default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDPieter Harpe
Pieter J. A. Harpe
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j42]Martijn Timmermans
, Kyle van Oosterhout, Marco Fattori, Pieter Harpe, Yao-Hong Liu, Eugenio Cantatore:
A 1.8-65 fJ/Conv.-Step 64-dB SNDR Continuous- Time Level Crossing ADC Exploiting Dynamic Self-Biasing Comparators. IEEE J. Solid State Circuits 59(4): 1194-1203 (2024)- [j41]Yuming He, Stan van der Ven, Hua-Peng Liaw, Chengyao Shi, Pietro Russo, Marios Gourdouparis, Mario Konijnenburg, Stefano Traferro, Martijn Timmermans, Carolina Mora Lopez, Pieter Harpe, Eugenio Cantatore, Elisabetta Chicca, Yao-Hong Liu:
An Event-Based Neural Compressive Telemetry With >11× Loss-Less Data Reduction for High-Bandwidth Intracortical Brain Computer Interfaces. IEEE Trans. Biomed. Circuits Syst. 18(5): 1100-1111 (2024) - [c89]Pieter Harpe:
Energy Efficient ADC Design Techniques. CICC 2024: 1-2 - 2023
- [j40]Hanyue Li, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
A 77.3-dB SNDR 62.5-kHz Bandwidth Continuous-Time Noise-Shaping SAR ADC With Duty-Cycled Gm-C Integrator. IEEE J. Solid State Circuits 58(4): 939-948 (2023) - [j39]Enrico Genco, Carmine Garripoli, Jan-Laurens P. J. van der Steen, Gerwin H. Gelinck, Sahel Abdinia, Pieter Harpe, Eugenio Cantatore:
An EMG Interface Comprising a Flexible a-IGZO Active Electrode Matrix and a 65-nm CMOS IC. IEEE J. Solid State Circuits 58(11): 3138-3149 (2023) - [j38]Yijing Zhang, Lin Xu, Myrthe van der Ven, Sotir Ouzounov, Mohammed Meftah, Massimo Mischi, Eugenio Cantatore, Pieter Harpe:
Comparison and Integration of Voltage and Charge Amplifiers for Capacitive ECG Measurements. IEEE Trans. Biomed. Eng. 70(2): 501-510 (2023) - [j37]Kevin Pelzers, Mariska van der Struijk, Pieter Harpe:
A 0.0022 mm² 10 bit 20 MS/s SAR ADC With Passive Single-Ended-to-Differential-Converter. IEEE Trans. Circuits Syst. I Regul. Pap. 70(1): 29-39 (2023) - [j36]Yuting Shen, Hanyue Li, Harijot Singh Bindra, Eugenio Cantatore, Pieter Harpe:
A 14-Bit Oversampled SAR ADC With Mismatch Error Shaping and Analog Range Compensation. IEEE Trans. Circuits Syst. II Express Briefs 70(5): 1719-1723 (2023) - [j35]Shima Sedighiani, Kamlesh Singh, Roel Jordans, Pieter Harpe, José Pineda de Gyvez:
A 380 fW Leakage Data Retention Flip-Flop for Short Sleep Periods. IEEE Trans. Circuits Syst. II Express Briefs 70(7): 2650-2654 (2023) - [c88]Yuting Shen, Hanyue Li, Eugenio Cantatore, Pieter Harpe:
A 0.0033 mm2 3.5 fJ/conversion-step SAR ADC with 2× Input Range Boosting. ISCAS 2023: 1-5 - [c87]Yuting Shen, Hanyue Li, Eugenio Cantatore, Pieter Harpe:
A 2.98pJ/conversion 0.0023mm2 Dynamic Temperature Sensor with Fully On-Chip Corrections. ISSCC 2023: 356-357 - [c86]Pieter Harpe, Yuting Shen, Hanyue Li, Kevin Pelzers, Haoming Xin, Eugenio Cantatore:
Ultra Low Power Event-Driven Sensor Interfaces. IWASI 2023: 133-137 - [c85]Hanyue Li, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
A 10-bit 10 MS/s SAR ADC with Duty-Cycled Multiple Feedback Filter. NEWCAS 2023: 1-5 - [c84]Martijn Timmermans, Marco Fattori, Pieter Harpe, Yao-Hong Liu, Eugenio Cantatore:
A 3-320 fJ/conv.step Continuous Time Level Crossing ADC with Dynamic Self-Biasing Comparators Achieving 61.4 dB-SNDR. VLSI Technology and Circuits 2023: 1-2 - 2022
- [j34]Yuting Shen, Hanyue Li, Haoming Xin, Eugenio Cantatore, Pieter Harpe:
A 103-dB SFDR Calibration-Free Oversampled SAR ADC With Mismatch Error Shaping and Pre-Comparison Techniques. IEEE J. Solid State Circuits 57(3): 734-744 (2022) - [j33]Hanyue Li, Yuting Shen, Haoming Xin, Eugenio Cantatore, Pieter Harpe:
A 7.3-μ W 13-ENOB 98-dB SFDR Noise-Shaping SAR ADC With Duty-Cycled Amplifier and Mismatch Error Shaping. IEEE J. Solid State Circuits 57(7): 2078-2089 (2022) - [j32]Yuming He, Federico Corradi, Chengyao Shi, Stan van der Ven, Martijn Timmermans, Jan Stuijt, Paul Detterer, Pieter Harpe, Lucas Lindeboom, Evelien Hermeling, Geert Langereis, Elisabetta Chicca, Yao-Hong Liu:
An Implantable Neuromorphic Sensing System Featuring Near-Sensor Computation and Send-on-Delta Transmission for Wireless Neural Sensing of Peripheral Nerves. IEEE J. Solid State Circuits 57(10): 3058-3070 (2022) - [j31]Haoming Xin, Peter G. M. Baltus, Eugenio Cantatore, Pieter Harpe:
A 0.32 nW-1.07 µW All-Dynamic Versatile Resistive Sensor Interface With System-Level Ratiometric Measurement. IEEE Trans. Circuits Syst. I Regul. Pap. 69(2): 506-517 (2022) - [j30]Kevin Pelzers, Haoming Xin, Eugenio Cantatore, Pieter Harpe:
A Compact 0.0054 mm2 Multipurpose Analog Frontend for Ultrasound Digitizers in 40nm CMOS. IEEE Trans. Circuits Syst. II Express Briefs 69(5): 2483-2487 (2022) - [j29]Yuting Shen, Hanyue Li, Eugenio Cantatore, Pieter Harpe:
A 2.2 fJ/Conversion-Step 9.74-ENOB 10 MS/s SAR ADC With $1.5×Input Range. IEEE Trans. Circuits Syst. II Express Briefs 69(9): 3660-3664 (2022) - [j28]Hanyue Li, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
Small-Area SAR ADCs With a Compact Unit-Length DAC Layout. IEEE Trans. Circuits Syst. II Express Briefs 69(10): 4038-4042 (2022) - [c83]Yijing Zhang, Lin Xu, Massimo Mischi, Eugenio Cantatore, Pieter Harpe:
Analysis of Interface Material Noise in Non-contact Capacitive Sensing. EMBC 2022: 1270-1274 - [c82]Yuting Shen, Mariska van der Struijk, Kevin Pelzers, Hanyue Li, Eugenio Cantatore, Pieter Harpe:
A 2.74pJ/conversion 0.0018mm2 Temperature Sensor with On-chip Gain and Offset Correction. ESSCIRC 2022: 181-184 - [c81]Hanyue Li, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
A l0-bit 4 MS/s SAR ADC with Fully-Dynamic Duty-Cycled Input Driver. ICECS 2022 2022: 1-4 - [c80]Yijing Zhang, Sotir Ouzounov, Mohammed Meftah, Eugenio Cantatore, Pieter Harpe:
Preamplifier Design Strategies for Capacitive Sensing of Electrophysiological Signals. ICECS 2022 2022: 1-4 - [c79]Yuting Shen, Hanyue Li, Eugenio Cantatore, Pieter Harpe:
A SAR ADC with Reconfigurable Delay and Redundancy to Relax the Reference Driver. ISCAS 2022: 11-15 - [c78]Hanyue Li, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
A First-Order Continuous-Time Noise-Shaping SAR ADC with Duty-Cycled Integrator. VLSI Technology and Circuits 2022: 58-59 - 2021
- [j27]Alessandra Galli, Elisabetta Peri, Yijing Zhang, Rik Vullings, Myrthe van der Ven, Giada Giorgi, Sotir Ouzounov, Pieter J. A. Harpe, Massimo Mischi:
Dedicated Algorithm for Unobtrusive Fetal Heart Rate Monitoring Using Multiple Dry Electrodes. Sensors 21(13): 4298 (2021) - [j26]Meiyi Zhou, Sotir Ouzounov, Eugenio Cantatore, Pieter Harpe:
An RX AFE With Programmable BP Filter and Digitization for Ultrasound Harmonic Imaging. IEEE Trans. Biomed. Circuits Syst. 15(6): 1430-1440 (2021) - [j25]Gönenç Berkol, Peter G. M. Baltus, Pieter J. A. Harpe, Eugenio Cantatore:
A 1.25 μJ per Measurement Ultrasound Rangefinder System in 65 nm CMOS for Explorations With a Swarm of Sensor Nodes. IEEE Trans. Circuits Syst. I Regul. Pap. 68(4): 1409-1420 (2021) - [c77]Yuming He, Federico Corradi, Chengyao Shi, Ming Ding, Martijn Timmermans, Jan Stuijt, Pieter Harpe, Ilja Ocket, Yao-Hong Liu:
A 28.2 μC Neuromorphic Sensing System Featuring SNN-based Near-sensor Computation and Event-Driven Body-Channel Communication for Insertable Cardiac Monitoring. A-SSCC 2021: 1-3 - [c76]Charl A. P. Linssen, Pieter Harpe:
Practical Measurement of Voltage-Controlled Current Source Output Impedance for Applications in Transcranial Electrical Stimulation. BioCAS 2021: 1-6 - [c75]Meiyi Zhou, Peiran Chen, Andreas M. A. O. Pollet, Sotir Ouzounov, Simona Turco, Jaap M. J. den Toonder, Massimo Mischi, Eugenio Cantatore, Pieter Harpe:
The Impact of the AFE BPF in Ultrasound Harmonic Imaging: An In-Vitro Phantom Study. BioCAS 2021: 1-4 - [c74]Yuting Shen, Hanyue Li, Haoming Xin, Eugenio Cantatore, Pieter Harpe:
A low-cost 0.98μW0.8V oversampled SAR ADC with pre-comparison and mismatch error shaping achieving 84.5dB SNDR and 103dB SFDR. CICC 2021: 1-2 - [c73]Zhong Tang, Yun Fang, Xiao-Peng Yu, Nianxiong Nick Tan, Zheng Shi, Pieter Harpe:
A 1-V Diode-Based Temperature Sensor with a Resolution FoM of 3.1pJ•K2 in 55nm CMOS. CICC 2021: 1-2 - [c72]Hanyue Li, Yuting Shen, Haoming Xin, Eugenio Cantatore, Pieter Harpe:
An 80dB-SNDR 98dB-SFDR Noise-Shaping SAR ADC with Duty-Cycled Amplifier and Digital-Predicted Mismatch Error Shaping. ESSCIRC 2021: 387-390 - [c71]Hanyue Li, Mina Youssef, Yuting Shen, Eugenio Cantatore, Pieter Harpe:
Analysis of the Sampling Noise Cancellation Technique in a Track-and-Hold Amplifier. ICECS 2021: 1-5 - [c70]Shima Sedighiani, Kamlesh Singh, Roel Jordans, Pieter Harpe:
Management of Unpredictable Harvested-Energy IoT Devices. ICECS 2021: 1-6 - [c69]Shima Sedighiani, Kamlesh Singh, Roel Jordans, Pieter Harpe, José Pineda de Gyvez:
A Low Power Fully-Digital Multi-Level Voltage Monitor Operating in a Wide Voltage Range for Energy Harvesting IoT. ISQED 2021: 13-18 - [c68]Mariska van der Struijk, Kevin Pelzers, Pieter Harpe:
A Passive Single-Ended-to-Differential-Converter with SAR ADC Achieving 6.1fJ/Conversion-Step. MWSCAS 2021: 288-291 - 2020
- [j24]Lin Xu, Chiara Rabotti, Yijing Zhang, Rik Vullings, Mohammed Meftah, Sotir Ouzounov, Pieter J. A. Harpe, Massimo Mischi:
Simulator of a Full Fetal Electrocardiogram Measurement Chain by Multichannel Capacitive Sensing. IEEE Trans. Instrum. Meas. 69(7): 4348-4357 (2020) - [c67]Marco Fattori, C. A. Mendes Da Costa, Joost A. Fijn, Enrico Genco, Pieter Harpe, Eugenio Cantatore, M. Charbonneau:
A Fully-Printed Organic Smart Temperature Sensor for Cold Chain Monitoring Applications. CICC 2020: 1-4 - [c66]Shima Sedighiani, Kamlesh Singh, Jos Huisken, Roel Jordans, Pieter Harpe, José Pineda de Gyvez:
An Electromagnetic Energy Harvester and Power Management in 28-nm FDSOI for IoT. MECO 2020: 1-5 - [c65]Haoming Xin, Kevin Pelzers, Peter G. M. Baltus, Eugenio Cantatore, Pieter Harpe:
A 4.3fJ/Conversion-Step 6440μm2 All-Dynamic Capacitance-to-Digital Converter with Energy-Efficient Charge Reuse. VLSI Circuits 2020: 1-2
2010 – 2019
- 2019
- [j23]Maoqiang Liu, Arthur H. M. van Roermund, Pieter Harpe:
A 10-b 20-MS/s SAR ADC With DAC-Compensated Discrete-Time Reference Driver. IEEE J. Solid State Circuits 54(2): 417-427 (2019) - [j22]Pieter Harpe:
A Compact 10-b SAR ADC With Unit-Length Capacitors and a Passive FIR Filter. IEEE J. Solid State Circuits 54(3): 636-645 (2019) - [j21]Haoming Xin, Martin Andraud, Peter G. M. Baltus, Eugenio Cantatore, Pieter Harpe:
A 0.1-nW-1- $\mu$ W Energy-Efficient All-Dynamic Versatile Capacitance-to-Digital Converter. IEEE J. Solid State Circuits 54(7): 1841-1851 (2019) - [j20]Ming Ding, Yao-Hong Liu, Pieter Harpe, Christian Bachmann, Kathleen Philips, Arthur H. M. van Roermund:
