[1] WANG H, MA W, XIAO Z, et al. The Design and performance comparison of wide bandwidth LNA with three different kinds of technologies [C] ∥ IEEE 13th Int Conf ASIC. Chongqing, China, 2019: 1-4.
[2] CHAGHAEI J, JALALI A, MEGHDADI M. A wideband inductorless LNA employing active complementary current-reuse Balun [C] ∥ 27th ICEE. Yazd, Iran. 2019: 108-112.
[3] BINDU P, SUBRAMANIAM P C. CMOS wide band low noise amplifier with current reuse and noise cancellation [C] ∥ IEEE Int Conf Commun & Signal Process. Calicut, India. 2011: 65-69.
[4] LI Q, ZHANG Y P, CHANG J S. An inductorless low-noise amplifier with noise cancellation for UWB receiver front-end [C] ∥ IEEE ASSCC. Hangzhou, China. 2006: 267-270.
[5] RAGHU S, DURAISWAMY P. High gain and low noise figure single-to-differential CMOS LNA for Ka-band communication system [C] ∥ IEEE MTT-S IMaRC. Ahmedabad, India. 2017: 1-4.
[6] DAS I, NALLAM N. Noise cancelation? explained!: the role of feedback in noise-canceling LNAs and receivers [J]. IEEE Microwave Magaz, 2017, 18(6): 100-109.
[7] MA L, WANG Z, XU J, et al. A 500 kHz-1.4 GHz push-pull differential noise cancellation LNA [C] ∥ IEEE ICCSN. Chengdu, China. 2015: 182-185.
[8] ANTONOV A A, SURIN I K, KARPOVICH M S, et al. A high gain 450/900 MHz dual band low noise amplifier for IoT and LTE low-band receivers [C] ∥ 20th Int Conf Young Special Micro/Nanotechnol & EDM. Altai Repubic, Russia. 2019: 92-96.
[9] TANG Y, FENG Y, FAN Q, et al. A wideband complementary noise and distortion canceling LNA for high-frequency ultrasound imaging applications [C] ∥ Texas Symp WMCS. Waco, TX, USA. 2018: 1-4.
[10] HUANG D R, CHUANG H R, CHU Y K. A 40~900 MHz broadband CMOS differential lna with gain-control for DTV RF tuner [C] ∥ IEEE ASSCC. Hsinchu, China. 2005: 465-468.
[11] CHENG T, YANG T, WANG X, et al. A wideband CMOS variable-gain low noise amplifier with novel attenuator [C] ∥ IEEE 10th Int Conf ASIC. Shenzhen, China. 2013: 1-4.
