UM

Browse/Search Results:  1-10 of 25 Help

Selected(0)Clear Items/Page:    Sort:
A 5.6-dB Noise Figure, 63-86-GHz Receiver Using a Wideband Noise-Cancelling Low Noise Amplifier With Phase and Amplitude Compensation Journal article
Han, Changxuan, Deng, Zhixian, Shu, Yiyang, Yin, Jun, Mak, Pui In, Luo, Xun. A 5.6-dB Noise Figure, 63-86-GHz Receiver Using a Wideband Noise-Cancelling Low Noise Amplifier With Phase and Amplitude Compensation[J]. IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-REGULAR PAPERS, 2024, 71(1), 120-132.
Authors:  Han, Changxuan;  Deng, Zhixian;  Shu, Yiyang;  Yin, Jun;  Mak, Pui In; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:5.2/4.5 | Submit date:2024/02/22
Low Noise Amplifier (Lna)  Millimeter-wave (Mm-wave)  Noise-cancelling  Phase And Amplitude Compensation  Receiver (Rx)  Wideband  
A 3.5~7.5 GHz GaAs HEMT Cryogenic Low-NoiseAmplifier Achieving 5 Kelvin Noise Temperature for Qubits Measurement Conference paper
Yatao, Peng, Youpeng, Zhong, Zechen, Guo, Song, Liu, Dapeng, Yu. A 3.5~7.5 GHz GaAs HEMT Cryogenic Low-NoiseAmplifier Achieving 5 Kelvin Noise Temperature for Qubits Measurement[C]. Youpeng Zhong, Zechen Guo, Song Liu, Dapeng Yu, IEEE EXPLORE:IEEE, 2023.
Authors:  Yatao, Peng;  Youpeng, Zhong;  Zechen, Guo;  Song, Liu;  Dapeng, Yu
Adobe PDF | Favorite | TC[Scopus]:2 | Submit date:2023/08/29
Cryogenic Low Noise Amplifier, Lna, Gaas, Transmon, Quantum Computer, Impedance Matching Network.  
A 90- to 115-GHz superheterodyne receiver front-end for W-band imaging system in 28-nm complementary metal-oxide-semiconductor Journal article
Wang, Xi, Wei, Dong, Zhang, Zhiyang, Wu, Tianxiang, Chen, Xu, Chen, Yong, Ren, Junyan, Ma, Shunli. A 90- to 115-GHz superheterodyne receiver front-end for W-band imaging system in 28-nm complementary metal-oxide-semiconductor[J]. International Journal of Circuit Theory and Applications, 2023, 51(4), 1530-1547.
Authors:  Wang, Xi;  Wei, Dong;  Zhang, Zhiyang;  Wu, Tianxiang;  Chen, Xu; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:1.8/1.7 | Submit date:2023/01/30
Imaging System  Low-noise Amplifier (Lna)  Peak-staggered Matching Technique  Superheterodyne Receiver (Rx)  Symmetrical-layout Mixer  Transistor-layout Optimization  W-band  Wideband  
A Miniaturized 3-D-MRI Scanner Featuring an HV-SOI ASIC and Achieving a 10 × 8 × 8 mm3Field of View Journal article
Fan, Shuhao, Zhou, Qi, Lei, Ka Meng, Mak, Pui In, Martins, Rui P.. A Miniaturized 3-D-MRI Scanner Featuring an HV-SOI ASIC and Achieving a 10 × 8 × 8 mm3Field of View[J]. IEEE Journal of Solid-State Circuits, 2022, 58(7), 2028 - 2039.
Authors:  Fan, Shuhao;  Zhou, Qi;  Lei, Ka Meng;  Mak, Pui In;  Martins, Rui P.
Favorite | TC[WOS]:7 TC[Scopus]:6  IF:4.6/5.6 | Submit date:2023/01/30
3-d Gradient Controller  Application-specific Integrated Circuit (Asic)  Dynamic-threshold Mosfet (Dtmos)  High-voltage Power Amplifier (Hv-pa)  Low-noise Amplifier (Lna)  Magnetic Resonance Imaging (Mri)  Mri-ona-chip  Silicon-on-insulator (Soi)  Transceiver (Trx)  
A 266-µW Bluetooth Low-Energy (BLE) Receiver Featuring an N-Path Passive Balun-LNA and a Pipeline Down-Mixing BB-Extraction Scheme Achieving 77dB SFDR and -3dBm OOB-B-1dB Journal article
Shao, Haijun, Mak, Pui-In, Qi, Gengzhen, Martins, Rui P.. A 266-µW Bluetooth Low-Energy (BLE) Receiver Featuring an N-Path Passive Balun-LNA and a Pipeline Down-Mixing BB-Extraction Scheme Achieving 77dB SFDR and -3dBm OOB-B-1dB[J]. IEEE Journal of Solid-State Circuits, 2022, 57(12), 3669–3680.
Authors:  Shao, Haijun;  Mak, Pui-In;  Qi, Gengzhen;  Martins, Rui P.
