Selected publications

  1. A 7μW Offset-and Temperature-Compensated pH-to-Digital Converter
    S. H. Shalmany; M. Merz; A. Fekri; Z. Y. Chang; R. J. O. M. Hoofman; M. A. P. Pertijs;
    Journal of Sensors,
    2017. in press.

  2. A Front-end ASIC with Receive Sub-Array Beamforming Integrated with a 32 × 32 PZT Matrix Transducer for 3-D Transesophageal Echocardiography
    C. Chen; Z. Chen; D. Bera; S. B. Raghunathan; M. Shabanimotlagh; E. Noothout; Z. Y. Chang; J. Ponte; C. Prins; H. J. Vos; J.G. Bosch; M. D. Verweij; N. de Jong; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume PP, Issue 99, pp. 1‒13, 2017. in press.

  3. Acoustic Characterization of a 32 × 32 Element PZT-on-ASIC Matrix Transducer for 3D Transesophageal Echocardiography
    M. Shabanimotlagh; S. Raghunathan; D. Bera; Z. Chen; C. Chen; V. Daeichin; M. Pertijs; J.G. Bosch; N. de Jong; M. Verweij;
    In Dutch Bio-Medical Engineering Conference,
    The Netherlands, 2017. (accepted).

  4. A Compact Sensor Readout Circuit with Combined Temperature, Capacitance and Voltage Sensing Functionality
    B. Yousefzadeh; W. Wu; B. Buter; K.A.A. Makinwa; M. Pertijs;
    In IEEE Symposium on VLSI Circuits (VLSI),
    pp. C78-C79, June 2017. DOI: 10.23919/VLSIC.2017.8008555.
    Abstract: ...
    This paper presents an area- and energy-efficient sensor readout circuit, which can precisely digitize temperature, capacitance and voltage. The three modes use only on-chip references and employ a shared zoom ADC based on SAR and ΔΣ conversion to save die area. Measurements on 24 samples from a single wafer show a temperature inaccuracy of ±0.2 °C (3σ) over the military temperature range (-55°C to 125°C). The voltage sensing shows an inaccuracy of ±0.5%. The sensor also offers 18.7-ENOB capacitance-to-digital conversion, which handles up to 3.8 pF capacitance with a 0.76 pJ/conv.-step energy-efficiency FoM. It occupies 0.33 mm in a 0.16 μm CMOS process and draws 4.6 μA current from a 1.8 V supply.

  5. A Prototype PZT Matrix Transducer with Low-Power Integrated Receive ASIC for 3D Transesophageal Echocardiography.
    C. Chen; S. Raghunathan; Z. Yu; M. Shabanimotlag; Z. Chen; Z. Y. Chang; S. Blaak; C. Prins; J. Ponte; E. Noothout; H. J. Vos; J. G. Bosch; M. D. Verweij; N. de Jong; M. A. P. Pertijs;
    IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control,
    Volume 63, Issue 1, pp. 47‒59, January 2016.

  6. A 30-ppm <80 nJ Ring-Down-Based Readout Circuit for Resonant Sensors
    H. Jiang; Z. Y. Chang; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume 51, Issue 1, pp. 187‒195, January 2016.

  7. A Broadband Polyvinylidene Difluoride-Based Hydrophone with Integrated Readout Circuit for Intravascular Photoacoustic Imaging
    V. Daeichin; C. Chen; Q. Ding; M. Wu; R. Beurskens; G. Springeling; E. Noothout; M. D. Verweij; K. W. A. van Dongen; J. G. Bosch; A. F. W van der Steen; N. de Jong; M. Pertijs; G. van Soest;
    Ultrasound in Medicine \& Biology,
    Volume 42, Issue 5, pp. 1239‒1243, May 2016.

  8. A Ratiometric Readout Circuit for Thermal-Conductivity-Based Resistive CO2 Sensors
    Z. Cai; R. H. M. van Veldhoven; A. Falepin; H. Suy; E. Sterckx; C. Bitterlich; K. A. A. Makinwa; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume 51, Issue 10, pp. 2453‒2474, October 2016.

