介电层粗糙对电容式RF MEMS开关down态电容退化的影响

电容式RF MEMS开关在控制高功率射频信号时会发生自锁失效,由于开关桥膜与介电层之间的粗糙接触,开关的down态电容会发生退化,因此很难建立开关自锁失效阈值功率的高保真预测模型。提出了3D电磁-等效电路仿真对比建模的方法。建立开关的3D电磁仿真模型,仿真得到具有任一表面粗糙度水平的介电层粗糙开关的隔离度(S21)曲线;再建立同一开关的等效电路模型,通过调谐其down态电容值,使得仿真得到的S21曲线与3D电磁模型仿真结果尽可能吻合;此时,可以确定一组根据开关3D电磁仿真模型设定的表面粗糙度水平与等效电路模型调谐好的down态电容值的关系;改变开关介电层的表面粗糙度水平,并重复上述步骤,确定了任一开关的介电层表面粗糙度与开关down态电容退化的关系。采用文献的down态电容实测数据,初步验证了该方法的可行性和合理性。并利用所得的开关down态电容随介电层表面粗糙度退化的特性,对简化的(介电层光滑)开关自锁失效阈值功率解析计算式进行了修订,可扩展用于预测介电层粗糙开关的功率容量。

城轨车辆用薄膜电容性能退化影响研究

薄膜电容失效前的性能退化对地铁车辆的影响常被忽视。以地铁车辆辅助供电系统中三相滤波电容为例,基于其性能退化特征在Matlab中建立了电容性能退化模型,结合实际运行中辅助供电系统的载荷变化和电网产生的谐波干扰进行了仿真分析。结果表明:电容性能退化会导致输出电压有效值降低,电压谐波含量大大超过标准值。当电容容值下降到一定值时甚至会引起LC滤波电路发生谐振,系统输出电压THD到了24.24%,对辅助供电系统的正常工作造成严重影响。本研究可对地铁车辆用薄膜电容的可靠性设计提供理论参考,对地铁车辆的智能运维有重要的实用价值。

基于逆向卡尔曼滤波的电力变换器故障诊断方法

针对变换器中因电解电容退化而引起的等效电阻异变的故障诊断问题,提出了一种基于逆向卡尔曼滤波的电力变换器故障诊断方法。将变换器抽象为一类卡尔曼滤波动态方程。将电路元件参数作为卡尔曼滤波的未知状态,利用电路的电压和电流作为已知矩阵,逆向推导卡尔曼滤波递推公式,完成电力变换器的参数辨识和故障诊断。针对变换器正常状态下的参数辨识结果,表明所提出的逆向卡尔曼滤波参数辨识算法具有较高的精度。同时针对变换器故障状态下的故障诊断结果,表明逆向卡尔曼滤波算法也具有很好的跟踪性,能够快速显示故障元件及其参数变化情况。仿真验证了所提出方法的有效性和实用性。

2．5Gb／sCMOS光接收机限幅放大器

采用SMIC 0.18μm CMOS工艺设计了光接收机限幅放大器。该放大器采用全差分结构,利用退化电容技术增加高频时放大器的等效跨导,并在Cherry-Hooper结构里引入有源电感反馈代替传统的电阻反馈来扩展带宽。Hspice仿真结果表明限幅放大器具有46dB的中频增益、3.2GHz带宽,当输入电压信号从3.6mVPP到1.7VPP变化时,50Ω负载线上的输出电压限幅在340mVPP,输出眼图稳定清晰。核心电路功耗20.431mW。

适合背板信号传输的连续时间均衡器

介绍了一种适用于背板信号传输的连续时间均衡器(EQ),给出了电路的增益表达式。该电路数据传输速率可达到1.25Gb/s。采用0.18μm CMOS工艺对电路进行仿真,结果表明,电路自举因子为6dB和12dB,分别支持50mm和100mm的FR4背板信号传输。

Lifetime prediction for tantalum capacitors with multiple degradation measures and particle swarm optimization based grey model

A lifetime prediction method for high-reliability tantalum （Ta） capacitors was proposed, based on multiple degradation measures and grey model （GM）. For analyzing performance degradation data, a two-parameter model based on GM was developed. In order to improve the prediction accuracy of the two-parameter model, parameter selection based on particle swarm optimization （PSO） was used. Then, the new PSO-GM（1, 2, co） optimization model was constructed, which was validated experimentally by conducting an accelerated testing on the Ta capacitors. The experiments were conducted at three different stress levels of 85, 120, and 145℃. The results of two experiments were used in estimating the parameters. And the reliability of the Ta capacitors was estimated at the same stress conditions of the third experiment. The results indicate that the proposed method is valid and accurate.

Capacity Region of a Class of Gaussian Cognitive Degraded Broadcast Channel

This paper studies the cognitive broadcast channel in which the primary user communicates to the primary receiver, while the secondary user has noncausal knowledge of the primary radio's codeword and expects to communicate to two secondary receivers. Comparing with the existing cognitive radio channel which considers only one secondary receiver, cognitive broadcast channel studies the case that there are multiple secondary receivers.To this end, we investigate the fundamental limits of the performance of the Gaussian cognitive broadcast channel from the information theoretic perspective. Specifically, we derive the capacity region of the Gaussian cognitive degraded broadcast channel with weak interference.