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大数据电子与先进微系统实验室

团队名称

大数据电子与先进微系统实验室

团队介绍

1.科研方向

(1)数字化射频、微波、毫米波集成电路及系统


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 (2)高速率、高精度通信集成电路及系统


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(3)片上太赫兹电路及系统


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(4)可重构无源电路及系统


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2.代表性成果

(1)代表性的高水平论文

[1]H. Qian, B. Zhang, and X. Luo, "High-resolution wideband phase shifter with current limited vector-sum," IEEE Trans. Circuits Syst. I, Reg. Papers, on-line published, 2018.

[2]J. Deng, Y. Yang, Z. Zhu, and X. Luo, "A 140–220 GHz Balanced Doubler with 8.7–12.7% Efficiency," IEEE Microw. Wireless Compon. Lett., vol. 28, no. 6, pp. 515-517, Jun. 2018.

[3]Z. Deng, Z. Tian, H. Qian, and X. Luo, "A metamorphosed roadway: dual-band variable-attenuation notch filters," IEEE Microwave Magazine, vol. 19, no. 2, pp. 70-76, Mar. 2018. (Invited Paper, IEEE Microwave Magazine Popular Article Ranking No.8, Mar. 2018)

[4]J. Zhou, H. Qian, and X. Luo, "Compact wideband phase shifter using microstrip self-coupled line and broadside-coupled microstrip/CPW for multi-phase feed-network," IEEE Microw. Wireless Compon. Lett., vol. 27, no. 9, pp. 791-793, Sep. 2017. (IEEE MWCL Popular Article Ranking No.1, Sep. 2017)

[5]H. Qian and X. Luo, "Compact 6.5-28.5 GHz on-chip balun with enhanced inband balance responses," IEEE Microw. Wireless Compon. Lett., vol. 26, no. 12, pp. 993-995, Dec. 2016. (IEEE MWCL Popular Article Ranking No.11, Dec. 2016)

[6]H. Qian, J. Liang, and X. Luo, "Wideband digital power amplifiers with efficiency improvement using 40nm LP CMOS technology," IEEE Trans. Microw. Theory Tech., vol. 64, no. 3, pp. 675-687, Mar. 2016. (IEEE TMTT Popular Article Ranking No.1, Apr. 2016)


(2)其他代表性成果

1)会议论文

[1]Y. Shu, H. Qian, and X. Luo, "A 169.6 GHz hybrid mode-switching push-push oscillator with 21.7% tuning range and 180.6dBc/Hz FoMT in 28nm CMOS technology," IEEE MTT-S Int. Microwave Sym. Dig., 2018.

[2]Z. Deng, H. Qian, and X. Luo, "A compact quasi-circulator with high isolation using reconfigurable 180 degree hybrid," IEEE MTT-S Int. Microwave Sym. Dig., 2018.

[3]J. Ren, H. Qian, and X. Luo, "A wideband filtering balun using CPW-to-slotline transitions," IEEE MTT-S Int. Microwave Sym. Dig., 2018. (Best Student Paper Award Finalist)

[4]L. Fan, H. Qian, B. Yang, G. Wang, and X. Luo, "Filtering power divider with wide stopband using slow-wave defected ground structure resonator," IEEE MTT-S Int. Microwave Sym. Dig., 2018.

[5]Y. Rao, H. Qian, R. Gomez-Garcia, and X. Luo, "Dual-band bandpass filter with ultra-wide upper stopband using slow-wave dual-resonance cells," IEEE MTT-S Int. Microwave Sym. Dig., 2018.

[6]Y. Shu, H. Qian, and X. Luo, "A 20.7-31.8GHz dual-mode voltage waveform-shaping oscillator with 195.8dBc/Hz FoMT in 28nm CMOS," IEEE RFIC., 2018.

[7]T. Wang, X. Liu, Z. Deng, and X. Luo, "Compact multi-function notch filter using λ/4 microstrip resonator with embedded varactor-loaded hybrid microstrip/CPW structure," IEEE APMC., 2018.

[8]Y. Shu, H. Qian, and X. Luo, "A 173 GHz transformer-based push-push oscillator with 11.2% tuning range in 28nm CMOS," IEEE MTT-s Int. Wireless Symp., 2018. (Best Student Paper Award Finalist)

[9]X. Liu, Z. Tian, H. Qian, and X. Luo, "Reconfigurable diplexer using λ/2 resonator with hybrid varactor-embedded stepped-impedance open-stub and slot," IEEE MTT-s Int. Wireless Symp., 2018.

[10]Z. Tian, H. Qian, and X. Luo, "Reconfigurable dual-band bandpass filter with fully-switch operation using half-wavelength folded-resonator with varactor-loaded open-stub," IEEE MTT-S Int. Microwave Sym. Dig., 2017.

[11]J. Zhou, H. Qian, D. Huang, and X. Luo, "Ultra-wideband (UWB) wilkinson power divider with ultra-narrow dual-notched bands using embedded CPW resonators," IEEE MTT-S Int. Microwave Sym. Dig., 2017.

[12]H. Qian, J. Liang, N. Zhu, P. Gao, and X. Luo, "A 3-7GHz 4-element digital modulated polar phased-array transmitter with 0.35 degree phase resolution and 38.2% peak system efficiency," IEEE Custom Integrated Circuits Conf., 2017.

[13]B. Yang, H, Qian, Y. Shu, and X. Luo, "Compact bandpass filter with wide stopband using slow-wave CPW resonator with back-to-back coupled-scheme," IEEE Int. Sym. RFIT., 2017. (Invited Paper)

[14]H. Qian, J. Liang, N. Zhu, P. Gao, and X. Luo, "A 3.1–7 GHz 40-nm CMOS digital polar transmitter with high data-rate and feed-forward operation," IEEE Int. Sym. RFIT., 2016. (Best Student Paper Award, 1st Place)

[15]Y. Shu, B. Yang, H. Qian, and X. Luo, "Compact UWB antenna with quad-notched bands," IEEE AP-S/URSI, 2016.


2)发表的专利

Mixed-mode wideband transmitter, PCT International Patent, filed, 2018.

Dynamic-phasing wideband receiver, PCT International Patent, filed, 2018.

Wideband mode-switching frequency synthesizer, PCT International Patent, filed, 2018.

Phase shifter array with current-DAC and digital pre-distortion, PCT International Patent, filed, 2017.

Dummy-stacked high-Q transmission line, PCT International Patent, filed, 2017.

Multi-mode waveform-shaping source generator, PCT International Patent, filed, 2017.

Polar phased-array transmitter, PCT International Patent, filed, 2016.

High resolution multi-bit phase shifter, PCT International Patent, filed, 2016.

Dual-mode wideband oscillator, PCT International Patent, filed, 2016.

3D stacked capacitor, PCT International Patent, filed, 2016.

Wideband digital assisted polar transmitter with multi-modes dynamic matching technique, PCT International Patent, filed, 2015.

Voltage waveform-shaping oscillator, PCT International Patent, filed, 2015.

CPW resonant cell with wide stopband using slow-wave structure, PCT International Patent, filed, 2015.





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