DESIGN AND ANALYSIS OF INTEGRATED OPERATIONAL AMPLIFIER XD1531 WITH LOW NOISE AT LOW FREQUENCIES

Principles of design are described for the low frequency integrated operationalamplifler XD1531 with low noise. The procedures of design of both the circuit structure and the tran-sistor shape are considered. The first stage of the circuit is designed with the methods of low noise atlow frequencies. The measures which decrease noises, especially, the 1/f noise originating .from thesemiconductor surface state and defects, are used for the transistor structure design. With analysisand comparison to products here and abroad in characteristics, it is shown that XD1531 has a lowernoise index at low frequencies than others, and the effectiveness of design methods for bringing lownoises have been demonstrated.

A VERSATILE CURRENT-MODE BIQUAD USING OPERATIONAL AMPLIFIERS

A versatile current-mode biquadratic filter using three operational amplifiers and nine passive elements is proposed. By suitably choosing the output branch, lowpass, bandpass, highpass, bandstop and allpass transfer functions are realized simultaneously without changing the circuit configuration and elements. Two circuits, one is for low frequency application and the other for high frequency, are proposed. The center frequency, quality factor and gain constants of the circuit can be tuned independently. Simulated results show that the circuits work successfully.

High-Performance CMOS Current Mirrors: Application to Linear Voltage-to-Current Converter Used for Two-Stage Operational Amplifier

This paper presents two schemes of high performance CMOS current mirror, one of them is used for operational tran-sconductance amplifier (OTA) in analog VLSI systems. The linearity, output impedance, bandwidth and accuracy are the most parameters to determine the performance of the current mirror. Here a comparison of two architectures based on same architecture of the amplifier is presented. This comparison includes: linearity, output impedance, bandwidth and accuracy. These two circuits are validated with simulation in technology AMS 0.35 μm. An operational amplifier based on the adapted current mirror is proposed. Its frequency analysis with large bandwidth is validated with the same technology.

MicroAmplifier^(TM)系列运算放大器的特性及应用

扼要介绍 MicroAmplifier^(TM)系列运算放大器的特性、封装型式及应用技术。

Fuzzy System Design Using Current Amplifier for 20 nm CMOS Technology

In the recent decade,different researchers have performed hardware implementation for different applications covering various areas of experts.In this research paper,a novel analog design and implementation of different steps of fuzzy systems with current differencing buffered amplifier(CDBA)are proposed with a compact structure that can be used in many signal processing applications.The proposed circuits are capable of wide input current range,simple structure,and are highly linear.Different electrical parameters were compared for the proposed fuzzy system when using different membership functions.The novelty of this paper lies in the electronic implementation of different steps for realizing a fuzzy system using current amplifiers.When the power supply voltage of CDBA is 2V,it results in 155mW,power dissipation;4.615KΩ,input resistance;366KΩ,output resistances;and 189.09 dB,common-mode rejection ratio.A 155.519 dB,voltage gain,and 0.76V/μs,the slew rate is analyzed when the power supply voltage of CDBAis 3V.The fuzzy system is realized in 20nm CMOS technology and investigated with an output signal of high precision and high speed,illustrating that it is suitable for realtime applications.In this research paper,a consequence of feedback resistance on the adder circuit and the defuzzified circuit is also analyzed and the best results are obtained using 100K resistance.The structure has a low hardware complexity leading to a low delay and a rather high quality.

A 0.4 V Bulk-Driven Amplifier for Low-Power Data Converter Applications

This paper presents the design of an ultra low-voltage (ULV) pseudo operational transconductance amplifier (P-OTA) that is able to operate with a single supply voltage as low as 0.4 V. The proposed circuit is based on the bulk-driven technique and use of cross-coupled self-cascode pairs that boosts the differential DC gain. The stability condition of this structure for the DC gain is considered by definition of two coefficients to cancel out a controllable percentage of the denominator. This expression for stability condition yield optimized value for the DC gain. Also, as the principle of operation of the proposed technique relies on matching conditions, Monte Carlo analyzes are considered to study of the behavior of the proposed circuit against mismatches. The designed P-OTA have a DC gain of 64 dB, 212 KHz unity gain bandwidth, 57phase margin that is loaded by 10 pF differential capacitive loads, while consume only 16 μW. Eventually, from the proposed P-OTA, a low-power Sample and Hold (S/H) circuit with sampling frequency of 10 KS/s has been designed and simulated. The correct functionality for this configuration is verified from –30℃ to 70℃. The simulated data presented is obtained using the HSPICE Environment and is valid for the 90 nm triple-well CMOS process.

