一种适用于LDO的三级误差放大器的设计

为了促进LDO在低电源电压环境中的应用,提高其稳定性,在此采用SMIC0．35um,N阱CMOS工艺,设计并实现了适用于LDO内部误差放大器的一种单密勒电容频率补偿的三级CMOS运算放大器。仿真结果表明该运算放大器的工作电压范围宽（2．5～6．5V）,静态电流小,开环电压增益为112．16dB,相位裕度为89．03°,增益带宽积为6．04MHz,共模抑制比为89．3dB,电源抑制比为104．8dB。     

全差分可调频率四阶Chebyshev滤波器的实现

提出了一种新的全差分运算放大器,该运算放大器在具有电压共模负反馈的同时还具有电流共模负反馈,能较好地稳定其工作点。通过利用MOS管工作在线性区便能作可变电阻之用的特性,设计实现了基于R-MOSFET-C运放的全差分频率连续调节的四阶Chebyshev低通滤波器。该滤波器采用台湾联电(UMC)2层多晶硅、2层金属(2P2M)5V电源电压、0.5m CMOS工艺生产制造。其芯片面积大小为0.36mm~2,截止频率调节范围为20kHz到420kHz,输入信号频率在100kHz,2.5Vpp时的失真小于-65dB,功耗仅为16mW。     

LDO线性稳压器中高性能误差放大器的设计

设计了一个共源共栅运算跨导放大器,并成功地将其应用在一款超低功耗LDO线性稳压器芯片中。该设计提高了电源抑制比(PSRR),并具有较高的共模抑制比(CMRR)。电路结构简单,静态电流低。该芯片获得了高达99 dB的电源抑制比。     

一种低噪声精密运算放大器

基于40 V标准双极工艺,设计了一种低噪声精密运算放大器电路。该电路主要用于高精度、高分辨率系统。介绍了运算放大器总体架构以及工作原理,对低噪声精密运算放大器设计关键技术,如输入偏置电流降低、频率稳定性补偿、输入失调电压降低等,进行了分析。利用Spectre软件进行了仿真,并进行了流片验证。对芯片进行了实际测试,结果显示,在±15 V工作电压条件下,该放大器的输入偏置电流为2 nA,输入失调电压为10 μV,大信号电压增益为132 dB,共模抑制比为135 dB,电源抑制比130 dB。电路满足高精度、高分辨率、低噪声等各种场合的应用需求。     

片上自动调谐的可编程有源RC滤波器

研制了一款可编程6阶巴特沃斯有源RC滤波器.为提高滤波器中运算放大器的增益带宽积,设计了一种新型的前馈补偿运算放大器.为消除工艺偏差和环境变化对截止频率的影响,设计了一种片上数字控制频率调谐电路,并采用TSMC 0.18 μm CMOS工艺进行了流片.滤波器采用低通滤波结构,测试结果表明,3 dB截止频率为1～32 MHz,步进1 MHz,带内增益0 dB,带内纹波0.8 dB,2倍带宽处带外抑制不小于24 dBc,5倍带宽处带外抑制不小于68 dBc,滤波器等效输入噪声为340 nV/√Hz@1MHz,调谐误差为±3％.滤波器裸芯片面积0.87 mm×1.05 mm.采用1.8V电源电压,滤波器整体功耗小于20 mW.     

一种高增益三级运算放大器

提出了一种高增益三级运算放大器。采用五管全差分、套筒式共源共栅、典型共源级结构作为运算放大器的放大级,采用共模抑制电路、频率补偿电路、高摆幅偏置电路,提高了运算放大器的性能。结果表明,在3 V电源电压、4 pF负载电容的条件下,该运算放大器的开环直流增益为155 dB,单位增益带宽为112 MHz,相位裕度为84.1°,电源抑制比为151 dB,共模抑制比为-168 dB。该运算放大器的补偿电容较小,节省了面积。     

