A Resistor-Based Temperature Sensor With a 0.13 pJ K2 Resolution FoM S Pan, Y Luo, SH Shalmany, KAA Makinwa IEEE Journal of Solid-State Circuits 53 (1), 164-173, 2017 | 79 | 2017 |
A 0.25 mm 2-Resistor-Based Temperature Sensor With an Inaccuracy of 0.12° C (3) From −55° C to 125° C S Pan, KAA Makinwa IEEE Journal of Solid-State Circuits 53 (12), 3347-3355, 2018 | 40 | 2018 |
10.3 A 0.12mm2 Wien-Bridge Temperature Sensor with 0.1°C (3σ) Inaccuracy from -40°C to 180°C S Pan, Ç Gürleyük, MF Pimenta, KAA Makinwa 2019 IEEE International Solid-State Circuits Conference-(ISSCC), 184-186, 2019 | 36 | 2019 |
A CMOS Dual-RC Frequency Reference With ±200-ppm Inaccuracy From −45 °C to 85 °C Ç Gürleyük, L Pedalà, S Pan, F Sebastiano, KAA Makinwa IEEE Journal of Solid-State Circuits 53 (12), 3386-3395, 2018 | 35 | 2018 |
10.4 A Wheatstone Bridge Temperature Sensor with a Resolution FoM of 20fJ.K2 S Pan, KAA Makinwa 2019 IEEE International Solid-State Circuits Conference-(ISSCC), 186-188, 2019 | 26 | 2019 |
A CMOS temperature sensor with a 49fJK2resolution FoM S Pan, H Jiang, KAA Makinwa 2017 Symposium on VLSI Circuits, C82-C83, 2017 | 17 | 2017 |
3.6 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 S Pan, KAA Makinwa 2020 IEEE International Solid-State Circuits Conference-(ISSCC), 68-70, 2020 | 16 | 2020 |
3.4 A 16MHz CMOS RC Frequency Reference with±400ppm Inaccuracy from− 45° C to 85° C After Digital Linear Temperature Compensation Ç Gürleyük, S Pan, KAA Makinwa 2020 IEEE International Solid-State Circuits Conference-(ISSCC), 64-66, 2020 | 14 | 2020 |
A 10 fJ·K2 Wheatstone Bridge Temperature Sensor With a Tail-Resistor-Linearized OTA S Pan, KAA Makinwa IEEE Journal of Solid-State Circuits 56 (2), 501-510, 2020 | 12 | 2020 |
A 0.25mm2resistor-based temperature sensor with an inaccuracy of 0.12°C (3σ) from −55°C to 125°C and a resolution FOM of 32fJK2 S Pan, KAA Makinwa 2018 IEEE International Solid-State Circuits Conference-(ISSCC), 320-322, 2018 | 12 | 2018 |
31.3 A 0.14mm2 16MHz CMOS RC Frequency Reference with a 1-Point Trimmed Inaccuracy of ±400ppm from -45°C to 85°C H Jiang, S Pan, Ç Gürleyük, KAA Makinwa 2021 IEEE International Solid-State Circuits Conference (ISSCC) 64, 436-438, 2021 | 11 | 2021 |
A 6.6-μW Wheatstone-Bridge Temperature Sensor for Biomedical Applications S Pan, KAA Makinwa IEEE Solid-State Circuits Letters 3, 334-337, 2020 | 8 | 2020 |
5.4 A Hybrid Thermal-Diffusivity/Resistor-Based Temperature Sensor with a Self-Calibrated Inaccuracy of ±0.25° C (3σ) from -55° C to 125° C S Pan, JA Angevare, KAA Makinwa 2021 IEEE International Solid-State Circuits Conference (ISSCC) 64, 78-80, 2021 | 5 | 2021 |
Energy-efficient high-resolution resistor-based temperature sensors S Pan, KAA Makinwa Hybrid ADCs, Smart Sensors for the IoT, and Sub-1V & Advanced Node Analog …, 2018 | 5 | 2018 |
SPECIAL ISSUE ON THE 2021 IEEE INTERNATIONAL SOLID-STATE CIRCUITS CONFERENCE (ISSCC) Y Chiu, MK Law, N Krishnapura, JT Stauth, JS Walling, S Pan, ... | 4 | 2010 |
A 16 MHz CMOS RC Frequency Reference With±90 ppm Inaccuracy From− 45° C to 85° C Ç Gürleyük, S Pan, KAA Makinwa IEEE Journal of Solid-State Circuits 57 (8), 2429-2437, 2022 | 3 | 2022 |
A self-calibrated hybrid thermal-diffusivity/resistor-based temperature sensor S Pan, JA Angevare, KAA Makinwa IEEE Journal of Solid-State Circuits 56 (12), 3551-3559, 2021 | 3 | 2021 |
A frequency-locked loop based on an oxide electrothermal filter in standard CMOS L Pedalà, Ç Gürleyük, S Pan, F Sebastiano, KAA Makinwa ESSCIRC 2017-43rd IEEE European Solid State Circuits Conference, 7-10, 2017 | 3 | 2017 |
A 210nW BJT-based Temperature Sensor with an Inaccuracy of±0.15° C (3σ) from− 15° C to 85° C T Someya, V Van Hoek, J Angevare, S Pan, K Makinwa 2022 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and …, 2022 | 1 | 2022 |
Wheatstone Bridge–Based Temperature Sensors S Pan, KAA Makinwa Resistor-based Temperature Sensors in CMOS Technology, 67-106, 2022 | 1 | 2022 |