0.18 /spl mu/m CMOS dual-band UWB LNA with interference rejection

A CMOS dual-band ultra-wideband low noise amplifier (LNA) with interference rejection is presented. The proposed LNA employs a current reuse structure to reduce power consumption and an active notch filter to produce in-band rejection in the 5 GHz WLAN frequency band. The load tank of the current reuse stage is optimised to provide an additional out-band attenuation in the 2.4 GHz WLAN band. Measurement shows a peak gain of 19.7 dB in the low band (3-5 GHz) and 20.3 dB in the high band (6-10 GHz), while the in-band and out-band maximum rejections are 19.6 and 12.8 dB, respectively.     

6?10 GHz ultra-wideband CMOS LNA

A two-stage matched ultra-wideband CMOS low noise amplifier (LNA) is presented. The LNA is designed to achieve a low noise figure with high voltage gain. The LNA fabricated in a 0.13 mum CMOS process shows a 3.9 dB average noise figure with a 27 dB voltage gain in the 6-10 GHz frequency band with a power consumption of 14 mW.     

A universal dual band LNA implementation in SiGe technology forwireless applications

A dual band low-noise amplifier (LNA) with matched inputs and outputs, implemented in Infineon Technologies' B7HF SiGe process, is presented. Both the single-ended inputs and outputs are matched to 50 Ω without external elements. For the low-band (800 MHz-1 GHz), the LNA has a measured gain of 17 dB and a noise figure below 1.2 dB at 900 MHz. The high-band (1.8-2 GHz) LNA achieves a gain of 15 dB and a noise figure below 1.5 dB at 1.9 GHz. Both LNAs consume 5 mA dc current with a power supply voltage range from 2.7-3.6 V     

L波段砷化镓单片低噪声放大器

设计、研制了一种工作在Ｌ波段的ＧａＡｓ单片低噪声放大器。该放大器在ＨＰ－８５１０Ｂ网络分析仪和ＨＰ－８９７０Ｂ自动噪声仪上的测试结果为：１．１～１．５ＧＨＺ频段，ＮＦ≤２．０ｄＢ，Ｇ≥１８ｄＢ，ＶＳＷＲ（ｉｎ，ｏｕｔ）≤２：１，增益起伏≤０．５ｄＢ；在１．５～２．０ＧＨＺ频段ＮＦ≤２．５ｄＢ，Ｇ≥１８ｄＢ，ＶＳＷＲ（ｉｎ，ｏｕｔ）≤２：１，增益起伏≤±０．５ｄＢ。     

A wideband LNA employing gate-inductive-peaking and noise-canceling techniques in 0.18μm CMOS

正This paper presents a wideband low noise amplifier(LNA) for multi-standard radio applications.The low noise characteristic is achieved by the noise-canceling technique while the bandwidth is enhanced by gateinductive -peaking technique.High-frequency noise performance is consequently improved by the flattened gain over the entire operating frequency band.Fabricated in 0.18μm CMOS process,the LNA achieves 2.5 GHz of -3 dB bandwidth and 16 dB of gain.The gain variation is within±0.8 dB from 300 MHz to 2.2 GHz.The measured noise figure(NF) and average HP3 are 3.4 dB and -2 dBm,respectively.The proposed LNA occupies 0.39 mm2 core chip area.Operating at 1.8 V,the LNA drains a current of 11.7 mA.     

A 0.18μm CMOS low noise amplifier using a current reuse technique for 3.1-10.6 GHz UWB receivers

A new,low complexity,ultra-wideband 3.1-10.6 GHz low noise amplifier(LNA),designed in a chartered 0.18μm RFCMOS technology,is presented.The ultra-wideband LNA consists of only two simple amplifiers with an inter-stage inductor connected.The first stage utilizing a resistive current reuse and dual inductive degeneration technique is used to attain a wideband input matching and low noise figure.A common source amplifier with an inductive peaking technique as the second stage achieves high flat gain and wide -3 dB bandwidth of the overall amplifier simultaneously.The implemented ultra-wideband LNA presents a maximum power gain of 15.6 dB,and a high reverse isolation of—45 dB,and good input/output return losses are better than -10 dB in the frequency range of 3.1-10.6 GHz.An excellent noise figure(NF) of 2.8-4.7 dB was obtained in the required band with a power dissipation of 14.1 mW under a supply voltage of 1.5 V.An input-referred third-order intercept point(IIP3) is -7.1 dBm at 6 GHz.The chip area,including testing pads,is only 0.8×0.9 mm2.     

