Wideband Low Noise Unity Gain amplifier using linearity enhancement technique

2015 International Conference on Communication Networks (ICCN) Pub Date : 2015-11-01 DOI:10.1109/ICCN.2015.69

Shaily Singh, Arun Patel, Pritesh Tiwari, Vaibhav Singh

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引用次数: 1

Abstract

A low noise-figure (NF) and Unity power gain 1-100 GHz ultra-wideband Low Noise π Network with excellent linearity is reported. An π-match input network, Capacitive feedback with series and shunt inductive peaking techniques are used to achieve wideband impedance matching with low noise figure as well as flat unity gain response. This technique exists unity voltage and current gain so that matching used as a follower. The LNA consumes power dissipation 1.586 mW, and group-delay (GD) variation less than 0.1f ps in the frequency range 1-100 GHz. Furthermore, the LNA achieves minimum NF of 0.4 dB for frequencies 1-100 GHz, one of the best NF results reported for frequencies 1-100 GHz. CMOS ultra-wideband Low Noise π Network. Low power consumption network is versatile demanded in modern technology, modern technology want such type of amplifier which gives low power consumption with less reflection, In this paper presented technique to reduce leakage power consumption with small value of reflection. Here design low power dissipation network using compensation and feedback technique.

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采用线性增强技术的宽带低噪声单位增益放大器

报道了一种低噪声系数和统一功率增益的1- 100ghz超宽带低噪声π网络，具有良好的线性度。在π匹配输入网络中，电容反馈采用串联和并联感应峰值技术，实现了低噪声系数的宽带阻抗匹配和平坦的单位增益响应。该技术存在统一的电压和电流增益，以便匹配用作从动器。LNA功耗1.586 mW，在1 ~ 100ghz频率范围内，群延迟(GD)变化小于0.1 fps。此外，LNA在1-100 GHz频率下的最小NF值为0.4 dB，这是1-100 GHz频率下的最佳NF结果之一。CMOS超宽带低噪声π网络。低功耗网络是现代技术的通用要求，现代技术需要的是低功耗、低反射的放大器，本文提出了以小反射值降低漏电功耗的技术。本文采用补偿反馈技术设计低功耗网络。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Communication Networks (ICCN)

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