  9. A front-end ASIC with receive sub-array beamforming integrated with a 32 × 32 PZT matrix transducer for 3-D transesophageal echocardiography
    C. Chen; Z. Chen; D. Bera; S. B. Raghunathan; M. Shabanimotlagh; E. Noothout; Z. Y. Chang; J. Ponte; C. Prins; H. J. Vos; J.G. Bosch; M. D. Verweij; N. de Jong; M. A. P. Pertijs;
    In Dig. Techn. Paper IEEE Symposium on VLSI Circuits (VLSI),
    IEEE, pp. 1‒2, September 2016.

  10. A broadband PVDF-based hydrophone with integrated readout circuit for intravascular photoacoustic imaging
    V. Daeichin; C. Chen; Q. Ding; M. Wu; R. Beurskens; G. Springeling; E. Noothout; M. D. Verweij; K. W.A. van Dongen; J. G. Bosch; A. F. W van der Steen; N. de Jong; M. Pertijs; G. van Soest;
    In Proc. SPIE Photonics West,
    SPIE, February 2016.

  11. An Integrated Carbon Dioxide Sensor for Air-Quality Monitoring
    Z. Cai; R. H. M. van Veldhoven; A. Falepin; H. Suy; E. Sterckx; C. Bitterlich; K. A. A. Makinwa; M. A. P. Pertijs;
    In Proc. Conference for ICT-Research in the Netherlands (ICT.OPEN),
    The Netherlands, March 2016.

  12. Acoustic Characterisation of a 32 × 32 Element PZT-on-CMOS Matrix Transducer for 3D TEE
    S. Raghunathan; D. Bera; C. Chen; Z. Chen; M. Shabanimotlagh; E. Noothout; Z.Y. Chang; H. Vos; C. Prins; J. Ponte; J. Bosch; M. Pertijs; N. de Jong; M. Verweij;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    September 2016.

  13. Three-dimensional beamforming combining micro-beamformed RF datasets
    D. Bera; H. J. Vos; S. B. Raghunathan; C. Chen; Z. Chen; M. D. Verweij; M. A. P. Pertijs; N. de Jong; J. G. Bosch;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 1‒4, September 2016.

  14. A 40-nm CMOS permittivity sensor for chemical/biological material characterization at RF/microwave frequencies
    G. Vlachogiannakis; M. Spirito; M. A. P. Pertijs; L. C. N. de Vreede;
    In Proc. IEEE MTT-S International Microwave Symposium (IMS),
    IEEE, pp. 1‒4, May 2016.

  15. The role of sub-dicing in the acoustical design of an ultrasound matrix transducer for carotid arteries imaging
    M. Shabanimotlagh; J. Janjic; S. Raghunathan; M. A. P. Pertijs; N. de Jong; M. Verweij;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 1‒4, September 2016.

  16. RATIOMETRIC DEVICE
    Z. Cai; M. A. P. Pertijs; R. H. M. van Veldhoven; K. A. A. Makinwa;
    Patent, 2016/0109396, April 21 2016.

  17. An integrated carbon dioxide sensor based on ratiometric thermal-conductivity measurement
    Z. Cai; van R. H. M. Veldhoven; A. Falepin; H. Suy; E. Sterckx; K. A. A. Makinwa; M. A. P. Pertijs;
    In Proc. International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS),
    IEEE, pp. 622‒625, June 2015.

  18. A 0.05mm² 1V capacitance-to-digital converter based on period modulation
    Y. He; Z. Y. Chang; L. Pakula; S. H. Shalmany; M. Pertijs;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 486‒487, February 2015.

  19. A generic read-out circuit for resistive transducers
    B. Yousefzadeh; U. Sonmez; N. Mehta; J. Borremans; M. A. P. Pertijs; K. A. A. Makinwa;
    In Proc. IEEE International Workshop on Advances in Sensors and Interfaces (IWASI),
    IEEE, pp. 122‒125, June 2015.

  20. Low-power receive electronics for a miniature real-time 3D ultrasound probe
    M. Pertijs; C. Chen; S. Raghunathan; Z. Yu; M. ShabaniMotlagh; Z. Chen; Z. Y. Chang; E. Noothout; S. Blaak; J. Ponte; C. Prins; H. Bosch; M. Verweij; N. de Jong;
    In Proc. IEEE International Workshop on Advances in Sensors and Interfaces (IWASI),
    IEEE, pp. 235‒238, June 2015. (invited paper).

