潘思宁

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潘思宁 助理教授

电子邮箱:psn@tsinghua.edu.cn

通信地址:北京市清华大学集成电路学院C306,邮编100084






潘思宁,清华大学集成电路学院助理教授,博士生导师。2013年本科毕业于清华大学电子工程系,获学士学位,2016/2021年在荷兰代尔夫特理工大学微电子系获硕士/博士学位(均获荣誉学位),2021年至2022年在荷兰代尔夫特理工大学从事博士后研究,2022年4月全职回国加入清华大学集成电路学院,任教研系列助理教授。主要从事智能传感器电路,CMOS频率源,ΔΣ调制器等模拟/数模混合电路研究。在芯片设计顶级会议ISSCC及顶级期刊JSSC发表论文共22篇,其中一作/通讯12篇,Springer出版专著一本《Resistor-based temperature sensors in CMOS technology》,专著章节两章。曾获2020年SSCS博士生成就奖,2019ADI杰出学生设计者奖等。目前担任亚洲固态电路会议(ASSCC)技术委员会成员。


招生/招聘信息:本课题组每年招收2名左右博士/硕士研究生,常年招聘模拟/混合信号电路设计方向博士后,同时也非常欢迎感兴趣的本科生参与科研工作。详情请附上简历咨询psn@tsinghua.edu.cn。


代表性论著:

期刊(JSSC)

1. S. Pan, X. An, Z. Yu, H. Jiang and K. A. A. Makinwa, "Compact RC Frequency References based on a Versatile Temperature Compensation Scheme," IEEE J. Solid-State Circuits. vol. 58, no. 12, pp. 3450-3458, Dec. 2023.

2. Z. Tang, S. Pan, M. Grubor and K. A. A. Makinwa, "A Sub-1V Capacitively-Biased BJT-Based Temperature Sensor with an Inaccuracy of ±0.15°C (3σ) from -55°C to 125°C," IEEE J. Solid-State Circuits. vol. 58, no. 12, pp. 3433-3441, Dec. 2023.

3. A. C. de Oliveira, S. Pan, R. J. Wiegerink and K. A. A. Makinwa, "A MEMS Coriolis-Based Mass-Flow-to-Digital Converter for Low Flow Rate Sensing," IEEE J. Solid-State Circuits. vol. 57, no. 12, pp. 3681-3692, Dec. 2022.

4. Ç. Gürleyük, S. Pan and K. A. A. Makinwa, "A 16 MHz CMOS RC Frequency Reference With ±90 ppm Inaccuracy From −45°C to 85°C," IEEE J. Solid-State Circuits. vol. 57, no. 8, pp. 2429-2437, Aug. 2022.

5. S. Pan, J. A. Angevare and K. A. A. Makinwa, "A Self-Calibrated Hybrid Thermal-Diffusivity/Resistor-Based Temperature Sensor," IEEE J. Solid-State Circuits. vol. 56, no. 12, pp. 3551-3559, Dec. 2021.

6. S. Pan and K. A. A. Makinwa, "A 10fJ·K2 Wheatstone Bridge Temperature Sensor with a Tail-Resistor-Linearized OTA," IEEE J. Solid-State Circuits, IEEE J. Solid-State Circuits, vol 56, no. 2, pp. 501-510, Feb 2021.

7. S. Pan and K. A. A. Makinwa, "A 0.25 mm2 Resistor-based Temperature Sensor with an Inaccuracy of 0.12°C (3σ) from −55°C to 125°C," IEEE J. Solid-State Circuits, vol 53, no. 12, pp. 3347-3355, Dec 2018.

8. Ç. Gürleyük, L. Pedala, S. Pan, F. Sebastiano, and K. A. A. Makinwa, "A CMOS Dual-RC Frequency Reference with ±200 ppm Inaccuracy from −45°C to 85°C," IEEE J. Solid-State Circuits, vol 53, no. 12, pp. 3386-3395, Dec 2018.

9. S. Pan, Y. Luo, S. H. Shalmany and K. A. A. Makinwa, "A Resistor-based Temperature Sensor with a 0.13 pJ·K² Resolution FoM," IEEE J. Solid-State Circuits. vol. 53, no. 1, pp. 164-173, Jan. 2018.


会议(ISSCC)

1. S. Pan, Y. Cheng, G. Wu, Z. Wang, K. A. A. Makinwa and H. Wu, "A 0.028mm2 32MHz RC Frequency Reference in 0.18μm CMOS with ±900ppm Inaccuracy from −40°C to 125°C and ±1600ppm Inaccuracy After Accelerated Aging", in IEEE ISSCC Dig. Tech. Papers, Feb. 2024, in press.

