舒一洋
个人信息Personal Information
研究员 博士生导师
性别:男
毕业院校:电子科技大学
学历:博士研究生毕业
学位:工学博士学位
在职信息:在岗
所在单位:集成电路科学与工程学院(示范性微电子学院)
扫描关注
- [1] A low phase noise and high FoM distributed-swing-boosting multi-core oscillator using harmonic-impedance-expanding technique, IEEE JSSC 2021年,
- [2] A 2-D mode-switching quad-core oscillator using E-M mixed-coupling resonance boosting, IEEE JSSC 2021年,
- [3] A 20−32-GHz quadrature digital transmitter using synthesized impedance variation compensation, IEEE JSSC 2020年,
- [4] A 3.09-to-4.04GHz distributed-boosting and harmonic-impedance-expanding multi-core oscillator with -138.9dBc/Hz at 1MHz offset and 195.1dBc/Hz FoM, IEEE ISSCC 2021年,
- [5] A 18.6-to-40.1GHz 201.7dBc/Hz FoMT multi-core oscillator using E-M mixed-coupling resonance boosting, IEEE ISSCC 2020年,
- [6] A cascaded mode-switching sub-sampling PLL with quadrature dual-mode voltage waveform-shaping oscillator, IEEE TCAS-I 2021年,
- [7] A 169.6-GHz low phase noise and wideband hybrid mode-switching push-push oscillator, IEEE TMTT 2019年,
- [8] Low NF and high P1dB wideband quasi-circulator with unequal power split and reconfigurable inter-stage matching, IEEE TMTT 2021,
- [9] A 2.3-to-3.2GHz class-G impedance-modulation power oscillator with 10dBm peak Pout and 39%/37%/33%/30% Efficiency at 0/3/6/9dB PBOs, IEEE RFIC 2021年,
- [10] A 3.3-4.5GHz fractional-N sampling PLL with a merged constant slope DTC and sampling PD in 40nm CMOS, IEEE RFIC 2021年,
- [11] A 20-32GHz digital quadrature transmitter with notched matching and mode-switch topology for 5G wireless and backhaul system, IEEE RFIC 2019年,
- [12] A 19.1–25.5-GHz compact dual-mode rotary traveling-wave oscillator with 195.4-dBc/Hz FoMT, IEEE MWCL 2022年,
- [13] Low phase noise high efficiency power oscillator with digitally controlled output power, IEEE MWCL 2021年,
- [14] Compact UWB BPF with broad stopband based on loaded-stub and C-shape SIDGS resonators, IEEE MWCL 2021年,
- [15] 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 IMS 2018年,
- [16] A 90−98 GHz 2×2 phased-array transmitter with high resolution phase control and digital gain compensation, IEEE IMS 2019年,
- [17] A wideband quasi-circulator with low NF and high P1dB using noise-canceling technique, IEEE IMS 2019年,
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