一种高CMRR高增益运算放大器的设计

设计了一种基于TSMC 0.5 μm工艺的高共模抑制比、高增益运算放大器。针对该运放的结构,提出了相应的频率补偿方法,使得电路具有较好的稳定性。该运放可用于生物电势信号检测等对共模抑制比要求较高的场合。仿真结果表明,电路的共模抑制比高达137 dB,低频增益为117 dB,单位增益带宽为6.36 MHz,功耗仅为227 μW。     

一种高性能共模反馈CMOS运算放大器

介绍了一种具有高增益,高电源抑制比(CMRR)和大带宽的两级共源共栅运算放大器。此电路在两级共源共栅运算放大器的基础上增加共模反馈电路,以提高共模抑制比和增加电路的稳定性。电路采用0.35μm标准CMOS工艺库,在Cadence环境下进行仿真。结果显示,该放大器增益可达到101 dB,负载电容为10 pF时,单位增益带宽大约为163 MHz,共模抑制比可达101dB,电路功耗仅为0.5 mW。     

一种高共模抑制比轨到轨全差分运算放大器

针对传统全差分运算放大器电路存在输入输出摆幅小和共模抑制比低的问题,提出了一种高共模抑制比轨到轨全差分运算放大器电路。电路的输入级采用基于电流补偿技术的互补差分输入对,实现较大的输入信号摆幅;中间级采用折叠式共源共栅结构,获得较大的增益和输出摆幅;输出级采用共模反馈环路控制的A类输出结构,同时对共模反馈环路进行密勒补偿,提高电路的共模抑制比和环路稳定性。提出的全差分运算放大器电路基于中芯国际(SMIC) 0.13μm CMOS工艺设计,结果表明,该电路在3.3 V供电电压下,负载电容为5 pF时,可实现轨到轨的输入输出信号摆幅;当输入共模电平为1.65 V时,直流增益为108.9 dB,相位裕度为77.5°,单位增益带宽为12.71 MHz;共模反馈环路增益为97.7 dB,相位裕度为71.3°;共模抑制比为237.7 dB,电源抑制比为209.6 dB,等效输入参考噪声为37.9 nV/Hz^1/2@100 kHz。     

1毫安运算放大器打破了速度障碍

据称,运算放大器AD8014在提供业界领先的速度同时,工作时的电源电流也仅仅为1毫安。该电流反馈放大器的主要特性参数有:-3dB带宽为400MHz频率,转换速率4000V/μs,建立时间24ns,精度0.1％;具有驱动50或75Ω串行终端线上的2V峰峰值的视频信、同时保持-3dB带宽为135MHz的能力。     

Current-mode continuous-time filters using complementary current mirror pairs

A design of current-mode continuous-time filters for low voltage and high frequency applications using complementary bipolar current mirror pairs is presented. The proposed current-mode filters consist of simple bipolar current mirrors and capacitors and are quite suitable for monolithic integration. Since the filters are based on the integrator type of realization, the proposed method can be used for a wide range of applications. The frequency of the filters can easily be changed by the DC controlling current. A fifth-order Butterworth and a third-order leapfrog filter with tunable cutoff frequencies from 20 MHz to 100 MHz are designed as examples and simulated by SPICE using standard bipolar parameters.     

