A highly selective LNTA capable of large-signal handling for RF receiver front-ends

Analysis and design of a low-noise transconductance amplifier (LNTA) aimed at selective current-mode (SAW-less) wideband receiver front-end is presented. The proposed LNTA uses double cross-coupling technique to reduce noise figure (NF), complementary derivative superposition, and resistive feedback to achieve high linearity and enhance input matching. The analysis of both NF and IIP3 using Volterra series is described in detail and verified by SpectreRF (A (R)) circuit simulation showing NF less than 2 dB and IIP3 = 18 dBm at 3 GHz. The amplifier performance is demonstrated in a two-stage highly selective receiver front-end implemented in 65 nm CMOS technology. In measurements the front-end achieves blocker rejection competitive to SAW filters with noise figure 3.2-5.2 dB, out of band IIP3 greater than+17 dBm and blocker P-1dB greater than+5 dBm over frequency range of 0.5-3 GHz

show abstract

A new g-boosting design technique for wideband inductorless low-noise transconductance amplifiers

Samavati

Jalali

2020

Microelectronics Journal

View full text Add to dashboard Cite

A highly selective LNTA capable of large-signal handling for RF receiver front-ends

Cited by 9 publications

References 6 publications

A Highly Linear Wideband CMOS LNTA Employing Noise/Distortion Cancellation and Gain Compensation

A Highly Linear Wideband CMOS LNTA Employing Noise/Distortion Cancellation and Gain Compensation

Analysis and design of low noise transconductance amplifier for selective receiver front-end

A new g-boosting design technique for wideband inductorless low-noise transconductance amplifiers

Contact Info

Product

Resources

About