铂薄膜平面热线型氨传感器。
一个专有的新型薄膜沉积技术用于氧化锆传感器,在氧化锆元素和铂层之间创建一个分子键。
A proprietary new thin-film deposition technology was used in the zirconia sensor that creates a molecular bond between the zirconia element and the platinum layer.
传感器分别针对高温和低温测量,采用热电偶和铂热电阻并完成电路设计。
Sensor adopts electric thermocouple and platinum resistance, in allusion to high and low temperature measurement.
用厚膜技术制备了用于氧传感器的多孔铂电极。
Porous platinum electrode for an oxygen sensor was prepared by a thick film technology.
首先,沉积金属铂电极,加热棒和温度传感器。
The Pt electrodes, Pt heater and Pt temperature sensor are deposited first.
该传感器在一定应用范围内可以成为铂铑热电偶的替代产品,甚至较铂铑热电偶应用范围更宽。
This sensor can be taken as substitute of platinum - rhodium thermocouple in certain application range, even its application range is wide than of platinum - rhodium thermocouple.
这种便携式平面电化学生物传感器采用金薄膜两电极系统;先后修饰纳米铂黑粒子层和铁氰化钾媒介体。
The planar electrochemical biosensor was fabricated with gold thin-film two-electrode system, and modified with platinum-black nano-particles and ferricyanide mediator.
采用新型薄膜铂温度传感器设计了多点温度检测系统,使用正反馈型线性校正电路使输出电压与温度成线性关系,从而提高了检测系统的测量准确度。
The linearity correction circuit of positive feedback can make the output voltage be linear with the temperature, so the measurement accuracy of the system is improved.
这种便携式平面电化学生物传感器采用金薄膜两电极系统; 先后修饰纳米铂黑粒子层和铁氰化钾媒介体。
The planar electrochemical biosensor was fabricated with gold thin-film two-electrode system, and modified with platinum-black nano-particles and ferricyanide mediator.
这种便携式平面电化学生物传感器采用金薄膜两电极系统; 先后修饰纳米铂黑粒子层和铁氰化钾媒介体。
The planar electrochemical biosensor was fabricated with gold thin-film two-electrode system, and modified with platinum-black nano-particles and ferricyanide mediator.
应用推荐