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Analysis and Design of a 21.2-to-25.5-GHz Triple-Coil Transformer-Coupled QVCO Journal article
Zhao, Ya, Fan, Chao, Yin, Jun, Mak, Pui In, Geng, Li. Analysis and Design of a 21.2-to-25.5-GHz Triple-Coil Transformer-Coupled QVCO[J]. IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-REGULAR PAPERS, 2024, 71(10), 4538-4549.
Authors:  Zhao, Ya;  Fan, Chao;  Yin, Jun;  Mak, Pui In;  Geng, Li
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:5.2/4.5 | Submit date:2024/11/05
Quadrature Voltage-controlled Oscillator (Qvco)  Phase Noise  Quadrature Phase Accuracy  Triple-coil  Transformer-coupled  Determinate Correlation  Bimodal Ambiguity  Tradeoff  Active Coupling Transistor  Alleviate  
Optimizing Inductive Power Transfer Circular Pad Coils for Electric Vehicles Using Multi-Objective Particle Swarm Optimization Conference paper
Wong, Hou Wa, Ieong, Chi Fong, Lam, Chi Seng. Optimizing Inductive Power Transfer Circular Pad Coils for Electric Vehicles Using Multi-Objective Particle Swarm Optimization[C]:IEEE Computer Society, 2023.
Authors:  Wong, Hou Wa;  Ieong, Chi Fong;  Lam, Chi Seng
Favorite | TC[Scopus]:0 | Submit date:2024/02/22
Electric Motorcycles (Em)  Loosely Coupled Transformer (Lct)  Multi-objective Particle Swarm Optimization (Mopso)  Population Particles (Pop)  
A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS Journal article
Zhang, Jincheng, Wang, Yujia, Chen, Yong, Ren, Junyan, Ma, Shunli. A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 71(5), 1852-1865.
Authors:  Zhang, Jincheng;  Wang, Yujia;  Chen, Yong;  Ren, Junyan;  Ma, Shunli
Favorite | TC[WOS]:11 TC[Scopus]:11  IF:4.1/4.2 | Submit date:2023/06/05
Chebyshev  Cmos  Coupled Resonator  D-band  Power Amplifier (Pa)  Slow Wave Coplanar Waveguide (S-cpw)  Transformer  Two-section Wideband Power Combining  
Synthesis design of a wideband impedance transformer consisting of two-section coupled lines Journal article
Wu, Qiongsen, Zhu, Lei. Synthesis design of a wideband impedance transformer consisting of two-section coupled lines[J]. IET MICROWAVES ANTENNAS & PROPAGATION, 2017, 11(1), 144-150.
Authors:  Wu, Qiongsen;  Zhu, Lei
Favorite | TC[WOS]:9 TC[Scopus]:11  IF:1.1/1.4 | Submit date:2018/10/30
Impedance Convertors  Network Synthesis  Frequency Response  Wideband Impedance Transformer  Two-section Coupled Lines  Synthesis Design  Reflection Zeros  Chebyshev-function Frequency Response  Direct Synthesis Approach  Impedance-transformation Ratio  Passband Return Loss  Equal-ripple Rl  Operating Bandwidth  
Short-Ended Coupled-Line Impedance Transformers with Ultrahigh Transforming Ratio and Bandpass Selectivity Suitable for Large Load Impedances Journal article
Qiong-Sen Wu, Lei Zhu. Short-Ended Coupled-Line Impedance Transformers with Ultrahigh Transforming Ratio and Bandpass Selectivity Suitable for Large Load Impedances[J]. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2016, 6(5), 767-774.
Authors:  Qiong-Sen Wu;  Lei Zhu
Favorite | TC[WOS]:23 TC[Scopus]:24  IF:2.3/2.1 | Submit date:2019/02/12
Bandpass Selectivity  Coupled Line  Impedance Transformer  Large Load Impedance  Ultrahigh Transforming Ratio.  
Short-ended coupled-line impedance transformers with ultra-high transforming ratio and bandpass selectivity suitable for large load impedances Journal article
Wu, Q.-S., Zhu, L.. Short-ended coupled-line impedance transformers with ultra-high transforming ratio and bandpass selectivity suitable for large load impedances[J]. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2016, 767-774.
Authors:  Wu, Q.-S.;  Zhu, L.
Favorite | TC[WOS]:23 TC[Scopus]:24  IF:2.3/2.1 | Submit date:2022/08/04
Bandpass Selectivity  Coupled Line  Impedance Transformer