42GHz 波段接收机前端的设计与研制*

伴随着无线通信技术日新月异的发展,人们对宽频带、高速率、大容量通信系统的需求也日益增大.毫米波由于自身具有波长短、传输容量大等优点,日益受到研究人员的广泛关注和青睐.本文针对42GHz频段点对点高速通信应用,设计研制了该频段的毫米波接收机前端.该前端由三级低噪声放大器(LNA)、一级混频器和一个基片集成波导(siw)镜像抑制滤波器构成.射频(RF)信号工作在40.8GHz～ 42.8GHz频段内,中频(IF)固定在3.5GHz.测试结果显示,在工作频段内其变频增益大于15dB,射频输入功率ldB增益压缩点不低于-30dBm,接收机前端的噪声系数(NF)小于6dB.     

0.18 /spl mu/m 3-6 GHz CMOS broadband LNA for UWB radio

A 3-6 GHz CMOS broadband low noise amplifier (LNA) for ultra-wideband (UWB) radio is presented. The LNA is fabricated with the 0.18 /spl mu/m 1P6M standard CMOS process. Measurement of the CMOS LNA is performed using an FR-4 PCB test fixture. From 3 to 6 GHz, the broadband LNA exhibits a noise figure of 4.7-6.7 dB, a gain of 13-16 dB, and an input/output return loss higher than 12/10 dB, respectively. The input P/sub 1 dB/ and input IP3 (IIP3) at 4.5 GHz are about -14 and -5 dBm, respectively. The DC supply is 1.8 V.     

宽带高增益输出平衡CMOS低噪声放大器的设计

设计了一种带片内变压器、适用于0.05～2.5 GHz频段的宽带低噪声放大器(LNA).电路设计采用了并行的共栅共源放大结构,将从天线接收到的单端输入信号转换为一对差分信号输出给后级链路.针对变压器结构的LNA噪声系数不够低和输出不平衡的问题,采用了缩放技术、噪声消除技术以及两级的全差分放大器作为输出缓冲级,来有效降低电路的噪声系数,提高增益和输出平衡度.电路采用TSMC 0.18μm 1P6M RF CMOS工艺设计仿真和流片,测试结果表明:在0.05 ～ 2.5 GHz频带范围内,该LNA的最高功率增益达24.5 dB,全频段内噪声系数为2.6～4 dB,输入反射系数小于-10 dB,输出差分信号幅度和相位差分别低于0.6dB和1.8°.     

Design of a fully differential CMOS LNA for 3.1-10.6 GHz UWB communication systems

A fully differential complementary metal oxide semiconductor （CMOS） low noise amplifier （LNA） for 3.1-10.6 GHz ultra-wideband （UWB） communication systems is presented. The LNA adopts capacitive cross-coupling common-gate （CG） topology to achieve wideband input matching and low noise figure （NF）. Inductive series-peaking is used for the LNA to obtain broadband flat gain in the whole 3.1-10.6 GHz band. Designed in 0.18 um CMOS technology, the LNA achieves an NF of 3.1-4.7 dB, an Sll of less than -10 dB, an S21 of 10.3 dB with ±0.4 dB fluctuation, and an input 3rd interception point （IIP3） of -5.1 dBm, while the current consumption is only 4.8 mA from a 1.8 V power supply. The chip area of the LNA is 1×0.94 mm^2.     