2. X. An*, S. Pan*, H. Jiang and K. A. A Makinwa, (*Equally-Credited Authors) "A 0.01mm2 10MHz RC Frequency Reference with a 1-Point On-Chip-Trimmed Inaccuracy of ±0.28% from -45°C to 125°C in 0.18μm CMOS" in IEEE ISSCC Dig. Tech. Papers, Feb. 2023, pp. 60-61.

3. Z. Tang, S. Pan and K. A. A Makinwa, "A Sub-1V 810nW Capacitively-Biased BJT-Based Temperature Sensor with an Inaccuracy of ±0.15°C (3σ) from -55°C to 125°C, " in IEEE ISSCC Dig. Tech. Papers, Feb. 2023, pp. 354-355.

4. N. Toth*, T. Someya, Z. Tang, S. Pan* and K. A. A Makinwa, (*Equally-Credited Authors) " A BJT-Based Temperature Sensor with ±0.1°C (3σ) Inaccuracy from -55°C to 125°C and a 0.85pJ∙K2 Resolution FoM Using Continuous-Time Readout," in IEEE ISSCC Dig. Tech. Papers, Feb. 2023, pp. 358-359.

5. A. C. de Oliveira, S. Pan and K. A. A Makinwa, "A MEMS Coriolis-Based Mass-Flow-to-Digital Converter with 100μg/h/√Hz Noise Floor and Zero Stability of ±0.35mg/h," in IEEE ISSCC Dig. Tech. Papers, Feb. 2022, pp. 68-69.

6. S. Pan, J. A. Angevare and K.A.A Makinwa, "A Hybrid Thermal-Diffusivity/Resistor-based Temperature Sensor with a Self-Calibrated Inaccuracy of 0.25°C (3σ) from −55°C to 125°C," in IEEE ISSCC Dig. Tech. Papers, in IEEE ISSCC Dig. Tech. Papers, Feb. 2021, pp. 78-80.

7. H. Jiang, S. Pan, Ç. Gürleyük and K. A. A. Makinwa, "A 0.14mm2 16MHz CMOS RC Frequency Reference with a 1-point Trimmed Inaccuracy of ±400ppm from −45°C to 85°C," in IEEE ISSCC Dig. Tech. Papers, Feb. 2021, pp. 436-438.

8. S. Pan and K. A. A. Makinwa, " A CMOS Resistor-based Temperature Sensor with a 10fJ∙K2 Resolution FoM and 0.4°C (3σ) Inaccuracy from −55°C to 125°C after a 1-point Trim," in IEEE ISSCC Dig. Tech. Papers, Feb. 2020, pp. 68-69.

9. Ç. Gürleyük, S. Pan, and K. A. A. Makinwa, "A 16MHz CMOS RC Frequency Reference with ±400ppm Inaccuracy from −45°C to 85°C after Digital Temperature Compensation," in IEEE ISSCC Dig. Tech. Papers, Feb. 2020, pp. 64-65.

10. S. Pan, Ç. Gürleyük, M. F. Pimenta and K. A. A. Makinwa, "A 0.12mm2 Wien Bridge Temperature Sensor with a 0.1°C (3σ) Inaccuracy from −40°C to 180°C," in IEEE ISSCC Dig. Tech. Papers, Feb. 2019, pp. 184-186.

11. S. Pan and K. A. A. Makinwa, "A Wheatstone Bridge Temperature Sensor with a Resolution FoM of 20fJ·K2," in IEEE ISSCC Dig. Tech. Papers, Feb. 2019, pp. 186-188.

12. S. Pan and K. A. A. Makinwa, "A 0.25mm2 Resistor-based Temperature Sensor with an Inaccuracy of 0.12°C (3σ) from −55°C to 125°C and a Resolution FoM of 32fJ·K2," in IEEE ISSCC Dig. Tech. Papers, Feb. 2018, pp. 320-322.

13. S. Pan, Y. Luo, S. H. Shalmany and K. A. A. Makinwa, "A Resistor-based Temperature Sensor with a 0.13pJ·K2 Resolution FOM," in IEEE ISSCC Dig. Tech. Papers, Feb. 2017, pp. 158-159.


专著

1. S. Pan and K. A. A. Makinwa, Resistor-based temperature sensors in CMOS technology, Springer, Cham, 2022.