Electronic Instrumentation Laboratory
Department of Microelectronics

dr. G. Guijie Wang

Guest
Electronic Instrumentation (EI), Department of Microelectronics

Biography

Guijie Wang received MSc in Electronical Engineering from the NanKai University in 1987, and her PhD in Electronical Engineering from Delft University of Technology in 2005. The PhD project was "CMOS Bandgap References and Temperature Sensors and Their Applications". She has been working on BJT-based CMOS temperature sensor, the recent result has been successively commercialized as an important product (Smartec, SMT172). She is also busy with technical support for customers. Now she is working on BJT-based temperature sensor in 0.18μm CMOS technology.

Publications

  1. Smart Sensors and MEMS: Intelligent Sensing Devices and Microsystems for Industrial Applications. (Ch 3: Smart temperature sensors and temperature-sensor systems)
    Gerard C.M. Meijer; Guijie Wang; Ali Heidary;
    Stoyan Nihtianov; Antonio Luque (Ed.);
    Woodhead Publishing, , pp. 57--85, 2018. ISBN:978-0-08-102055-5. DOI: 10.1016/C2016-0-01622-4

  2. A BJT-based CMOS temperature sensor with a 3.6pJ·K2-resolution FoM
    A. Heidary; Guijie Wang; K.A.A. Makinwa; G.C.M. Meijer;
    In LC Fujino; {Anderson et al}, J (Ed.), Digest of Technical Papers - 2014 IEEE International Solid-State Circuits Conference,
    IEEE, pp. 224-225, 2014. Harvest Session 12. Sensors, Mems, and Displays 12.8.

  3. A CMOS Smart Temperature Sensor with duty-cycle-modulated output
    Guijie Wang; A. Heidari; G.C.M. Meijer;
    In s.n (Ed.), Proceedings of Sense of Contact 2014,
    s.n., pp. 1-2, 2014.

  4. Bandwidth requirements for Op-amp in temperature sensors with duty-cycle modulated output.
    S. Foruhi; M. Shahmohammadi; A. Heidary; G.C.M. Meijer; Guijie Wang;
    In {Ivanov et al}, R (Ed.), Proceedings XXI International Scientific Conference Electronics 2012,
    Technical University of Sofia, pp. 61-64, 2012.

  5. A temperature sensor with duty-cycle-modulated output implemented CMOS technology
    Guijie Wang; A. Heidary; G.C.M. Meijer;
    In {Ivanov et al}, R (Ed.), Proceedings XXI International Scientific Conference Electronics 2012,
    Technical University of Sofia, pp. 59-60, 2012.

  6. Investigations in the noise performance of the DEM SC Instrumentation Amplifier (U-SP-2-I-ICT)
    Guijie Wang; A. Heidary; G.C.M. Meijer;
    In s.n. (Ed.), Proceedings of the Sense of Contact VIII,
    STW, pp. 1-6, 2006.

  7. Investigation in DEM SC-instrumentation amplifier
    Guijie Wang; A. Heidary;
    Technical report, 2005.

  8. A switched-capacitor amplifier with dynamic element matching in the feedback network
    Guijie Wang; G.C.M. Meijer;
    In ET'2003; Proceedings of the Twlefth international scientific and applied science conference electronics,
    Technical University Sofia, pp. 13-18, 2003. nog niet eerder opgevoerd. ed. niet bekend.

  9. CMOS temperature sensor and bandgap reference
    Guijie Wang; G.C.M. Meijer;
    Technical report, 2003.

  10. Temperature sensors and voltage references implemented in CMOS technology
    G.C.M. Meijer; Guijie Wang; F. Fruett;
    IEEE Sensors Journal,
    Volume 1, Issue 3, pp. 225-234, 2001.

  11. The scaling of multiple sensor signals with a wide dynamic voltage range
    Guijie Wang; G.C.M. Meijer;
    In {E Obermeier} (Ed.), Transducers '01: technical papers Vol 1,
    Springer, pp. 84-87, 2001.

  12. The temperature characteristics of bipolar transistors fabricated in CMOS technology
    Guijie Wang; G.C.M. Meijer;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 87, pp. 81-89, 2000.

  13. The Piezojunction effect in NPN and PNP vertical transistors and its influence on silicon temperature sensors
    F. Fruett; Guijie Wang; G.C.M. Meijer;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 85, Issue 1-3, pp. 70-74, 2000.

  14. An accurate switched-capacitor amplifier with a rail-to-rail CM input range
    Guijie Wang; G.C.M. Meijer;
    In {JP Veen} (Ed.), SAFE-ProRISC-SeSens 2000: proceedings,
    STW Technology Foundation, pp. 703-707, 2000.

  15. Features and limitations of CMOS voltage references
    G.C.M. Meijer; Guijie Wang;
    In Proceedings, book 1,
    Technical University Sofia, pp. 17-23, 2000.

  16. Accurate DEM SC amplification of small differential voltage signal with CM level from ground to Vdd
    Guijie Wang; G.C.M. Meijer;
    In {VK Varadan} (Ed.), Proceedings of SPIE, vol. 3990,
    International Society for Optical Engineering, pp. 36-42, 2000.

  17. Features and limitations of CMOS voltage references
    G.C.M. Meijer; Guijie Wang;
    In The eight national scientific and applied conference ELECTRONICS '99: proceedings book 1,
    Technical University Sofia, pp. 17-23, 2000.

  18. Dynamic voltage references in CMOS technology
    G.C.M. Meijer; Guijie Wang;
    In ICMP 99 technical digest,
    s.n., pp. 1-8, 1999.

  19. The temperature characteristics of bipolar transistors for CMOS temperature sensors
    Guijie Wang; G.C.M. Meijer;
    In Eurosensors XIII,
    s.n., pp. 553-556, 1999.

BibTeX support

Last updated: 11 Aug 2017

G. Guijie Wang

MSc students