王辉/教师名录

        王辉，长聘教轨副教授，国家高层次青年人才。分别于2009年和2012年在上海交通大学获得学士和硕士学位， 2018年在加州大学圣地亚哥分校获得博士学位，自2018至2019年在斯坦福大学进行博士后研究， 2019年底加入美国高通公司，担任射频/混合信号芯片研发高级工程师，2022年10月加入上海交通大学。

        长期从事混合信号芯片与无线传感芯片设计领域的研究，在高能效模拟信号数字化芯片和低功耗无线传输芯片方向取得了多项具有国际影响力的研究成果，包括提出并实现了当时国际上最高能效的温度到数字的转换芯片、首次实现纳瓦级的具备从模拟检测到无线数据传输完整功能单片集成的无线传感芯片、提出并验证了国际上首个无需参考源的基准频率芯片等。具有前沿的行业研发经历，在美国高通公司基于3nm、4nm FinFet等先进集成电路工艺研发高性能射频/混合信号商用芯片。

        在领域内权威期刊和顶级会议发表文章 20 余篇（第一作者 14 篇），包括以第一作者发表本领域顶刊 JSSC 3 篇和本领域顶级会议CICC/ESSCIRC 4 篇。多篇论文获得最佳论文提名。授权美国专利4项。获得2018年ADI集成电路杰出学生设计者奖。担任JSSC，TBioCAS，TCAS-I，TCAS-II，IEEE Sensors Journal 等学术期刊审稿人。

研究方向：

1. 模拟/射频/混合信号集成电路设计

2. 低功耗射频收发机

3. 高精准基准电路设计

4. 高能效时钟电路设计

5. 脑机接口芯片设计

代表性期刊论文：

1. H.Wang and P. P. Mercier, “A 763 pW 230 pJ/Conversion Fully Integrated CMOS Temperature-to-Digital Converter With +0.81 °C/-0.75 °C Inaccuracy,” IEEE Journal of Solid-State Circuits, vol. 54, no. 8, pp. 2281-2290, Aug. 2019.

2. H.Wang et al., “A Battery-Powered Wireless Ion Sensing System Consuming 5.5 nW of Average Power,” IEEE Journal of Solid-State Circuits, vol. 53, no. 7, pp. 2043-2053, Jul. 2018.

3. H.Wang and P. P. Mercier, “A Current-Mode Capacitively-Coupled Chopper Instrumentation Amplifier for Biopotential Recording with Resistive or Capacitive Electrodes,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 65, no. 6, pp. 699-703, Jun. 2018.

4. H.Wang and P. P. Mercier, “A 3.4-pW 0.4-V 469.3 ppm/°C Five-Transistor Current Reference Generator,” in IEEE Solid-State Circuits Letters, vol. 1, no. 5, pp. 122-125, May 2018.

5. H.Wang and P. P. Mercier, “A Reference-Free Capacitive-Discharging Oscillator Architecture Consuming 44.4 pW/75.6 nW at 2.8 Hz/6.4 kHz,” IEEE Journal of Solid-State Circuits, vol. 51, no. 6, pp. 1–13, June 2016.

代表性会议论文：

1. H.Wang et al., “A 5.5 nW Battery-Powered Wireless Ion Sensing System,” in IEEE European Solid-State Circuits Conference, Sept. 2017, pp. 364–367.

2. H.Wang and P.P. Mercier, “A 113 pW Fully Integrated CMOS Temperature Sensor Operating at 0.5 V,” in Proc. of IEEE Sensors Conference, Oct. 2017, pp. 1-3. Best paper finalist

3. H.Wang and P. P. Mercier, “A 1.6%/V 124.2 pW 9.3 Hz Relaxation Oscillator Featuring a 49.7 pW Voltage and Current Reference Generator,” in IEEE European Solid-State Circuits Conference, Sept. 2017, pp. 99–102.

4. H.Wang and P. P. Mercier, “A 420 fW Self-Regulated 3T Voltage Reference Generator Achieving 0.47%/V Line Regulation from 0.4-to-1.2 V,” in IEEE European Solid-State Circuits Conference, Sept. 2017, pp. 15–18.

5. H.Wang and P. P. Mercier, “A 14.5 pW, 31 ppm/^oC Resistor-Less 5 pA Current Reference Employing a Self-Regulated Push-Pull Voltage Reference Generator,” in IEEE International Symposium on Circuits and Systems, May 2016, pp. 1290–1293.

6. H.Wang and P. P. Mercier, “A 51 pW Reference-Free Capacitive-Discharging Oscillator Architecture Operating at 2.8 Hz,” in IEEE Custom Integrated Circuits Conference, Sept. 2015, pp. 1–4. Best paper finalist

7. H.Wang, W. Wang, J. Jin, D. Chen, and J. Zhou, “Anti-interference pseudo-differential wideband LNA for DVB-S. 2 RF tuners,” in IEEE International Symposium on Circuits and Systems, May 2012, pp. 2151-2154.

模拟集成电路设计（本科）