Erratum to: Using Improved Product-Coded Modulation Codes to Reduce the Peak-to-Average Power Ratio in Single-Carrier Frequency Division Multiple Access Systems

A new ultra-wideband common gate low noise amplifier (LNA) for 3–6 GHz WLAN and WPAN applications is presented in which a current reused noise canceling structure utilized in the first stage not only provides a suitable noise performance, but also enhances the linearity characteristics of the LNA in a power efficient manner needed by WLAN/WPAN applications. The overall structure of the proposed LNA, consisting of three stages, namely input matching common gate stage with noise canceling, gain stage, and buffer one, is designed, laid out, and analyzed in 0.18 µm RF CMOS process. The LNA has a noise figure of 3.5–3.6 dB, a high and flat power gain of 20.27 ± 0.13 dB, and input and output losses of better than ?11 and ?14 dB, respectively, over the entire frequency band of 3–5 GHz, while these parameters are 3.5 dB, 20.75 ± 0.25 dB, ?15 and ?9 dB for the frequency band of 5–6 GHz, respectively. IIP2 and IIP3 of the proposed topology are equal to 25.9 and ?1.85 dBm, respectively, at 4 GHz frequency. The proposed LNA has 15.3 mW power dissipation from a 1.8 V supply.     

Low-power programmable gain CMOS distributed LNA

A design methodology for low power MOS distributed amplifiers (DAs) is presented. The bias point of the MOS devices is optimized so that the DA can be used as a low-noise amplifier (LNA) in broadband applications. A prototype 9-mW LNA with programmable gain was implemented in a 0.18-/spl mu/m CMOS process. The LNA provides a flat gain, S/sub 21/, of 8 /spl plusmn/ 0.6dB from DC to 6.2 GHz, with an input impedance match, S/sub 11/, of -16 dB and an output impedance match, S/sub 22/, of -10 dB over the entire band. The 3-dB bandwidth of the distributed amplifier is 7GHz, the IIP3 is +3 dBm, and the noise figure ranges from 4.2 to 6.2 dB. The gain is programmable from -10 dB to +8 dB while gain flatness and matching are maintained.     

（英）CMOS毫米波低功耗超宽带共栅低噪声放大器

本文陈述了一个基于单端共栅与共源共栅级联结构的超宽带低噪声放大器(LNA)。该LNA用标准90-nm RF CMOS工艺实现并具有如下特征：在28.5到39 GHz频段内测得的平坦增益大于10 dB;-3 dB带宽从27到42 GHz达到了15 GHz,这几乎覆盖了整个Ka带;最小噪声系数(NF)为4.2 dB,平均NF在27-42 GHz频段内为5.1 dB;S₁₁在整个测试频段内小于-11 dB。40 GHz处输入三阶交调点(IIP3)的测试值为 2 dBm。整个电路的直流功耗为5.3 mW。包括焊盘在内的芯片面积为0.58*0.48 mm2_。     

A Packaged and ESD-Protected Inductorless 0.1–8 GHz Wideband CMOS LNA

In this letter, an inductorless 0.1-8 GHz wideband CMOS differential low noise amplifier (LNA) based on a modified resistive feedback topology is proposed. Without using any passive inductors, the modified resistive feedback technique implemented with a parallel R-C feedback, an active inductor load, and neutralization capacitors achieves high gain, low noise, and good return loss over a wide bandwidth. To ensure the robustness in the system integration, electro-static discharge diodes are added to the radio frequency pads. The LNA was fabricated using a digital 90 nm CMOS technology. It achieves a 3 dB bandwidth of 8 GHz with a 16 dB voltage gain, noise figures from 3.4 dB to 5.8 dB across the whole band, and an input third-order intermodulation product (IIP3) of -9 dBm. The active area of the chip is 0.034 mm². The chip was packaged and tested on an FR4 PCB using the chip-on-board approach.     

12~18 GHz GaAs MMIC低噪声放大器设计

采用GaAs工艺设计了一个12~18 GHz毫米波单片集成电路(MMIC)低噪声放大器(LNA)。采用三级单电源供电放大结构,运用最小噪声匹配设计、共轭匹配技术和负反馈结构,同时满足了噪声系数、增益平坦度和输出功率等要求。仿真表明：在12~18 GHz的工作频带内,噪声系数为1.15~1.41 dB,增益为27.9~29.1 dB,输出1 dB压缩点达到15 dBm,输入、输出电压驻波比(VSWR)系数小于1.72。     

