1) two-level square spiral inductor
两层螺旋电感
1.
In this thesis, we first obtain the simple CAD formula for inductance calculation of atwo-level square spiral inductor, which currents of the two spirals are in the same direction.
本文首先推导出两层螺旋电感上层与下层的电流方向相同时的电感公式,结合其他研究者已经成功推导出的单层螺旋电感的电感公式,就能很容易地计算出两层螺旋电感之间的互感,继而得到上层与下层螺旋电感的电流方向相反时的电感公式,之后还分别给出了,上层与下层螺旋电感的电流方向相同和相反时,不同的耦合电容的计算公式以及等效电路。
2) multilayer spiral inductor
多层螺旋电感
3) Spiral inductor
螺旋电感
1.
Equivalent circuit model and parameter extraction of on-chip planar spiral inductors on silicon substrates;
硅基平面螺旋电感的等效电路模型和参数提取
2.
This thesis mainly brings forward the particular optimizing approach that aims at the modeling,analysis and design of the integrated spiral inductors.
针对于硅基集成电路中螺旋电感的建模、分析和设计提出了一种新的优化设计方法。
3.
Based on the analyzing of the present inductor structures, a particular high performance optimization plan was proposed, which made the quality factor and the difference characteristic of the spiral inductor be remarkable enhanced.
分析了已有电感结构,提出了一种独特的高性能的优化方案,使得螺旋电感的品质因数和差分特性都有了显著的提高。
4) spiral inductors
螺旋电感
1.
Based on the typical lumped equivalent-circuit model of spiral inductor on silicon(SIOS) for RF integrated circuit(RFIC), differential symmetric and common planar circular spiral inductors have been simulated and computed by using the Ansoft software HFSS which is a high-performance full-wave electromagnetic(EM) field simulator.
以硅衬底螺旋电感(SIOS)的紧凑集总模型为基础,借助任意三维无源器件全波电磁(EM)场仿真器HFSS(HighFrequencyStructureSimulator),对差分对称圆形、普通平面圆形两种螺旋电感进行了对比研究。
2.
Silicon radio-frequency (RF) integrated circuit spiral inductors are modeled and analyzed.
对硅衬底RF集成电路中的螺旋电感进行电磁场建模 ,考虑了衬底损耗效应 ,并通过电路分析和网络分析技术得到了二端口简化电感模型 。
5) on-chip spiral inductor
片上螺旋电感
1.
Furthermore the optimized on-chip spiral inductor has been adopted to realized the shunt peak technology with which the broad bandwidth performance was achieved.
该放大器采用了RGC放大器的电路拓扑结构,应用了优化的片上螺旋电感,通过并联峰化技术实现了带宽放大。
2.
The thesis analyzes the model of on-chip spiral inductors and the realization of varactors.
分析了片上螺旋电感模型和可变电容的实现方法,采用ASITIC软件对电感进行优化,首先从工艺参数方面,给出了片上螺旋电感性能随金属的电阻率、衬底的电阻率、金属层到衬底的厚度变化的模拟和分析结果;其次从几何参数方面,给出了片上螺旋电感性能随形状、填充率、间距、金属线宽及圈数变化的模拟和分析结果。
6) spiral inductor
平面螺旋电感
1.
In this paper, the FDTD method is applied to explain the crowding effect of the spiral inductor , which can never be accurately analyzed by analytical solutions.
文章通过电磁场时域有限差分 (FDTD)算法与遗传算法 (GA)相结合进行平面螺旋电感设计。
补充资料:电感器(见电感和标准电感器)
电感器(见电感和标准电感器)
inductor
diongon印电感器(inductor)见电感和标准电感器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条