  21. A ratiometric readout circuit for thermal-conductivity-based resistive gas sensors
    Z. Cai; R. H. M. van Veldhoven; A. Falepin; H. Suy; E. Sterckx; K. A. A. Makinwa; M. A. P. Pertijs;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 275‒278, September 2015.

  22. A compact 0.135-mW/channel LNA array for piezoelectric ultrasound transducers
    C. Chen; Z. Chen; Z. Y. Chang; M. A. P. Pertijs;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 404‒407, September 2015.

  23. A single-cable PVDF transducer readout IC for intravascular photoacoustic imaging
    C. Chen; V. Daeichin; Q. Ding; G. van Soest; G. Springeling; T. van der Steen; M. Pertijs; N. de Jong;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 1‒4, October 2015.

  24. Acoustic Characterisation of a PZT Matrix With Integrated Electronics for a 3D-TEE Probe
    S. Raghunathan; C. Chen; M. Shabanimotlagh; Z. Chen; S. Blaak; Z. Yu; C. Prins; M. Pertijs; J. Bosch; N. de Jong; M. Verweij;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    October 2015.

  25. A 30ppm <80nJ ring-down-based readout circuit for resonant sensors
    H. Jiang; Z. Y. Chang; M. Pertijs;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 482‒483, February 2015.

  26. A mixed-signal multiplexing system for cable-count reduction in ultrasound probes
    Q. Liu; C. Chen; Z. Y. Chang; C. Prins; M. A. P. Pertijs;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 1‒4, October 2015.

  27. Low Power Receive Electronics for a Miniature Real-Time 3D Ultrasound Probe
    Z. Chen; C. Chen; S. B. Raghunathan; D. Bera; Z. Chang; S. Blaak; C. Prins; J. Ponte; J. G. Bosch; N. de Jong; M. D. Verweij; M. A. P. Pertijs;
    In Proc. Conference for ICT-Research in the Netherlands (ICT.OPEN),
    The Netherlands, March 2015.

  28. Temperature sensor for a leadless cardiac pacemaker
    M. A. P. Pertijs; K. J. Carroll;
    Patent, United States 9,060,692, June~23 2015.

  29. Highlights of the ISSCC 2013 Processors and High Performance Digital Sessions
    T. Fischer; B. G. Nam; L. Chang; T. Kuroda; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume 49, Issue 1, pp. 4‒8, 2014.

  30. Smart sensor systems: Emerging technologies and applications
    G. Meijer; K. Makinwa; M. Pertijs;
    John Wiley \& Sons, , May 2014.

  31. Smart Sensor Systems: Emerging Technologies and Applications
    G. Meijer; X. Li; B. Iliev; G. Pop; Z.Y. Chang; S. Nihtianov; Z. Tan; A. Heidari; M. Pertijs;
    John Wiley & Sons, Chapter Dedicated Imped, , pp. 68-100, May 2014.

  32. Calibration and Self-Calibration of Smart Sensors
    M. Pertijs;
    In Smart Sensor Systems: Emerging Technologies and Applications,
    John Wiley \& Sons, May 2014.

  33. Design of a Miniature Ultrasound Probe for 3D Transesophageal Echocardiography
    D. Bera; S. B. Raghunathan; C. Chen; S. Blaak; C. Prins; M. A. P. Pertijs; M. D. Verweij; J. G. Bosch; N. de Jong;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, April 2014.

  34. In-air ultrasonic gesture sensing with MEMS microphones
    D. M. van Willigen; E. Mostert; M. A. P. Pertijs;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 90‒93, October 2014.

  35. An eddy-current displacement-to-digital converter based on a ratio-metric delta-sigma ADC
    A. Fekri; M. Nabavi; N. Radeljic-Jakic; Z.Y. Chang; M. Pertijs; S. Nihtianov;
    In Proc. of the European Solid-State Circuits Conference,
    IEEE, pp. 403‒406, September 2014.

  36. Design of a miniature ultrasound probe for 3D transesophageal echocardiography
    S. B. Raghunathan; D. Bera; C. Chen; S. Blaak; C. Prins; M. A. P. Pertijs; J. G. Bosch; N. de Jong; M. D. Verweij;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 2091‒2094, September 2014.

  37. Capacitive sensor interface with precision references
    R. Yang; M.A.P. Pertijs; S. Nihtianov; P. Haak;
    In Proc. of the IEEE International Conference on Industrial Technology,
    IEEE, pp. 358‒390, March 2014.