Adobe PDF | Favorite | TC[WOS]:8 TC[Scopus]:11  IF:4.6/5.6 | Submit date:2023/05/15
Balun-low-noise Amplifier (Balun-lna)  Bandpass Filtering  Baseband (Bb)  Bluetooth Low-energy (Ble)  Cmos  Hybrid Filter  Noise Figure (Nf)  Nonlinearity  N-path  Out-of-band (Oob)  Passive Gain  Pipeline  Spurious-free Dynamic Range (Sfdr)  Ultra-low-power (Ulp)  
A 1.7–3.6 GHz 20 MHz-Bandwidth Channel-Selection N-Path Passive-LNA Using a Switched-Capacitor-Transformer Network Achieving 23.5 dBm OB-IIP₃ and 3.4–4.8 dB NF Journal article
Shao, Haijun, Qi, Gengzhen, Mak, Pui In, Martins, Rui P.. A 1.7–3.6 GHz 20 MHz-Bandwidth Channel-Selection N-Path Passive-LNA Using a Switched-Capacitor-Transformer Network Achieving 23.5 dBm OB-IIP₃ and 3.4–4.8 dB NF[J]. IEEE Journal of Solid-State Circuits, 2022, 57(2), 413-422.
Authors:  Shao, Haijun;  Qi, Gengzhen;  Mak, Pui In;  Martins, Rui P.
Favorite | TC[WOS]:15 TC[Scopus]:16  IF:4.6/5.6 | Submit date:2022/03/04
Bandpass Filtering  Channel-selection  Cmos  Harmonic-folding Rejection Ratio (Hfrr)  Linearity  Local Oscillator (Lo)  Low-noise Amplifier (Lna)  N-path Filter  Noise Figure (Nf)  Out-of-band (Ob) Linearity  Passive Lna (pLna)  Radio Frequency (Rf)  Receiver (Rx)  Switched-capacitor-transformer (Sct) Network  Transformer  
A 35-to-50 GHz CMOS Low-Noise Amplifier with 22.2% -1-dB Fractional Bandwidth and 30.5-dB Maximum Gain for 5G New Radio Conference paper
Wei, Dong, Wu, Tianxiang, Ma, Shunli, Chen, Yong, Ren, Junyan. A 35-to-50 GHz CMOS Low-Noise Amplifier with 22.2% -1-dB Fractional Bandwidth and 30.5-dB Maximum Gain for 5G New Radio[C], NEW YORK, USA:Institute of Electrical and Electronics Engineers Inc., 2021, 195-198.
Authors:  Wei, Dong;  Wu, Tianxiang;  Ma, Shunli;  Chen, Yong;  Ren, Junyan
Favorite | TC[WOS]:7 TC[Scopus]:9 | Submit date:2021/12/08
Low-noise Amplifier (Lna)  Noise Figure (Nf)  Cmos  Transformer  Gm Boosting  Gain Flatness  Magnetically Coupling Resonator  Fractional Bandwidth (Bw)  5g New Radio  Ieee 802.11aj  Common Source  Common Gate  Noise Factor  
A Single-pin antenna interface rf front end using a single-mos dco-pa and a push-pull lna Journal article
Xu,Kai, Yin,Jun, Mak,Pui In, Staszewski,Robert Bogdan, Martins,Rui P.. A Single-pin antenna interface rf front end using a single-mos dco-pa and a push-pull lna[J]. IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2020, 55(8), 2055-2068.
Authors:  Xu,Kai;  Yin,Jun;  Mak,Pui In;  Staszewski,Robert Bogdan;  Martins,Rui P.
Favorite | TC[WOS]:13 TC[Scopus]:14  IF:4.6/5.6 | Submit date:2021/03/04
Digitally Controlled Oscillator (Dco)  Function Reuse  Harmonic Suppression  Low-noise Amplifier (Lna)  Power Amplifier (Pa)  Rf Front End (Rfe)  Transformer  Transmit/ Receive (T/r) Switch  
A 3.15-mW +16.0-dBm IIP3 22-dB CG Inductively Source Degenerated Balun-LNA Mixer with Integrated Transformer-Based Gate Inductor and IM2 Injection Technique Journal article
Vitee,Nandini, Ramiah,Harikrishnan, Mak,Pui In, Yin,Jun, Martins,Rui P.. A 3.15-mW +16.0-dBm IIP3 22-dB CG Inductively Source Degenerated Balun-LNA Mixer with Integrated Transformer-Based Gate Inductor and IM2 Injection Technique[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2020, 28(3), 700-713.
Authors:  Vitee,Nandini;  Ramiah,Harikrishnan;  Mak,Pui In;  Yin,Jun;  Martins,Rui P.
Favorite | TC[WOS]:15 TC[Scopus]:25  IF:2.8/2.8 | Submit date:2021/03/04
Balun-low-noise Amplifier (Lna) Mixer  Cmos  High Linearity  Inductively Source Degeneration Transconductor  Low-power  Second-order Intermodulation (Im2) Injection  Third-order Input Intercept Point (Iip3)  Volterra Series  
A 0.096-mm2 1-20-GHz triple-path noise- canceling common-gate common-source LNA with dual complementary pMOS-nMOS configuration Journal article
Yu,Haohong, Chen,Yong, Boon,Chirn Chye, Mak,Pui In, Martins,Rui P.. A 0.096-mm2 1-20-GHz triple-path noise- canceling common-gate common-source LNA with dual complementary pMOS-nMOS configuration[J]. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2019, 68(1), 144-159.
Authors:  Yu,Haohong;  Chen,Yong;  Boon,Chirn Chye;  Mak,Pui In;  Martins,Rui P.
Favorite | TC[WOS]:67 TC[Scopus]:75  IF:4.1/4.2 | Submit date:2021/03/09
Cmos  Common Gate (Cg)  Common Source (Cs)  Input Third-order Intercept Point (Iip3)  Noise Figure (Nf)  Partial Distortion Canceling  Pmos-nmos Configuration  Resistive Feedback  Triple-path And Dual-path Noise CaNceling (Nc)  Wideband Input Matching  Wideband Low-noise Amplifier (Lna)