Inverse Ultraspherical Filters

The inverse ultraspherical filter is derived and its properties analyzed. It is shown that the inverse ultraspherical filter has smaller transition band than the inverse Chebyshev filter under certain circumstances while still maintaining the maximally flat passband characteristic. Filter pole and zero calculations are described and typical magnitude and delay responses generated. Nomographs of inverse ultraspherical filters are also provided for determining filter order and for possible magnitude response optimization.Celestino A. Corral was born in Havana, Cuba. He earned his Bachelors, Masters and Ph.D. degrees in electrical engineering from the University of Miami, Florida, in 1985, 1987, and 1993, respectively. He completed his Ph.D. program under a Patricia Roberts Harris fellowship. From 1988 to 1990 Dr. Corral was a Member of the Technical Staff at Sandia National Laboratories, Albuquerque, New Mexico, where he was involved in the analysis, modeling, and design of custom circuits for piezoelectric sensor components. In 1994, he joined Scientific-Atlanta in Atlanta, Georgia, as an Associate Staff RF Engineer and worked on communication systems and specialized microwave software. In 1997 he was Senior Design Engineer at Origin Data Systems in Boca Raton, Florida, where he had multiple roles in system, hardware, and software development for a novel asset management/RFID system. Currently, Dr. Corral is a Distinguished Member of the Technical Staff in Motorola Labs, Plantation, Florida, and is involved in ultra-wideband, wideband, and propagation research. His interests include circuit and filter theory, communication systems, numerical analysis, signal processing, and constrained optimization. He has published over twenty-five journal and conference papers, has six patents filed, and two trade secrets.Dr. Corral was principal recipient of the Myril B. Reed Best Paper Award for the 40th Midwest Symposium on Circuits and Systems in 1997. Dr. Corral is also the principal recipient of the Ambrose Fleming Premium for IEE Proceedings on Circuits, Devices, and Systems, 2000. Dr. Corral is a Senior Member of IEEE and a member of Omicron Delta Kappa, Tau Beta Pi, and Eta Kappa Nu honor societies.     

波导带通滤波器的精确设计和快速优化

介绍了采用三维微波电磁场仿真软件快速提取直接耦合波导带通滤波器耦合窗口参数的方法,并提出了优化最终模型的快速扫描技术.全波仿真及实验结果表明,该方法能满足波导带通滤波器快速精确设计的要求.     

Design of two-dimensional directional filters

A directional filter has a passband extending fully along a straight line passing through the origin. In its original form the transformation technique, a powerful tool for designing two-dimensional FIR filters, is not useful to design such a filter. In this communication we suggest a few analytical and optimisation-based methods to design directional filters using the transformation technique. The superiority of the proposed methods over existing techniques is demonstrated.     

一种基于CIC滤波器的有效锐化方法研究

介绍了对积分梳状滤波器（CIC滤波器）的有效锐化。所提出的锐化滤波器的结构由两个主要部分组成：一个梳状滤波器的级联部分和一个锐化滤波器部分。所提出的方案使得滤波器中锐化部分的工作速率比输入速率大为降低，其频谱响应特性比传统的也有所改进。通过MATLAB仿真，可看出改进锐化后的滤波器性能更优。     

DDC中的抽取滤波器设计及FPGA实现

本文介绍了在数字下变频（DDC）中的抽取滤波器系统设计方法和具体实现方案。采用CIC滤波器、HB滤波器、FIR滤波器三级级联的方式来降低采样率。通过实际验证，证明了设计的可行性。     

Miniaturized dielectric waveguide filters

Design techniques for a new class of integrated monolithic high-permittivity ceramic waveguide filters are presented. These filters enable a size reduction of 50% compared to air-filled transverse electromagnetic filters with the same unloaded Q-factor. Designs for Chebyshev and asymmetric generalised Chebyshev filter and a diplexer are presented with experimental results for an 1800 MHz Chebyshev filter and a 1700 MHz generalised Chebyshev filter showing excellent agreement with theory.     

一种数字下变频抽取滤波器的设计

对一个针对数字下变频应用的抽取滤波器从设计指标到版图实现的设计过程进行了详细介绍.该抽取滤波器实现了20倍的降采样,由CIC滤波器、CIC补偿滤波器和半带滤波器三级依次串联而成.通过利用抽取滤波器的等价变换和多项分解性质,各滤波器级的硬件电路开销和运行功耗都得到了降低.     

大功率谐波吸收式滤波器设计

介绍了大功率谐波吸收式滤波器的实现电路，这些电路满足了信号分流的技术要求。文中给出了详细的工作原理和测试数据。     

Single-stage line-coupled ac/dc converter with high power factor and ripple-free input current

Single-stage line-coupled ac/dc converter with high power factor and ripple-free input current is proposed. The proposed power factor correction circuit can achieve high power factor and ripple-free input current using a coupled inductor. Experimental results for a 400?W converter at a constant switching frequency of 100?kHz are obtained to show the performance of the proposed converter.