利用微加工技术,我们还将微加热器和温度传感器集成到本芯片上。
Using micromachining technology, we also integrated micro-heater and temperature sensor on the chip.
此芯片集成化程度较高,可以补偿硅压阻式压力传感器的温度误差和非线性误差。
It is mainly used to compensate temperature shift and non-linearity error of piezoresistive pressure sensor.
采用风扇自动控制技术与温度传感器集成电路,不仅可以节约成本,而且减少噪音污染,是高速芯片冷却技术的发展趋势。
Temperature sensor and automatic fan control technique integrated circuit is the development tends in cooling high-speed chips. It can not only subtract costs, but also reduce the pollution of noise.
本文针对微型生化分析仪的结构特点,设计并制作了以硅集成加热芯片为核心元件的温度控制系统。
According to the structure of micro bio-chemical analyzer, a new type of mini temperature-controlling system was designed, whose key component was a micro-heater chip made of silicon.
该系统以PHILIPS公司LPC2132芯片为核心,集成温度、压力、频率和振幅模拟放大电路,步进电机驱动单元。
This system took LPC2132 chip of PHILIPS as its main processor, including temperature pressure frequency and swing analog circuit and step motor driving module.
该传感器经过激光微调,以实现高精度量程、偏移校准和温度补偿,并在每个芯片上集成了应变片和薄膜电阻网络。
The sensor is laser trimmed for precise span, offset calibration and temperature compensation. Also includes a strain gauge and thin film resistor network integrated on each chip.
基于MEMS技术研制了微结构的集成PCR-DNA分子扩增生物芯片,芯片集成了加热子、温度传感器、反应室、进样通道等;
An integrated microstructure PCR-DNA amplification biochip based on MEMS technology was fabricated, which includes heater, temperature sensor, reaction chamber and inlet channels.
基于MEMS技术研制了微结构的集成PCR-DNA分子扩增生物芯片,芯片集成了加热子、温度传感器、反应室、进样通道等;
An integrated microstructure PCR-DNA amplification biochip based on MEMS technology was fabricated, which includes heater, temperature sensor, reaction chamber and inlet channels.
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