文中还.提供了卷积器中可变行延迟、卷积数据变换后处理电路的设计方案。
The design schemes for the changeable line delay unit and the post-processing unit for data transformation in the convolver are also proposed in this paper.
介绍了描述光波偏振态的复平面法,提出了在复平面上利用偏振传递函数解决偏振光通过延迟器件的偏振态变换问题。
It also introduces the method to settle the transfer problem of the polarization state using the transfer function when polarized light passes through retardation sheet.
利用延迟重构变换的雅可比行列式,分析了动力系统重构中的拓朴性质。
The topological properties of the delay time reconstruction transformation of the forced Brusselator system are analysed by means of the Jacobian of the transformation.
本文介绍一种基于频率变换的时间放大技术,可用于正弦周期信号的相位精确测量或延迟时间测量。
This article introduces a technology of time amplifier based on frequency converter. It can be used for phase detection of sine period signal or determination of time delay.
基于线性可逆变换方法,提出一种有效提高延迟反馈法控制混沌的方案。
A scheme, which can be used to effectively improve the quality of time_delayed feedback control of chaos, was proposed based on linear invertible transform.
通过傅立叶变换在频域求解声压方程,避免了繁琐的时间延迟计算。
Implementing Fourier Transform to solve the acoustic pressure correction equation in the frequency domain can avoid cockamamie retarded time calculation.
利用延迟重构变换的雅可比行列式,分析了常微方程系统重构的拓扑性质。
The topological properties of the delay-time reconstruction transformation of dynamic system are analysed by means of the Jacobian of the transformation.
提出了一种无需外部时钟、可以部分抵消工艺偏差、基于标准单元的延迟环A/D变换器。
A non-clock delay-ring A/D converter is presented, which is based on standard cell library and not sensitive to process variation.
它由多丝室、延迟线、主放大器、定时单道以及时幅变换器等组成。
It consists of a multiwire proportional chamber, a delay line, a main amplifier, a timing single channel amplitude analyser and a time to amplitude converter.
基于时间延迟反馈近似思想,提出一类无源反馈控制方法,实现了电压模式Buck变换器的混沌控制。
A kind of passive feedback chaotic control in the voltage-mode Buck converter is presented based on the approximation concept of time-delayed feedback control (TDFC).
基于时间延迟反馈近似思想,提出一类无源反馈控制方法,实现了电压模式Buck变换器的混沌控制。
A kind of passive feedback chaotic control in the voltage-mode Buck converter is presented based on the approximation concept of time-delayed feedback control (TDFC).
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