Electronics | Free Full-Text | Analysis of Non-Idealities on CMOS Passive Mixers
Figure I from Gilbert cell Mixer design in 65nm CMOS technology | Semantic Scholar
A 19.38dBm OIP3 gm-boosted up-conversion CMOS mixer for 5–6GHz application
Low Voltage Mixers
Consider the active mixer circuit, shown in the side | Chegg.com
CMOS Gilbert Cell Mixer in [7]. | Download Scientific Diagram
Millimeter-wave dual-mode and dual-band switchable Gilbert up-conversion mixer in 65-nm CMOS process | International Journal of Microwave and Wireless Technologies | Cambridge Core
A 5 mW 1-to-5 GHz Multiband Ladder CMOS Mixer Employing Transconductance Tuning Mechanism Achieving IIP3 of 27 dBm
A Wideband High Linearity and Low-Noise CMOS Active Mixer Using the Derivative Superposition and Noise Cancellation Techniques | SpringerLink
2) A single-balanced CMOS active mixer is shown | Chegg.com
Sensors | Free Full-Text | Design and Analysis of a Novel 24 GHz Up-Conversion Mixer with Improved Derivative Super-Position Linearizer Technique for 5G Applications
Topology of the CMOS even harmonic mixer with the dependent current... | Download Scientific Diagram
RF Front-End Group ]
Low Phase Noise and High Conversion Gain Oscillator Mixer Constructed with a 0.18-m CMOS Technology
A Comparative Study of Active and Passive Mixers at Sub 6 GHz for Broadcasting Applications