An exponent-scalable method for very small capacitance spread and large time constant of switched-capacitor integrator

Quan Li; Yan Li; Xiaosong Wang; Xin Liu; Yu Liu

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An exponent-scalable method for very small capacitance spread and large time constant of switched-capacitor integrator

机译：一种用于非常小的电容扩展的指数可伸缩方法和开关电容集成器的大时间常数

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For switched-capacitor (SC) integrator, an exponent-scalable method to obtain very small capacitance spread and large time constant is presented. Based on Nagaraj-89 SC integrator, an additional SC feedback branch with an extra clock phase is employed, resulting in capacitance spread to the 3rd power in z-domain transfer function. Furthermore, with (N ? 2) additional SC feedback branches using (N ? 2) extra clock phases, capacitance spread to the Nth power can be achieved in z-domain transfer function. Compared with previous SC integrators, this proposed exponent-scalable method is analyzed, and it is verified by simulation that larger time constant can be realized with less capacitor area. Moreover, Monte-Carlo simulation shows low relative standard deviation of time constant is also maintained.

机译：对于开关电容（SC）积分器，提出了一种指数可伸缩的方法，以获得非常小的电容扩展和大时间常数。基于NagaraJ-89 SC积分器，采用具有额外时钟相的附加SC反馈分支，导致电容扩展到Z域传递函数中的第3电源。此外，使用（n≥2）附加使用（nΔ2）额外的时钟相，可以在z域传递函数中实现扩展到第n个功率的电容。与先前的SC集成商相比，分析了这种提出的指数可伸缩方法，通过模拟验证，较大的电容器区域可以实现较大的时间常数。此外，Monte-Carlo仿真也显示了时间常数的低相对标准偏差。

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《IEICE Electronics Express 》 |2019年第3期| 共1页
作者
Quan Li; Yan Li; Xiaosong Wang; Xin Liu; Yu Liu;
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switched-capacitor integratorcapacitance spreadtime constant;

机译：开关电容整合器电容扩展时间常数;

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专利

1. An exponent-scalable method for very small capacitance spread and large time constant of switched-capacitor integrator [J] . Li Quan, Li Yan, Wang Xiaosong, Annals of the American Thoracic Society . 2019 ,第3期

机译：一种指数可伸缩的方法，用于非常小的电容扩展和开关电容集成器的大时间常数
2. True RC integrators with very large and very small time constants using active control of capacitance and/or resistance [J] . Ghosh S., Bandyopadhyay S. IEEE Transactions on Instrumentation and Measurement . 1988 ,第3期

机译：通过电容和/或电阻的主动控制，具有非常大和非常小的时间常数的真正RC积分器
3. SC circuit for very large and accurate time constant integrators with low capacitance ratios [J] . Espinosa Flores-verdad G., Montecchi F. Electronics Letters . 1988 ,第16期

机译：SC电路，用于具有低电容比的超大型且精确的时间常数积分器
4. Comparative analysis of two gain- and offset-compensated very large time constant switched-capacitor integrators [C] . Radev, N.A., Ivanov, . 2000

机译：两种增益补偿和失调补偿的非常大的时间常数开关电容积分器的比较分析
5. A HEURISTIC METHOD OF ASSEMBLY LINE BALANCING FOR ASSUMPTIONS OF CONSTANTOR VARIABLE WORK ELEMENT TIMES. [D] . MOODIE, COLIN LINTON. 1964

机译：假设可变变量工作时间的装配线平衡的启发式方法。
6. A Fully-Differential Switched-Capacitor Dual-Slope Capacitance-To-Digital Converter (CDC) for a Capacitive Pressure Sensor [O] . Christopher Rogi, Cesare Buffa, Niccolo De Milleri, 2019

机译：用于电容式压力传感器的全差分开关电容双斜率电容数字转换器（CDC）
7. A Method for the Numerical Integration of Coupled First-Order Differential Equations with Greatly Different Time Constants [O] . Charles E. Treanor 1966

机译：具有大量不同时间常数耦合的一阶微分方程数值积分的方法

An exponent-scalable method for very small capacitance spread and large time constant of switched-capacitor integrator

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