一种新型集成化X波段低噪声放大器

低温共烧陶瓷 (LTCC)和倒装芯片 (FC)是实现小型化、高可靠微波组件的一种理想的组装和互连技术。文中对带有埋置式电阻的 LTCC微波多层互连基板和倒装芯片组装技术进行了研究 ,以研制出体积小、重量轻、微波性能好的高密度集成化 X波段低噪声放大器。利用商用三维电磁场分析软件 HFSS对集成化低噪声放大器组装和互连中的关键参数进行了仿真和优化。研制出的集成化 X波段低噪声放大器带宽为 1 .6GHz,增益≥ 2 8d B,噪声系数≤ 2 d B,输入 /输出驻波≤ 1 .8,体积仅为 1 2 mm× 6mm× 1 .5 mm。     

Design of a 24-40 GHz balanced low noise amplifier using Lange couplers

A wide band(24-40 GHz)fully integrated balanced low noise amplifier(LNA)using Lange couplers was designed and fabricated with a 0.15/zm pseudomorphic HEMT(pHEMT)technology.A new method to design a low-loss and high-coupling Lange coupler for wide band application in microwave frequency was also presented.This Lange coupler has a minimum loss of 0.09 dB and a maximum loss of 0.2 dB over the bandwidth from 20 to 45 GHz.The measured results show that the realized four-stage balanced LNA using this Lange coupler exhibites a noise figure(NF)of less than 2.7 dB and the maximum gain of 30 dB;moreover,a noticeably improved reflection performance is achieved.The input VSWR and the output VSWR are respectively less than 1.45 and 1.35 dB across the 24-40 GHz frequency range.     

具有带外抑制特性的Ka波段低功耗低噪声放大器

基于0.15μm GaAs赝配高电子迁移率晶体管(PHEMT)工艺,成功研制了一款30~34 GHz频带内具有带外抑制特性的低功耗低噪声放大器(LNA)微波单片集成电路(MMIC)。该MMIC集成了滤波器和LNA,其中滤波器采用陷波器结构,可实现较低的插入损耗和较好的带外抑制特性;LNA采用单电源和电流复用结构,实现较高的增益和较低的功耗。测试结果表明,该MMIC芯片在30~34 GHz频带内,增益大于28 dB,噪声系数小于2.8 dB,功耗小于60 mW,在17~19 GHz频带内带外抑制比小于-35 dBc。芯片尺寸为2.40 mm×1.00 mm。该LNA MMIC可应用于毫米波T/R系统中。     

1.5-6GHz增益和噪声系数稳定的两级超宽带CMOS低噪声放大器设计与性能模拟

 针对UWB应用设计实现了一个1.5-6GHz的两级CMOS低噪声放大器(LNA). 通过引入共栅(CG)和共源(CS)结构以获得宽范围内的输入匹配,采用电流镜和峰化电感进行电流复用,所提出的LNA实现了非常平坦化的功率增益和噪声系数(NF). 经标准0.18μm CMOS工艺实现后,版图后模拟结果表明在1.5-5GHz频率范围内功率增益(S21)为11.45±0.05dB,在2-6GHz频率范围内噪声系数(NF)为5.15±0.05dB,输入损耗(S11)小于-18dB. 在5GHz时,模拟得到的三阶交调点(IIP3)为-7dBm,1dB压缩点为-5dBm.在1.8V电源电压下,LNA消耗6mA的电流,版图实现面积仅为0.62mm^2.     

2.5 dB NF 3.1-10.6 GHz CMOS UWB LNA with small group-delay variation

A 3.1-10.6 GHz ultra-wideband low-noise amplifier (UWB LNA) with excellent phase linearity property (group-delay variation is only plusmn 16.7 ps across the whole band) using standard 0.13 mum CMOS technology is reported. To achieve high and flat gain and small group-delay variation at the same time, the inductive peaking technique is adopted in the output stage for bandwidth enhancement. The UWB LNA achieved input return loss (S₁₁) of -17.5 to -33.6 dB, output return loss (S₂₂) of -14.4 to -16.3 dB, flat forward gain (S₂₂) of 7.92 plusmn 0.23 dB, and reverse isolation (S₁₂) of -25.8 to -41.9 dB over the 3.1-10.6 GHz band of interest. A state-of-the-art noise figure (NF) of 2.5 dB was achieved at 10.5 GHz.