![RF Front-End Group ]](http://mmic.postech.ac.kr/Homepage/RFfrontend/TPM/fig1b.gif "RF Front-End Group ]")
RF Front-End Group ]
Consider the active mixer circuit, shown in the side | Chegg.com
Low Phase Noise and High Conversion Gain Oscillator Mixer Constructed with a 0.18-m CMOS Technology
Low Voltage Mixers
Electronics | Free Full-Text | Analysis of Non-Idealities on CMOS Passive Mixers
Chapter 5 CMOS MIXERS
Figure 4 from A H-band double balanced passive down-conversion mixer in a 65 nm bulk CMOS | Semantic Scholar
A double balanced passive CMOS mixer is shown along | Chegg.com
Low‐power up‐conversion folded CMOS mixer for 2–12 GHz ultra‐wideband applications - Chen - 2020 - IET Microwaves, Antennas & Propagation - Wiley Online Library
Electronics | Free Full-Text | Innovative Strategy for Mixer Design Optimization Based on gm/ID Methodology
A Wideband High Linearity and Low-Noise CMOS Active Mixer Using the Derivative Superposition and Noise Cancellation Techniques | SpringerLink
A Low-Power High Gain and High Linearity CMOS RF Front-End Design Involving a Charge Injection Mixer for V2X Technology
A 19.38dBm OIP3 gm-boosted up-conversion CMOS mixer for 5–6GHz application
1 V, 1.9 GHz mixer using a lateral bipolar transistor in CMOS | Proceedings of the 2001 international symposium on Low power electronics and design
A 5 mW 1-to-5 GHz Multiband Ladder CMOS Mixer Employing Transconductance Tuning Mechanism Achieving IIP3 of 27 dBm
An ultra-low-voltage ultra-low-power CMOS active mixer | SpringerLink
A Comparative Study of Active and Passive Mixers at Sub 6 GHz for Broadcasting Applications
A 27.5‐43.5 GHz 65‐nm CMOS up‐conversion mixer with 0.42 dBm OP1dB for 5G applications - Chen - 2020 - International Journal of Numerical Modelling: Electronic Networks, Devices and Fields - Wiley Online Library
Balanced transconductor driving the current-mode double-balanced... | Download Scientific Diagram
![PDF] High linearity, low power RF mixer design in 65 nm CMOS technology | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/c145af20a7a5ae149a6b22b63a0dea036b63a7ed/2-Figure3-1.png "PDF] High linearity, low power RF mixer design in 65 nm CMOS technology | Semantic Scholar")
PDF] High linearity, low power RF mixer design in 65 nm CMOS technology | Semantic Scholar
Low-Power Low-Voltage CMOS RF Mixers
Design and Optimization of Double Balanced Gilbert Cell Mixer in 130 nm CMOS Process - ScienceDirect
A 19.38 dBm OIP3 gm-boosted up-conversion CMOS mixer for 5–6 GHz application - ScienceDirect
