dr.ir. M. Stoopman

1. Introduction to RF Energy Harvesting, in: WEARABLE SENSORS: Fundamentals, Implementation and Applications, Second Edition
   Gustavo C. Martins; Andre L. Mansano; Mark Stoopman; Wouter A. Serdijn;
   Edward Sazonov (Ed.);
   Academic Press (Elsevier), Chapter 11, , pp. 311-336, Nov. 20 2020. ISBN : 978-0-12-819246-7.
   document

2. An RF-Powered DLL-Based 2.4-GHz Transmitter for Autonomous Wireless Sensor Nodes
   Mark Stoopman; Kathleen Philips; Wouter A. Serdijn;
   IEEE Transactions on Microwave Theory and Techniques,
   2017. Date of Publication: 02 February 2017, DOI: 10.1109/TMTT.2017.2651817.
   document

3. Circuit Design for Highly Sensitive RF-Powered Wireless Sensor Nodes
   Mark Stoopman;
   PhD thesis, Delft University of Technology, Sept. 9 2016.
   document

4. A 2.4 GHz Power Amplifier With 40% Global Efficiency at 5 dBm Output for Autonomous Wireless Sensor Nodes
   Mark Stoopman; Kathleen Philips; Wouter A. Serdijn;
   IEEE Microwave and Wireless Components Letters,
   2015. DOI 10.1109/LMWC.2015.2400940.
   document

5. Co-Design of Electrically-Short Antenna-Electronics Interfaces in the Receiving Mode
   Mark Stoopman; Yao Liu; Hubregt J. Visser; Kathleen Philips; Wouter A. Serdijn;
   IEEE Transactions on Circuits and Systems II: Express Briefs,
   2015. DOI 10.1109/TCSII.2015.2406371.
   document

6. Co-Design of a CMOS Rectifier and Small Loop Antenna for Highly Sensitive RF Energy Harvesters
   Mark Stoopman; Shady Keyrouz; Hubregt J. Visser; Kathleen Philips; Wouter A. Serdijn;
   IEEE Journal of Solid-State Circuits,
   Volume 49, Issue 3, pp. 622-634, March 2014. Digital Object Identifier: 10.1109/JSSC.2014.2302793.
   document

7. Introduction to RF Energy Harvesting
   W.A. Serdijn; A.L.R. Mansano; M. Stoopman;
   In WEARABLE SENSORS: Fundamentals, Implementation and Applications,
   Academic Press (Elsevier), Aug. 2014. ISBN : 978-0-12-418662-0.
   document

8. Equivalent Thevenin and Norton Kirchhoff circuits of a receiving antenna
   De Hoop, A.; Stoopman, M.; Serdijn, W.; Lager, I.;
   IEEE Antennas and Wireless Propagation Letters,
   Volume 12, pp. 1627-1629, 2013. Digital Object Identifier: 10.1109/LAWP.2013.2293351.
   document

9. Co-design of a 90 nm CMOS rectifier and small loop antenna for large range RF energy harvesters
   Stoopman, M.; Keyrouz, S.; Visser, H.J.; Philips, K.; Serdijn, W.A;
   In Meeting Abstract: Progress In Electromagnetics Research Symposium (PIERS 2013),
   Stockholm, Sweden, Aug. 12-15 2013.

10. A Self-Calibrating RF Energy Harvester generating 1V at -26.3 dBm
    M. Stoopman; S. Keyrouz; H.J. Visser; K. Philips; W.A. Serdijn;
    In Proc. 2013 Symposium on VLSI Circuits,
    Kyoto, Japan, IEEE, pp. C226-C227, June 11-14 2013.
    document

11. A Robust and Large Range Optimally Mismatched RF Energy Harvester with Resonance Control Loop
    Mark Stoopman; Wouter A. Serdijn; Kathleen Philips;
    In Proc. International Symposium on Circuits and Systems (ISCAS),
    Seoul, South Korea, IEEE, pp. 476-479, May 20-23 2012.
    document

12. Co-design of a CMOS Rectifier and RFID Antenna for Highly Sensitive RF Energy Harvesting Systems
    Mark Stoopman;
    In Book of Abstracts, ICT.Open,
    Rotterdam, the Netherlands, Oct. 22-23 2012.

13. A Sub-GHz UWB Pulse Generator for Wireless Implantable Medical Devices
    Mark Stoopman; Wouter Serdijn;
    In Proc. Biomedical Circuits and Systems Conference (BioCAS),
    San Diego, CA, USA, IEEE, Nov. 10-12 2011.
    document

14. Sub-GHz UWB Biomedical Communication
    Mark Stoopman; Wouter A. Serdijn;
    In Proc. Biomedical Circuits and Systems Symposium (BioCAS),
    Paphos, Cyprus, IEEE, Nov. 3-5 2010.
    document

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