A Low-Power Fast Start-Up Crystal Oscillator With an Autonomous Dynamically Adjusted Load. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(4): 1382-1392 (2019) - [j19]Lin Xu, Chiara Rabotti, Yijing Zhang, Sotir Ouzounov, Pieter J. A. Harpe, Massimo Mischi:
Motion-Artifact Reduction in Capacitive Heart-Rate Measurements by Adaptive Filtering. IEEE Trans. Instrum. Meas. 68(10): 4085-4093 (2019) - [c64]Pieter Harpe:
A 0.0013mm2 10b 10MS/s SAR ADC with a 0.0048mm2 42dB-Rejection Passive FIR Filter. CICC 2019: 1-4 - [c63]Pieter Harpe, Hanyue Li, Yuting Shen:
Low-power SAR ADCs: trends, examples and future. ESSCIRC 2019: 25-28 - [c62]Gönenç Berkol, Peter G. M. Baltus, Pieter J. A. Harpe, Eugenio Cantatore:
A -81.6dBm Sensitivity Ultrasound Transceiver in 65nm CMOS for Symmetrical Data-Links. ESSCIRC 2019: 145-148 - [c61]Haoming Xin, Martin Andraud, Peter G. M. Baltus, Eugenio Cantatore, Pieter Harpe:
A 0.34-571nW All-Dynamic Versatile Sensor Interface for Temperature, Capacitance, and Resistance Sensing. ESSCIRC 2019: 161-164 - [c60]Yao-Hong Liu, Sunil Sheelavant, Marco Mercuri, Paul Mateman, Johan Dijkhuis, Agossou Wilfried Zomagboguelou, Arjan Breeschoten, Stefano Traferro, Yan Zhang, Tom Torfs, Christian Bachmann, Pieter Harpe, Masoud Babaie:
A680 μW Burst-Chirp UWB Radar Transceiver for Vital Signs and Occupancy Sensing up to 15m Distance. ISSCC 2019: 166-168 - 2018
- [j18]Jiawei Xu, Pieter Harpe, Chris Van Hoof:
An Energy-Efficient and Reconfigurable Sensor IC for Bio-Impedance Spectroscopy and ECG Recording. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(3): 616-626 (2018) - [j17]Andrea Bevilacqua, Shidhartha Das, Pieter Harpe:
Guest Editorial Special Issue on the 47th European Solid-State Circuits Conference (ESSCIRC). IEEE J. Solid State Circuits 53(7): 1876-1877 (2018) - [j16]Ming Ding, Pieter Harpe, Guibin Chen, Benjamin Busze, Yao-Hong Liu, Christian Bachmann, Kathleen Philips, Arthur H. M. van Roermund:
A Hybrid Design Automation Tool for SAR ADCs in IoT. IEEE Trans. Very Large Scale Integr. Syst. 26(12): 2853-2862 (2018) - [c59]Pieter Harpe:
A 0.0013mm2 10b 10MS/s SAR ADC with a 0.0048mm2 42dB-rejection passive FIR filter. CICC 2018: 1-4 - [c58]Ming Ding, Guibin Chen, Pieter Harpe, Benjamin Busze, Yao-Hong Liu, Christian Bachmann, Kathleen Philips, Arthur H. M. van Roermund:
A circuit-design-driven tool with a hybrid automation approach for SAR ADCs in IoT. DATE 2018: 672-675 - [c57]Haoming Xin, Martin Andraud, Peter G. M. Baltus, Eugenio Cantatore, Pieter Harpe:
A 0.1nW -1µW All-Dynamic Capacitance-to-Digital Converter with Power/Speed/Capacitance Scalability. ESSCIRC 2018: 18-21 - [c56]Jaro De Roose, Haoming Xin, Martin Andraud, Pieter J. A. Harpe, Marian Verhelst:
Flexible and Self-Adaptive Sense-and-Compress for Sub-MicroWatt Always-on Sensory Recording. ESSCIRC 2018: 282-285 - [c55]Axel Thomsen, Bernhard Wicht, Pieter Harpe, Man Kay Law, Young Cheol Chae:
F6: Advances in energy efficient analog design. ISSCC 2018: 517-519 - [c54]Lin Xu, Chiara Rabotti, Yijing Zhang, Pieter J. A. Harpe, Massimo Mischi, Mohammed Meftah, Sotir Ouzounov:
Adaptive motion-artifact reduction in capacitive ECG measurements by using the power-line interference. MeMeA 2018: 1-5 - [c53]Gönenç Berkol, Peter G. M. Baltus, Pieter J. A. Harpe, Eugenio Cantatore:
Design of a Low-power Ultrasound Transceiver for Underwater Sensor Networks. PRIME 2018: 129-132 - [c52]Komail M. H. Badami, Kushal Dakshina Murthy, Pieter Harpe, Marian Verhelst:
A 0.6V 54DB SNR Analog Frontend with 0.18% THD for Low Power Sensory Applications in 65NM CMOS. VLSI Circuits 2018: 241-242 - 2017
- [j15]Ming Ding, Pieter Harpe, Yao-Hong Liu, Benjamin Busze, Kathleen Philips, Harmke de Groot:
A 46 µW 13 b 6.4 MS/s SAR ADC With Background Mismatch and Offset Calibration. IEEE J. Solid State Circuits 52(2): 423-432 (2017) - [j14]Maoqiang Liu, Arthur H. M. van Roermund, Pieter Harpe:
A 7.1-fJ/Conversion-Step 88-dB SFDR SAR ADC With Energy-Free "Swap To Reset". IEEE J. Solid State Circuits 52(11): 2979-2990 (2017) - [c51]Martin Andraud, Gönenç Berkol, Jaro De Roose, Santosh Gannavarapu, Haoming Xin, Eugenio Cantatore, Pieter J. A. Harpe, Marian Verhelst, Peter G. M. Baltus:
Exploring the unknown through successive generations of low power and low resource versatile agents. DATE 2017: 290-293 - [c50]Maoqiang Liu, Arthur H. M. van Roermund, Pieter Harpe:
A 10b 20MS/s SAR ADC with a low-power and area-efficient DAC-compensated reference. ESSCIRC 2017: 231-234 - [c49]Maoqiang Liu, Arthur H. M. van Roermund, Pieter Harpe:
A 0.9V-VDD sub-nW resistor-less duty-cycled CMOS voltage reference in 65nm for IoT. ISCAS 2017: 1-4 - 2016
- [j13]Pieter Harpe, Hao Gao, Rainier van Dommele, Eugenio Cantatore, Arthur H. M. van Roermund:
A 0.20 mm2 3 nW Signal Acquisition IC for Miniature Sensor Nodes in 65 nm CMOS. IEEE J. Solid State Circuits 51(1): 240-248 (2016) - [j12]Maoqiang Liu, Kevin Pelzers, Rainier van Dommele, Arthur H. M. van Roermund, Pieter Harpe:
A106nW 10 b 80 kS/s SAR ADC With Duty-Cycled Reference Generation in 65 nm CMOS. IEEE J. Solid State Circuits 51(10): 2435-2445 (2016) - [c48]Maoqiang Liu, Arthur H. M. van Roermund, Pieter Harpe:
A 7.1fJ/conv.-step 88dB-SFDR 12b SAR ADC with energy-efficient swap-to-reset. ESSCIRC 2016: 409-412 - 2015
- [j11]Shuang Song, Michael Johannes Rooijakkers, Pieter Harpe, Chiara Rabotti, Massimo Mischi, Arthur H. M. van Roermund, Eugenio Cantatore:
A Low-Voltage Chopper-Stabilized Amplifier for Fetal ECG Monitoring With a 1.41 Power Efficiency Factor. IEEE Trans. Biomed. Circuits Syst. 9(2): 237-247 (2015) - [c47]Jiawei Xu, Pieter Harpe, Julia Pettine, Chris Van Hoof, Refet Firat Yazicioglu:
A low power configurable bio-impedance spectroscopy (BIS) ASIC with simultaneous ECG and respiration recording functionality. ESSCIRC 2015: 396-399 - [c46]Bindi Wang, Yao-Hong Liu, Pieter Harpe, Johan H. C. van den Heuvel, Bo Liu, Hao Gao, Robert Bogdan Staszewski:
A digital to time converter with fully digital calibration scheme for ultra-low power ADPLL in 40 nm CMOS. ISCAS 2015: 2289-2292 - [c45]Ye Xu, Pieter Harpe, Trond Ytterdal:
A 4.5fJ/conversion-step 9-bit 35MS/s configurable-gain SAR ADC in a compact area. ISCAS 2015: 2437-2440 - [c44]Ming Ding, Pieter Harpe, Yao-Hong Liu, Benjamin Busze, Kathleen Philips, Harmke de Groot:
26.2 A 5.5fJ/conv-step 6.4MS/S 13b SAR ADC utilizing a redundancy-facilitated background error-detection-and-correction scheme. ISSCC 2015: 1-3 - [c43]Pieter Harpe, Hao Gao, Rainier van Dommele, Eugenio Cantatore, Arthur H. M. van Roermund:
21.2 A 3nW signal-acquisition IC integrating an amplifier with 2.1 NEF and a 1.5fJ/conv-step ADC. ISSCC 2015: 1-3 - [c42]Yao-Hong Liu, Christian Bachmann, Xiaoyan Wang, Yan Zhang, Ao Ba, Benjamin Busze, Ming Ding, Pieter Harpe, Gert-Jan van Schaik, Georgios N. Selimis, Hans Giesen, Jordy Gloudemans, Adnane Sbai, Li Huang, Hiromu Kato, Guido Dolmans, Kathleen Philips, Harmke de Groot:
13.2 A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. ISSCC 2015: 1-3 - [c41]Maoqiang Liu, Pieter Harpe, Rainier van Dommele, Arthur H. M. van Roermund:
15.4 A 0.8V 10b 80kS/s SAR ADC with duty-cycled reference generation. ISSCC 2015: 1-3 - [c40]Shuang Song, Michael Johannes Rooijakkers, Pieter Harpe, Chiara Rabotti, Massimo Mischi, Arthur H. M. van Roermund, Eugenio Cantatore:
A low-power frontend system for fetal ECG monitoring applications. IWASI 2015: 87-91 - 2014
- [j10]Xiongchuan Huang, Pieter Harpe, Guido Dolmans, Harmke de Groot, John R. Long:
A 780-950 MHz, 64-146 µW Power-Scalable Synchronized-Switching OOK Receiver for Wireless Event-Driven Applications. IEEE J. Solid State Circuits 49(5): 1135-1147 (2014) - [j9]Long Yan, Pieter Harpe, Venkata Rajesh Pamula, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
A 680 nA ECG Acquisition IC for Leadless Pacemaker Applications. IEEE Trans. Biomed. Circuits Syst. 8(6): 779-786 (2014) - [c39]Shuang Song, Michael Johannes Rooijakkers, Pieter Harpe, Chiara Rabotti, Massimo Mischi, Arthur H. M. van Roermund, Eugenio Cantatore:
A multiple-channel frontend system with current reuse for fetal monitoring applications. ISCAS 2014: 253-256 - [c38]Gijs Meuleman, Pieter Harpe, Xiongchuan Huang, Arthur H. M. van Roermund:
A 19 µW 20 MHz All-Digital PLL for 2-tone envelope detection radios. ISCAS 2014: 321-324 - [c37]Hao Gao, Marion K. Matters-Kammerer, Pieter Harpe, Dusan M. Milosevic, Arthur H. M. van Roermund, Jean-Paul M. G. Linnartz, Peter G. M. Baltus:
A 60-GHz energy harvesting module with on-chip antenna and switch for co-integration with ULP radios in 65-nm CMOS with fully wireless mm-wave power transfer measurement. ISCAS 2014: 1640-1643 - [c36]Maja Vidojkovic, Xiongchuan Huang, Xiaoyan Wang, Cui Zhou, Ao Ba, Maarten Lont, Yao-Hong Liu, Pieter Harpe, Ming Ding, Ben Busze, Nauman F. Kiyani, Kouichi Kanda, Shoichi Masui, Kathleen Philips, Harmke de Groot:
9.7 A 0.33nJ/b IEEE802.15.6/proprietary-MICS/ISM-band transceiver with scalable data-rate from 11kb/s to 4.5Mb/s for medical applications. ISSCC 2014: 170-171 - [c35]Pieter Harpe, Eugenio Cantatore, Arthur H. M. van Roermund:
11.1 An oversampled 12/14b SAR ADC with noise reduction and linearity enhancements achieving up to 79.1dB SNDR. ISSCC 2014: 194-195 - [c34]Long Yan, Pieter Harpe, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
24.4 A 680nA fully integrated implantable ECG-acquisition IC with analog feature extraction. ISSCC 2014: 418-419 - [c33]Woogeun Rhee, Gangadhar Burra, Kazutami Arimoto, Pieter Harpe, Brian Otis, David Ruffieux:
F5: Low-power radios for sensor networks. ISSCC 2014: 518-519 - 2013
- [j8]Pieter Harpe, Eugenio Cantatore, Arthur H. M. van Roermund:
A 10b/12b 40 kS/s SAR ADC With Data-Driven Noise Reduction Achieving up to 10.1b ENOB at 2.2 fJ/Conversion-Step. IEEE J. Solid State Circuits 48(12): 3011-3018 (2013) - [c32]Shuang Song, Michael Johannes Rooijakkers, Pieter Harpe, Chiara Rabotti, Massimo Mischi, Arthur H. M. van Roermund, Eugenio Cantatore:
A 430nW 64nV/vHz current-reuse telescopic amplifier for neural recording applications. BioCAS 2013: 322-325 - [c31]Pieter Harpe, Eugenio Cantatore, Arthur H. M. van Roermund:
A 2.2/2.7fJ/conversion-step 10/12b 40kS/s SAR ADC with Data-Driven Noise Reduction. ISSCC 2013: 270-271 - [c30]Yao-Hong Liu, Xiongchuan Huang, Maja Vidojkovic, Ao Ba, Pieter Harpe, Guido Dolmans, Harmke de Groot:
A 1.9nJ/b 2.4GHz multistandard (Bluetooth Low Energy/Zigbee/IEEE802.15.6) transceiver for personal/body-area networks. ISSCC 2013: 446-447 - 2012
- [j7]Pieter Harpe, Ben Busze, Kathleen Philips, Harmke de Groot:
A 0.47-1.6 mW 5-bit 0.5-1 GS/s Time-Interleaved SAR ADC for Low-Power UWB Radios. IEEE J. Solid State Circuits 47(7): 1594-1602 (2012) - [j6]Xiongchuan Huang, Ao Ba, Pieter Harpe, Guido Dolmans, Harmke de Groot, Jeffrey Richard Long:
A 915 MHz, Ultra-Low Power 2-Tone Transceiver With Enhanced Interference Resilience. IEEE J. Solid State Circuits 47(12): 3197-3207 (2012) - [c29]Pieter Harpe, Guido Dolmans, Kathleen Philips, Harmke de Groot:
A 0.7V 7-to-10bit 0-to-2MS/s flexible SAR ADC for ultra low-power wireless sensor nodes. ESSCIRC 2012: 373-376 - [c28]Cui Zhou, Pieter Harpe, Xiaoyan Wang, Kathleen Philips, Harmke de Groot:
10ns Start-up techniques for a duty cycled Impulse Radio receiver. ESSCIRC 2012: 426-429 - [c27]Barend van Liempd, Maja Vidojkovic, Maarten Lont, Cui Zhou, Pieter Harpe, Dusan M. Milosevic, Guido Dolmans:
A 3µW fully-differential RF envelope detector for ultra-low power receivers. ISCAS 2012: 1496-1499 - [c26]Yao-Hong Liu, Xiongchuan Huang, Maja Vidojkovic, Koji Imamura, Pieter Harpe, Guido Dolmans, Harmke de Groot:
A 2.7nJ/b multi-standard 2.3/2.4GHz polar transmitter for wireless sensor networks. ISSCC 2012: 448-450 - [c25]Xiongchuan Huang, Ao Ba, Pieter Harpe, Guido Dolmans, Harmke de Groot, John R. Long:
A 915MHz 120μW-RX/900μW-TX envelope-detection transceiver with 20dB in-band interference tolerance. ISSCC 2012: 454-456 - [c24]Pieter Harpe, Yan Zhang, Guido Dolmans, Kathleen Philips, Harmke de Groot:
A 7-to-10b 0-to-4MS/s flexible SAR ADC with 6.5-to-16fJ/conversion-step. ISSCC 2012: 472-474 - [c23]Pieter Harpe, Kathleen Philips, Harmke de Groot:
Calibration of ultra low-power time-interleaved SAR ADCs. NEWCAS 2012: 361-364 - [c22]Nauman F. Kiyani, Pieter Harpe, Guido Dolmans:
Performance Analysis of OOK Modulated Signals in the Presence of ADC Quantization Noise. VTC Spring 2012: 1-5 - 2011
- [j5]Pieter Harpe, Cui Zhou, Yu Bi, N. P. van der Meijs, Xiaoyan Wang, Kathleen Philips, Guido Dolmans, Harmke de Groot:
A 26 μ W 8 bit 10 MS/s Asynchronous SAR ADC for Low Energy Radios. IEEE J. Solid State Circuits 46(7): 1585-1595 (2011) - [j4]Pieter Harpe, Cui Zhou, Kathleen Philips, Harmke de Groot:
A 0.8-mW 5-bit 250-MS/s Time-Interleaved Asynchronous Digital Slope ADC. IEEE J. Solid State Circuits 46(11): 2450-2457 (2011) - [j3]Maja Vidojkovic, Xiongchuan Huang, Pieter Harpe, Simonetta Rampu, Cui Zhou, Li Huang, Jef van de Molengraft, Koji Imamura, Ben Busze, Frank Bouwens, Mario Konijnenburg, Juan Santana, Arjan Breeschoten, Jos Huisken, Kathleen Philips, Guido Dolmans, Harmke de Groot:
A 2.4 GHz ULP OOK Single-Chip Transceiver for Healthcare Applications. IEEE Trans. Biomed. Circuits Syst. 5(6): 523-534 (2011) - [j2]Jiawei Xu, Refet Firat Yazicioglu, Bernard Grundlehner, Pieter Harpe, Kofi A. A. Makinwa, Chris Van Hoof:
A $160~\mu {\rm W}$ 8-Channel Active Electrode System for EEG Monitoring. IEEE Trans. Biomed. Circuits Syst. 5(6): 555-567 (2011) - [c21]Yu Bi, Pieter Harpe, N. P. van der Meijs:
Efficient sensitivity-based capacitance modeling for systematic and random geometric variations. ASP-DAC 2011: 61-66 - [c20]X. Wang, Kathleen Philips, C. Zhou, Ben Busze, Hans W. Pflug, Alex Young, Jac Romme, Pieter Harpe, Sumit Bagga, Stefano D'Amico, Marcello De Matteis, Andrea Baschirotto, Harmke de Groot:
A high-band IR-UWB chipset for real-time duty-cycled communication and localization systems. A-SSCC 2011: 381-384 - [c19]Pieter Harpe, Cui Zhou, Kathleen Philips, Harmke de Groot:
A 1.6mW 0.5GHz open-loop VGA with fast startup and offset calibration for UWB radios. ESSCIRC 2011: 103-106 - [c18]Pieter Harpe, Ben Busze, Kathleen Philips, Harmke de Groot:
A 0.47-1.6mW 5bit 0.5-1GS/s time-interleaved SAR ADC for low-power UWB radios. ESSCIRC 2011: 147-150 - [c17]Xiongchuan Huang, Pieter Harpe, Guido Dolmans, Harmke de Groot:
A 915MHz ultra-low power wake-up receiver with scalable performance and power consumption. ESSCIRC 2011: 543-546 - [c16]Jiawei Xu, Refet Firat Yazicioglu, Pieter Harpe, Kofi A. A. Makinwa, Chris Van Hoof:
A 160μW 8-channel active electrode system for EEG monitoring. ISSCC 2011: 300-302 - [c15]Maja Vidojkovic, Xiongchuan Huang, Pieter Harpe, Simonetta Rampu, Cui Zhou, Li Huang, Koji Imamura, Ben Busze, Frank Bouwens, Mario Konijnenburg, Juan Santana, Arjan Breeschoten, Jos Huisken, Guido Dolmans, Harmke de Groot:
A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. ISSCC 2011: 458-460 - [c14]Yan Zhang, Arjan Breeschoten, Xiongchuan Huang, Nauman F. Kiyani, Ao Ba, Pieter Harpe, Koji Imamura, Ruben de Francisco, Valer Pop, Guido Dolmans, Harmke de Groot:
Improving energy-efficiency in building automation with event-driven radio. WCSP 2011: 1-5 - 2010
- [c13]Pieter Harpe, Cui Zhou, Xiaoyan Wang, Guido Dolmans, Harmke de Groot:
A 12fJ/conversion-step 8bit 10MS/s asynchronous SAR ADC for low energy radios. ESSCIRC 2010: 214-217 - [c12]Maja Vidojkovic, Simonetta Rampu, Koji Imamura, Pieter Harpe, Guido Dolmans, Harmke de Groot:
A 500mW 5Mbps ULP super-regenerative RF front-end. ESSCIRC 2010: 462-465 - [c11]Pieter Harpe, Cui Zhou, Xiaoyan Wang, Guido Dolmans, Harmke de Groot:
A 30fJ/conversion-step 8b 0-to-10MS/s asynchronous SAR ADC in 90nm CMOS. ISSCC 2010: 388-389
2000 – 2009
- 2009
- [j1]Pieter J. A. Harpe, Johannes A. Hegt, Arthur H. M. van Roermund:
Analog calibration of channel mismatches in time-interleaved ADCs. Int. J. Circuit Theory Appl. 37(2): 301-318 (2009) - 2007
- [c10]Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
Analog calibration of channel mismatches in time-interleaved ADCs. ECCTD 2007: 236-239 - [c9]Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
Analysis of Open Loop Track-and-Hold Circuits. ICECS 2007: 1236-1239 - [c8]Georgi I. Radulov, Patrick J. Quinn, Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
Parallel current-steering D/A Converters for Flexibility and Smartness. ISCAS 2007: 1465-1468 - [c7]Pieter Harpe, Athon Zanikopoulos, Hans Hegt, Arthur H. M. van Roermund:
Analog Calibration of Mismatches in an Open-Loop Track-and-Hold Circuit for Time-Interleaved ADCs. ISCAS 2007: 1951-1954 - [c6]Athon Zanikopoulos, Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
Design of the Basic Building Block of a High-Speed Flexible and Modular Pipelined ADC. ISCAS 2007: 3876-3879 - 2006
- [c5]Athon Zanikopoulos, Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
Power Optimization for Pipelined ADCs with Open-Loop Residue Amplifiers. ICECS 2006: 132-135 - [c4]Pieter Harpe, Athon Zanikopoulos, Hans Hegt, Arthur H. M. van Roermund:
Digital post-correction of front-end track-and-hold circuits in ADCs. ISCAS 2006 - 2005
- [c3]Arthur H. M. van Roermund, Hans Hegt, Pieter Harpe, Georgi I. Radulov, Athon Zanikopoulos, Konstantinos Doris, Patrick J. Quinn:
Smart AD and DA converters. ISCAS (4) 2005: 4062-4065 - [c2]Athon Zanikopoulos, Pieter Harpe, Hans Hegt, Arthur H. M. van Roermund:
A flexible ADC approach for mixed-signal SoC platforms. ISCAS (5) 2005: 4839-4842 - [c1]Pieter Harpe, Athon Zanikopoulos, Arthur H. M. van Roermund:
Digital self-correction of time-interleaved ADCs. ISCAS (6) 2005: 5541-5544
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-23 20:35 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
