IEEE Microwave and Wireless Components Letters

Papers
(The H4-Index of IEEE Microwave and Wireless Components Letters is 26. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-10-01 to 2025-10-01.)
ArticleCitations
Table of Contents75
Table of Contents61
1-Thru Deembedding Method for One-Port Microwave Device Characterization43
Comments on “Two-Section Broadband Couplers With Wide-Range Phase Differences and Power-Dividing Ratios”39
RF Characterization of 3-D-Printed Tunable Resonators on a Composite Substrate Infused With Magnetic Nanoparticles37
A Low Complexity LUT-Based Digital Predistortion Block With New Pruning Method36
A 16–24-GHz SiGe Decibel-Linear Low-Gain-Error Digitally Controlled High-Efficiency Variable Gain Amplifier35
Self-Sensing Digital Predistortion of RF Power Amplifiers for 6G Intelligent Radio35
A Linearity-Enhanced 18.7–36.5-GHz LNA With 1.5–2.1-dB NF for Radar Applications35
Frequency Division Multiplexer With Directional Filters in Multilayer LCP Films at - and -Band 33
The Threshold Optimization of the Canonical Piecewise Linear Function-Based Model for RF PA Linearization33
A High-Gain Doherty Power Amplifier With Harmonic Tuning32
Electromagnetic Analysis of Integrated On-Chip Sensing Loop for Side-Channel and Fault-Injection Attack Detection31
The Second Source Harmonic Optimization in Continuous Class-GF Power Amplifiers31
Back-Gate Lumped Resistance Effect on AC Characteristics of FD-SOI MOSFET31
A 2.4-GHz Sub-Sampling PLL With an Adaptive and No Power Contribution FLL Achieving 103.58 fs rms Jitter and −257.8 dB FOM30
Proof-of-Concept of Millimeter-Wave RF Beamforming Transmitter Architecture Employing Frequency-Multiplier-Based Up-Converters29
Compact and Efficient Broadband Rectifier Using T-type Matching Network29
Broad Dual-Band Rectifier With Wide Input Power Ranges for Wireless Power Transfer and Energy Harvesting28
Experimental Investigation of Resistive–Reactive Class-J Mode Using Time-Domain Low-Frequency Active Harmonic Load–Pull Measurements28
Convolutional Implementation and Analysis of the CFS-PML ABC for the FDTD Method Based on Wave Equation27
A 16-nW-57-dBm Sensitivity Wakeup Receiver Using MEMS-Based Matching Network27
Half-Mode Waveguide Based on Gap Waveguide Technology for Rapid Prototyping26
A Ka-Band 6-Bit Digital-Controlled Differential VGA With 16-dB Gain Control Range and 4.9° Phase Variation in 65-nm CMOS26
FR4-Based Low Phase Noise SISL VCO Using Tunable Weakly Coupled Resonators26
Improved Leapfrog LOD-FDTD Method With Controlling Parameters26
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