  38. An energy-efficient reconfigurable readout circuit for resonant sensors based on ring-down measurement
    Y. Yan; Z. Zeng; C. Chen; H. Jiang; Z. Y. Chang; D. M. Karabacak; M. A. P. Pertijs;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 221‒224, October 2014.

  39. An interface for eddy-current displacement sensors with 15-bit resolution and 20 MHz excitation
    M.R. Nabavi; M.A.P. Pertijs; S. Nihtianov;
    IEEE Journal of Solid-State Circuits,
    Volume 48, Issue 11, pp. 2868-2881, November 2013.

  40. An energy-efficient readout circuit for resonant sensors based on ring-down measurement
    Z. Zeng; M. A. P. Pertijs; D. M. Karabacak;
    Review of Scientific Instruments,
    Volume 84, Issue 2, pp. 025005, February 2013.

  41. A Low-Power CMOS Smart Temperature Sensor with a Batch-Calibrated Inaccuracy of ±0.25°C (±3σ) from -70°C to 130°C
    A. Aita; M. Pertijs; K. Makinwa; J. Huijsing; G. Meijer;
    IEEE Sensors Journal,
    Volume 13, Issue 5, pp. 1840‒1848, May 2013.

  42. A 1.2-V 8.3-nJ CMOS humidity sensor for RFID applications
    Z. Tan; R. Daamen; A. Humbert; Y. V. Ponomarev; Y. Chae; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume 48, Issue 10, pp. 2469‒2477, October 2013.

  43. Ultra-low Energy CMOS Humidity Sensors for RFID Applications
    Z. Tan; R. Daamen; A. Humbert; Y. V. Ponomarev; Y. Chae; G. C. M. Meijer; M. A. P. Pertijs;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, April 2013. (Best Poster Award).

  44. A 1V 14b self-timed zero-crossing-based incremental ΔΣ ADC
    C. Chen; Z. Tan; M. A. P. Pertijs;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 274‒275, February 2013.

  45. A low-power CMOS integrated sensor for CO2 detection in the percentage range
    A. Humbert; B. J. Tuerlings; R. J. O. M. Hoofman; Z. Tan; D. Gravesteijn; M. A. P. Pertijs; C. W. M. Bastiaansen; D. Soccol;
    In Proc. International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS),
    IEEE, pp. 1649‒1652, June 2013.

  46. A 7μW pH-to-digital converter for quality monitoring of perishable products
    S. H. Shalmany; M. Merz; A. Fekri; Z. Chang; R. Hoofman; M. A. P. Pertijs;
    In Proc. International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS),
    IEEE, pp. 1747‒1750, June 2013.

  47. Front-end receiver electronics for a matrix transducer for 3-D transesophageal echocardiography
    Z. Yu; S. Blaak; Z. Y. Chang; J. Yao; J. G. Bosch; C. Prins; C. T. Lancee; N. de Jong; M. A. P. Pertijs; G. C. M. Meijer;
    IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control,
    Volume 59, Issue 7, pp. 1500‒1512, July 2012.

  48. An energy-efficient 15-bit capacitive-sensor interface based on period modulation
    Z. Tan; S. H. Shalmany; G. C. M. Meijer; M. A. P. Pertijs;
    IEEE Journal of Solid-State Circuits,
    Volume 47, Issue 7, pp. 1703‒1711, July 2012.

  49. Energy-Efficient Capacitive Sensor Interfaces
    M. A. P. Pertijs; Z. Tan;
    In Nyquist AD Converters, Sensor Interfaces, and Robustness,
    Springer Science \& Business Media, October 2012.

  50. An energy-efficient interface for resonant sensors based on ring-down measurement
    M. A. P. Pertijs; Z. Zeng; D. M. Karabacak; M. Crego-Calama; S. H. Brongersma;
    In Proc. IEEE International Symposium on Circuits and Systems (ISCAS),
    IEEE, pp. 990‒993, May 2012. (invited paper).

  51. Energy-Efficient Capacitive Sensor Interfaces
    M. A. P. Pertijs; Z. Tan;
    In Proc. Workshop on Advances in Analog Circuit Design (AACD),
    March 2012. (invited paper).

