共查询到20条相似文献,搜索用时 109 毫秒
1.
2.
3.
针对目前X波段低噪声放大器的电路拓扑结构不易选择,故提出了一种采用微带分支线匹配结构和三级级联方式的X波段低噪声放大器(LNA)。放大器选用NEC低噪声放大管NE3210S01,利用ADS(Advanced Design System)软件设计、仿真、优化,放大器实测结果表明:在9.2 GHz~9.6 GHz频带内,噪声系数小于1.7 dB,带内增益达到33.5 dB,带内增益平坦度ΔG≤±0.3 dB,输入、输出驻波比均小于1.5。该放大器已应用于X波段接收机,效果良好,其设计方法可供工程应用参考。 相似文献
4.
5.
6.
介绍了一种基于ADS的C波段低噪声放大器的设计,同时分析了射频微波低噪声放大器的整体框图、主要指标以及具体的电路设计方法。低噪声放大器是无线通信接收机中的主要组成部分,低噪声放大器指标的好坏直接影响整个接收机的工作状况。该放大器采用射频场效应管ATF-36077作为主要放大器件,同时利用微带线设计了外围匹配电路,利用ADS强大的射频仿真与优化功能,最终实现了一个性能优良的C波段低噪声放大器。最后设计的放大器在3.7GHz4.2GHz增益为11dB,噪声系数为0.6dB,输入输出驻波比小于1.5。 相似文献
7.
设计出一种可应用于RFID系统,同时工作在915 MHz和2.45 GHz的双频段低噪声放大器.该设计以最大程度降低噪声为目标,采用并联LC网络替代传统单一高感值电感,并引入电流复用技术,最终实现高增益低功耗的双频段低噪声放大器的设计目标.仿真结果如下:在915MHz和2.45GHz的频率下,噪声系数均小于0.6dB;S(1,1)小于—15dB;S(2,2)小于—11dB;输入驻波比≤1.4;输出驻波比≤1.8;1dB压缩点约为—16.5dBm.仿真结果表明,在两个频段中的测试结果均优于预期指标的要求,为实际双频段低噪声放大器的设计及优化提供参考。 相似文献
8.
9.
10.
11.
宽频带低噪声放大器设计 总被引:1,自引:0,他引:1
采用Lange耦合器的宽频带特性设计L/S波段平衡式低噪声放大器电路,并通过仿真设计软件对放大器的工作频带、噪声系数、增益及输入、输出驻波比等几个重要指标进行优化。最后设计的放大器在1.2~2.5GHz频率范围内增益为33~35dB,噪声系数不大于1dB,输入输出驻波比小于1.5,达到了预定的技术指标要求,性能良好。 相似文献
12.
This paper presents the design of a low-power ultra-wideband low noise amplifier in 0.18-mum CMOS technology. The inductive degeneration is applied to the conventional distributed amplifier design to reduce the broadband noise figure under low power operation condition. A common-source amplifier is cascaded to the distributed amplifier to improve the gain at high frequency and extend the bandwidth. Operated at 0.6V, the integrated UWB CMOS LNA consumes 7mW. The measured gain of the LNA is 10dB with the bandwidth from 2.7 to 9.1GHz. The input and output return loss is more than 10dB. The noise figure of the LNA varies from 3.8 to 6.9dB, with the average noise figure of 4.65dB. The low power consumption of this work leads to the excellent figure of gain-bandwidth product (GBP) per milliwatt 相似文献
13.
为满足宽带系统中低噪声放大器(LNA)宽带的要求,采用0.15μm GaAs赝配高电子迁移率晶体管(PHEMT)工艺,设计了两款1 MHz^40 GHz的超宽带LNA,分别采用均匀分布式放大器结构及渐变分布式放大器结构,电路面积分别为1.8 mm×0.85 mm和1.8 mm×0.8 mm。电磁场仿真结果表明,1 MHz^40 GHz频率范围内,均匀分布式LNA增益为15.3 dB,增益平坦度为2 dB,噪声系数小于5.1 dB;渐变分布式LNA增益为14.16 dB,增益平坦度为1.74 dB,噪声系数小于3.9 dB。渐变分布式LNA较均匀分布式LNA,显著地改善了增益平坦度、噪声性能和群延时特性。 相似文献
14.
15.
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. 相似文献
16.
17.
基于共源级联放大器的小信号模型,详细分析了宽带放大器的输入阻抗特性和噪声特性。利用MOS晶体管的寄生容性反馈机理,采用TSMC公司标准0.18μmCMOS工艺设计实现了单片集成宽带低噪声放大器,芯片尺寸为0.6mm×1.5mm。测试结果表明,在3.1~5.2GHz频段内,S11<-15dB,S21>12dB,S22<-12dB,噪声系数NF<3.1dB。电源电压为1.8V,功耗为14mW。 相似文献
18.
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. 相似文献
19.
CMOS宽带线性可变增益低噪声放大器设计 总被引:1,自引:0,他引:1
文章设计了一种48MHz~860MHz宽带线性可变增益低噪声放大器,该放大器采用信号相加式结构电路、控制信号转换电路和电压并联负反馈技术实现。详细分析了线性增益控制、输入宽带匹配和噪声优化方法。采用TSMC0.18μm RF CMOS工艺对电路进行设计,仿真结果表明,对数增益线性变化范围为-5dB~18dB,最小噪声系数为2.9dB,S11和S22小于-10dB,输入1dB压缩点大于-14.5dBm,在1.8V电源电压下,功耗为45mW。 相似文献
20.
正This paper discusses the design of a wideband low noise amplifier(LNA) in which specific architecture decisions were made in consideration of system-on-chip implementation for radio-astronomy applications.The LNA design is based on a novel ultra-low noise InGaAs/InAlAs/InP pHEMT.Linear and non-linear modelling of this pHEMT has been used to design an LNA operating from 2 to 4 GHz.A common-drain in cascade with a common source inductive degeneration,broadband LNA topology is proposed for wideband applications.The proposed configuration achieved a maximum gain of 27 dB and a noise figure of 0.3 dB with a good input and output return loss(S_(11)—10 dB,S_(22)—11 dB).This LNA exhibits an input 1-dB compression point of-18 dBm,a third order input intercept point of 0 dBm and consumes 85 mW of power from a 1.8 V supply. 相似文献