应用于光模块的低成本曼彻斯特解码方案

为了降低传统光模块行业中曼彻斯特解码方案的成本并提高其兼容性和可靠性,提出了一种应用于光模块的低成本曼彻斯特解码方案。首先,利用采样电阻与运放组合电路对信号进行预处理,解决不同光强条件下采样后信号幅值过小或饱和而无法解码的问题。其次,利用控制器内部的可编程计数阵列(PCA)对信号进行边沿捕捉和持续时间计算,解决信号同步问题。在同步判断过程中,引入了持续时间容差设计,并对数据帧头的丢失进行了优化判断,从而显著提升解码方案的抗干扰能力。最后,利用控制器内部的可编程逻辑单元(CLU)和定时器提取信号时钟,并将信号发送到内部串行外设接口(SPI)模块完成解码,以提高解码效率并解决控制器的资源消耗和解码兼容性问题。测试结果表明,该方案能够进行准确且稳定的数据解码,满足实际的应用需求。

高增益高驱动能力的基准电压缓冲芯片的设计

为了解决当前CMOS基准电压缓冲器在驱动大电容负载电路时所面临的可靠性问题和性能瓶颈,提出一种高增益高驱动能力的基准电压缓冲芯片。该芯片采用CMOS缓冲放大器,结构包括折叠式共源共栅输入级、轨至轨Class AB输出级和推挽输出缓冲级。设计中加入了修调电路、Clamp电路及ESD防护电路。芯片面积为2390μm×1660μm。在SMIC 0.18μm CMOS工艺下进行了前仿真、版图绘制及Calibre后仿真。前仿结果显示:当负载电容为10μF时,电路实现了126 dB的高开环增益和97°的相位裕度,同时PSRR超过131 dB,噪声为448 nV/Hz@100 Hz及1 nV/Hz@100 Hz。后仿结果与前仿结果基本一致。总体结果表明,该电路具有高增益、高电源抑制比及低噪声等特点,同时拥有很高的输出驱动能力。因此,所提出的基准电压缓冲芯片可以用于驱动如像素阵列等具有大电容负载的电路。

一种拥有增量和减量的高频率浮动忆阻器电路

提出了一种可在高频下工作的浮动型忆阻器电路,该电路由交叉耦合的运算跨导放大器、浮动电流源、接地电容与接地电阻组成,通过使用带交叉耦合的OTA来提高工作频率范围;浮动忆阻器通过翻转输入端口实现在增量和减量的两种状态中进行切换。所提电路基于SMIC 180 nm CMOS工艺设计实现,采用±0.9 V的双电源供电,忆阻器的最大工作频率可达到100 MHz,功耗仅为0.496 m W。

一种低压低噪声运算放大器的设计

阐述基于0.18μm COMS标准工艺设计一种新型低压低噪声运算该放大器电路。相比传统运算,该放大器采用双端输入、双端输出,采用改进型反馈式AB类输出级,有效降低放大器噪声与功耗。

水声传感器调理电路设计

由于水下环境极其恶劣且水声传感器输出信号微弱,在传输微弱信号时又常常受到其他信号的干扰而不能直接用于后级采集电路,因此需要对水声传感器的输出信号进行一系列处理。设计一种水声传感器调理电路,主要包括前置放大电路、滤波电路、单端转差分电路。该电路采用了低功耗、极低噪声、超低偏置电流的高速仪表放大器AD8421和低功耗、低噪声、低偏置电流的运算放大器AD8022,其中滤波电路由四阶有源SK高通滤波器与二阶有源MFB低通滤波器级联构成。仿真和测试结果表明,该电路可实现固定增益为20 dB,较宽的通频带100 Hz~500 kHz,截止频率处的衰减小于1 dB,短路等效输入噪声不大于2μVrms。该电路的噪声性能较一般信号调理电路更优异且电路结构更简单,可以灵活运用于微弱信号的采集和处理。

一种折叠式共源共栅运算放大器的准确设计方法

传统折叠式共源共栅放大器的人工设计流程只能得到近似的设计结果,优化方法获得的结果较好,但需耗费大量计算。文中针对这类放大器,给出了一种准确设计方法。通过SPICE仿真弥补传统设计流程各性能指标解析近似产生的误差,同时采用基于BSIM模型的器件尺寸计算,反复执行这一设计流程,消除了传统设计过程存在的误差,得到准确的设计结果。文中所提方法相较于传统人工方法更精确,避免了设计时的反复调试;与优化方法相比,虽仍要通过一个迭代过程,但因收敛较快,故计算量较小。文中以0.18μm与90 nm实际工艺库下的电路设计为例,给出了仿真设计结果,证明了所提方法的正确性与有效性。

项目式教学在电工电子实践教学中的应用

针对南京邮电大学电工电子实验教学存在的问题,课程教学研究小组以学生为中心的教学思路融入项目式教学,将实验内容系统化、实验任务项目化、电路设计渐进化的方法设计,并实施了项目式教学方案。为培养学生实验工程设计能力、启发学生的自主创新性思维,最终有效提升电工电子实验课程教学质量,为新工科背景下电工电子实验课程教学改革提供实践范例。

