A new technology of airspeed meter of micro air vehicle based on micro difference pressure senso, micro amplifier and DSP is introduced.
介绍了一种采用微差压传感器、微型放大器、微功耗数字信号处理器(DSP)设计的新型微型飞行器空速计。
We also presented the design fundamentals for micro-displacement amplifier, and the necessity of reasonable design for micro-displacement amplifier has been illuminated by practical application.
提出了微位移放大机构设计的原则,通过实例说明了位移放大机构合理设计的必要性。
An output buffer amplifier with compact structure used in detection circuit of micro sensor is presented.
设计了一种主要用于微传感器读出电路的输出缓冲放大器。
The paper designs a low voltage, micro power CMOS operational amplifier with rail-to-rail output.
完成了一个低压微功耗CMOS轨至轨输出运算放大器的研究设计。
A design method of micro-displacement amplifier in a novel piezoelectric servo was proposed based on stiffness analysis of flexure hinges.
针对一种新型压电舵机的微位移放大机构,提出一种基于刚度分析的设计方法。
A new micro-ampere detector, which USES the data amplifier to enlarge the weak signal, is developed according to the principle of the ampere detection and the potentiostat.
根据安培检测和恒电位器原理,利用数据放大器采集放大微弱信号,研制了一种新型微安培检测器。
This paper introduces how to prevent the deflection of gain and temperature in an amplifier from influencing the measurement accuracy of chip micro computer data detection system.
介绍了如何克服单片机数据检测系统中放大器的增益漂移、温度漂移对测量精度的影响。
Therefore, the design of low-voltage and micro power operational amplifier is very necessary.
因此,设计低压、微功耗的运算放大器是非常必要的。
The most important technique is voltage amplifier design in study of micro current measurement on condition that noise is restrained.
在微电流测量技术中,主要是考虑在有效抑制噪声的条件下对从微电流转换来的电压信号放大方法的研究。
PZT micro -force sensors were calibrated by bimorph and electronic balance in static state and by bimorph and charge amplifier in dynamic state, small signal was tested by amplifier.
采用双晶片探头和电子天平对PZT微力传感器进行静态力标定,进而利用双晶片探头和电荷放大器对PZT微力传感器进行准静态标定,微小信号检测通过锁相放大器来实现。
From the error analysis of LDA pointing, it is found out that the amplifier without micro-lens is more preferable.
最后引入了指向误差分析,比较了这两种耦合方式的优劣,最终将放大器定为直接耦合抽运方式。
From the error analysis of LDA pointing, it is found out that the amplifier without micro-lens is more preferable.
最后引入了指向误差分析,比较了这两种耦合方式的优劣,最终将放大器定为直接耦合抽运方式。
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