  52. A 1.2 V 8.3 nJ energy-efficient CMOS humidity sensor for RFID applications
    Z. Tan; Y. Chae; R. Daamen; A. Humbert; Y. V. Ponomarev; M. A. P. Pertijs;
    In Dig. Techn. Paper IEEE Symposium on VLSI Circuits (VLSI),
    IEEE, pp. 24‒25, June 2012.

  53. A 9-channel low-power receiver ASIC for 3D transesophageal echocardiography
    Z. Yu; S. Blaak; C. Prins; Z. Chang; C. T. Lancée, CT; J. G. Bosch; N. de Jong; G. C. M. Meijer; M. A. P. Pertijs;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 2063‒2066, October 2012.

  54. Oven Controlled MEMS Oscillator Device
    S. Donnay; X. Rottenberg; J. Borremans; H. Tilmans; G. van der Plas; M. Pertijs;
    Patent, United States 13/150,499, December~6 2012.

  55. Oven controlled MEMS oscillator
    S. Donnay; X. Rottenberg; J. Borremans; H. Tilmans; G. van der Plas; M. Pertijs;
    Patent, European 2,530,836, December~5 2012.

  56. Ultrasound beamformer using pipeline-operated S/H delay stages and charge-mode summation
    Z. Yu; M. A. P. Pertijs; G. C. M. Meijer;
    Electronics Letters,
    Volume 47, Issue 18, pp. 1011‒1012, September 2011.

  57. A single-temperature trimming technique for MOS-input operational amplifiers achieving 0.33 μV/°C offset drift
    M. Bolatkale; M. A. P. Pertijs; Kindt, Wilko J; J. H. Huijsing; K. A. A. Makinwa;
    IEEE Journal of Solid-State Circuits,
    Volume 46, Issue 9, pp. 2099‒2107, September 2011.

  58. An energy-efficient 15-bit capacitive sensor interface
    Z. Tan; M. A. P. Pertijs; G. Meijer;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 283‒286, September 2011.

  59. A ratio-metric analog to digital converter for an eddy current displacement sensor
    A. Fekri; M. R. Nabavi; M. Pertijs; S. Nihtianov;
    In Proc. of the International Scientific Conference on Electronics,
    Sozopol, Bulgaria, September 2011.

  60. Light-emitting diode junction-temperature sensing using differential voltage/current measurements
    F. D. Roscam-Abbing; M. A. P. Pertijs;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 861‒864, October 2011.

  61. A ping-pong-pang current-feedback instrumentation amplifier with 0.04% gain error
    S. Sakunia; F. Witte; M. Pertijs; K. Makinwa;
    In Dig. Techn. Paper IEEE Symposium on VLSI Circuits (VLSI),
    IEEE, pp. 60‒61, June 2011.

  62. A 1.8V 11μW CMOS smart humidity sensor for RFID sensing applications
    Z. Tan; R. Daamen; A. Humbert; K. Souri; Y. Chae; Y. V. Ponomarev; M. A. P. Pertijs;
    In Proc. IEEE Asian Solid State Circuits Conference (A-SSCC),
    IEEE, pp. 105‒108, November 2011.

  63. Ovenized System Containing Micro-Electromechanical Resonator
    J. Borremans; M. A. P. Pertijs;
    Patent, United States 13/300,950, November~21 2011.

  64. 12-bit accurate voltage-sensing ADC with curvature-corrected dynamic reference
    N. Saputra; M. A. P. Pertijs; K. A. A. Makinwa; J. H. Huijsing;
    Electronics Letters,
    Volume 46, Issue 6, pp. 397‒398, March 2010.

  65. A 140 dB-CMRR current-feedback instrumentation amplifier employing ping-pong auto-zeroing and chopping
    M. A. P. Pertijs; W. J. Kindt;
    IEEE Journal of Solid-State Circuits,
    Volume 45, Issue 10, pp. 2044‒2056, October 2010.

  66. A Thermal-Diffusivity-Based Frequency Reference in Standard CMOS With an Absolute Inaccuracy of ±0.1\% From -55°C to 125°C
    S. M. Kashmiri; M. A. P. Pertijs; K. A. A. Makinwa;
    IEEE Journal of Solid-State Circuits,
    Volume 45, Issue 12, pp. 2510‒2520, December 2010.