基于微弱信号的可控放大电路设计

随着信息技术的不断改革创新,对微弱信号的检测有了更高的要求。在微弱信号的检测中,常常需要放大微伏级的电信号,外部环境干扰以及电路辐射干扰给微弱信号的检测增加了难度。比如在潜艇的声呐信号检测中,由于传播衰减、海洋噪声等因素的影响,导致需要捕捉的微弱信号更加难以检测,如何滤除这些干扰,检测到所需信号成为一大难题。本文设计的微弱信号可控放大电路以高精度斩波稳零运算放大器TLC2652和数字可编程增益放大器AD8253为核心,通过级联方式对微弱信号进行放大滤波,可根据微弱信号的大小实现1/10/100/1 000/10 000倍的放大控制,通过实验结果验证其放大的效果。

基于高摆率误差放大器的低功耗LDO设计

本文设计了一种具有低静态电流的低压差线性稳压器(LDO).针对传统LDO在低静态电流下瞬态响应不足的问题,电路中的误差放大器采用两个共栅差分跨导单元交叉耦合连接进行设计,提高其压摆率;利用体偏置运放改变功率管的阈值电压实现功率管在不同负载的快速切换;同时采用动态偏置对电路进行偏置减少过欠冲值.电路采用台积电(TSMC)0.18µm互补金属氧化物半导体(CMOS)工艺进行设计,版图核心面积为220µm×140µm.仿真结果表明,该LDO在最小负载电流与最大负载电容的组合下相位裕度达到100度,消耗的静态电流仅为849 nA.当负载电流在500 ns时间内从100µA到100 mA进行切换时,电路表现出良好的瞬态响应,其中过冲电压为220 mV,欠冲电压为225 mV.经过计算,品质因数(FOM)值为0.198 mV.

高速运算放大器低失调输入级的设计

差分对结构是运算放大器(运放)的基础结构,对电路性能至关重要。现实中,工艺偏差无法避免,其带来的失配会影响运放的精度。对多级运放而言,输入级的失调程度决定了整个放大器的精度,因此低失调输入级成为运放设计的重点之一。为获得低失调的运放输入级,研究了差分对电阻RC和电路失配的关系,通过修调失配电阻ΔRC补偿其余失配项带来的影响。使用西岳4μm 50 V的工艺做全芯片参数验证,结果表明,失调电压低于60μV,相较于通用运放减小了76%;温漂系数可达0.3μV/℃,相较于通用运放减小了50%。这种方法简单、方便,可避免对电路结构做大规模调整,且对电路功耗的影响可以忽略。

基于AD8321的程控射频宽带放大器设计

研究以运算放大器芯片AD8321作为核心的程控射频放大电路。该系统由AD8321、微控制器电路以及信号均衡电路组成。为保证放大器的增益范围,核心放大电路由三级放大器级联组成。为实现带宽内增益平坦度,级间设计插入信号均衡电路,增益大小由微控制器通过串行接口对AD8321进行设定。实现了程控增益0~60 dB可调,1~80 MHz带宽内增益起伏小于1 dB,最大输出电压正弦波有效值大于1 V,输出信号波形无明显失真。

一种低功耗高性能AB类运算放大器的设计

为了解决传统运算放大器在物联网系统等低功耗应用中转换速率较低和增益带宽积较小的问题,设计了一种新型的AB类运算放大器。提出了基于差分对管的电流复用技术,将输入晶体管产生的差分电流再次利用,提高了电路的输出电流,获得了更高的转换速率、增益带宽积和直流增益。此外,结合了基于自适应偏置电路的AB类输入级和局部共模反馈电路,使得运算放大器输出级的动态电流摆脱了静态电流的限制,以较小的静态电流获得了较大的动态电流,进一步提升了电路的关键性能参数。基于180 nm CMOS工艺,对运算放大器进行设计和验证。仿真结果表明:在70 pF的负载电容下,正负转换速率分别为23.55 V/μs和-31.47 V/μs,增益带宽积为2.38 MHz,直流增益为63 dB,静态功耗仅为23μW。与传统的AB类运算放大器相比,所提出的电路在实现低功耗的同时具有更高的转换速率、增益带宽积和直流增益,适用于模数转换器和电源管理等低功耗电路系统。

通用有源电流模式滤波器

提出了两种通用有源电流模式滤波器:1用两个电流传送器(CCII)实现的电流模式三输入单输出二阶滤波器新电路,选择不同的输入信号组合即能获得低通、高通、带通、陷波和全通五种二阶滤波函数;2由CCII和多输出端跨导运算放大器(OTA)实现的单输入多输出滤波器新电路.所提电路结构简单、中心频率ω0和品质因数Q独立可调、无源元件全部接地,滤波器特性参数对无源元件灵敏度低.理论分析和计算机仿真表明所提电路方案正确.

基于运算放大器的压控恒流源

针对直线感应加速器校正线圈的供电需求,用悬浮负载法和接地负载法研究了基于功率运算放大器的电压控制型恒流源。从理论计算、数值模拟和实验方面研究和对比了两种压控恒流源的工作原理、工作特性和输出结果。试验结果表明,在两种恒流源上都能够得到预定的电流输出,悬浮负载恒流源的输出更加稳定,能够满足将来的工程运用要求。