论述了利用“游标插值”的信号细分新方法,研制差线栅传感器的新思想。
The new thought of developing differential grating displacement sensor with the novel signal subdivision method of slipper interpolating is described.
跨阻放大器(TIA)采用全差分结构,利用震荡反馈技术和可调节共源共栅(RGC)结构来增加其带宽。
The transimpedance amplifier (tia) takes a fully differential configuration, feedback oscillation technique, and regulated cascode (RGC) input stage for bandwidth enhancement.
提出了一种基于准浮栅技术的折叠差分结构,基于此结构设计,实现了超低压运算放大器。
A new folded differential pair topology based on quasi-floating gate technique is presented, and an ultra-low voltage op amp based on this structure is designed.
提出了二阶精度隐式矢通量单步差分格式并用来求解跨压器进气道、叶栅的跨音流场。
An implicit flux vector splitting form in one-step with second-order accuracy was proposed for solving the transonic flow fields of air channels and cascades of diffusers.
在设计中还采用了共源共栅两级运放和差分动态比较器来优化电路的速度和功耗。
The cascode two -stage op -amp and differential dynamic comparator are also used to optimize the speed and power dissipation.
在设计中还采用了共源共栅两级运放和差分动态比较器来优化电路的速度和功耗。
The cascode two -stage op -amp and differential dynamic comparator are also used to optimize the speed and power dissipation.
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