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

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 gate- inductive-peaking technique. High-frequency noise performance is consequently improved by the flattened gain over the entire operating frequency band. Fabricated in 0.18 μm CMOS process, the LNA achieves 2.5 GHz of -3 dB bandwidth and 16 dB of gain. The gain variation is within 4-0.8 dB from 300 MHz to 2.2 GHz. The measured noise figure （NF） and average IIP3 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.

一种用于多标准接收机的宽带低噪声放大器

设计了一种应用于软件无线电接收机的300kHz～1.6GHz宽带低噪声放大器,适用于数字广播、数字电视和定位导航等系统。该放大器采用噪声抵消结构以降低输入匹配器件在输出端所产生的热噪声和闪烁噪声,能够同时实现输入阻抗匹配和噪声优化。对采用中芯国际(SMIC)0.18μm RF CMOS工艺实现的芯片的测试结果表明,3dB带宽为300kHz～1.6GHz,最大增益S_(21)为16.7dB,输入反射系数S_(11)小于-7.4dB,最小噪声系数为2.3 dB,输入参考的1dB增益压缩点为-11.6dBm,功耗为14.4mW,芯片面积为0.49mm^2。

基于电流复用与有源电感的UWB LNA

设计了一款超宽带低噪声放大器(UWB LNA).采用Cascode-共基极电流复用结构,直流通路时能有效降低功耗,交流通路时增加了电路的增益,并且保持了Cascode结构高反向隔离性的优点.采用有源电感替代输出级的螺旋电感,减小了芯片面积,并且通过改变有源电感等效电感值的大小,实现UWB LNA增益的调节功能.基于Jazz 0.35μm SiGe BiCMOS工艺,利用射频/微波集成电路仿真工具ADS对该UWB LNA进行了验证.结果表明:在3.1~10.6GHz频段内,增益大于14.1dB,噪声系数小于4.0dB,输入与输出反射系数均小于-10dB,频率为7GHz时输入三阶交调点为-11dBm,功耗为19.75mW.