  67. Low-cost calibration techniques for smart temperature sensors
    M. A. P. Pertijs; A. L. Aita; K. A. A. Makinwa; J. H. Huijsing;
    IEEE Sensors Journal,
    Volume 10, Issue 6, pp. 1098‒1105, June 2010.

  68. Design of a low power time-gain-compensation amplifier for a 2D piezoelectric ultrasound transducer
    J. Yao; Z. Yu; M. A. P. Pertijs; G. C. M. Meijer; C. T. Lancee; J. G. Bosch; N. de Jong;
    In Proc. IEEE International Ultrasonics Symposium (IUS),
    IEEE, pp. 841‒844, October 2010.

  69. An interface for eddy current displacement sensors with 15-bit resolution and 20 MHz excitation
    M. R. Nabavi; M. A. P. Pertijs; S. Nihtianov;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 290‒293, September 2010.

  70. Design of a Beamformer for an Ultrasonic Matrix Transducer for 3D Transesophageal Echocardiography
    Z. Yu; S. Blaak; G. C. M. Meijer; M. A. P. Pertijs; C. T. Lancée, CT; J. G. Bosch; C. Prins; N. de Jong;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, April 2010. (Best Poster Award).

  71. Energy-efficient capacitive sensor interface with high dynamic range
    Z. Tan; M. A. P. Pertijs; G. C. M. Meijer;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, April 2010.

  72. A Thermal-diffusivity-based Frequency Reference in Standard CMOS with an Absolute Inaccuracy of ±0.1\% from -55°C to 125°C
    M. Kashmiri; M. Pertijs; K. Makinwa;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 74‒75, February 2010.

  73. A programmable analog delay line for Micro-beamforming in a transesophageal ultrasound probe
    Z. Yu; M. A. P. Pertijs; G. C. M. Meijer;
    In Proc. IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT),
    IEEE, pp. 299‒301, November 2010.

  74. Chopped auto-zeroed ping-pong amplifier and related apparatus, system, and method
    M. A. P. Pertijs;
    Patent, United States 7,834,685, November~16 2010.

  75. Current sense amplifier with extended common mode voltage range
    W. J. Kindt; M. A. P. Pertijs;
    Patent, United States 7,671,677, March~2 2010.

  76. Digital temperature sensors and calibration thereof
    M. Pertijs; J. Huijsing;
    Patent, United States 7,674,035, March~9 2010.

  77. Digitale temperatursensoren und kalibrierung dafür
    M. A. P. Pertijs; J. H. Huijsing;
    Patent, German 602,005,020,159, May~6 2010.

  78. Autozeroing current feedback instrumentation amplifier
    M. Pertijs; G. Reitsma;
    Patent, United States 7,719,351, May~18 2010.

  79. Integrated circuit with pin-selectable mode of operation and level-shift functionality and related apparatus, system, and method
    M. A. P. Pertijs;
    Patent, United States 7,714,612, May~11 2010.

  80. Bias-steuerung
    M. A. P. Pertijs; J. H. Huijsing;
    Patent, German 602,005,018,235, January~21 2010.

  81. A 140dB-CMRR current-feedback instrumentation amplifier employing ping-pong auto-zeroing and chopping
    M. A. P. Pertijs; W. J. Kindt;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 324‒325, February 2009.

  82. A CMOS smart temperature sensor with a batch-calibrated inaccuracy of ±0.25°C (3σ) from -70°C to 130°C
    A. L. Aita; M. Pertijs; K. Makinwa; J. H. Huijsing;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 342‒343, February 2009.

  83. A 140dB-CMRR current-feedback instrumentation amplifier employing ping-pong auto-zeroing and chopping
    M. A. P. Pertijs; W. J. Kindt;
    In Highlights of ISSCC 2009,
    Eindhoven, The Netherlands, March 2009.

  84. Autozeroing current feedback instrumentation amplifier
    M. Pertijs; G. Reitsma;
    Patent, United States 7,573,327, August~11 2009.

  85. Strom-Rückkopplungs-Instrumentenverstärker mit selbsttätiger Nullpunkt-Einstellung
    M. Pertijs; G. Reitsma;
    Patent, German 102,008,023,384, January~29 2009.

  86. Voltage calibration of smart temperature sensors
    M. A. P. Pertijs; A. L. Aita; K. A. A. Makinwa; J. H. Huijsing;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 756‒759, October 2008.

  87. A BiCMOS Operational Amplifier Achieving 0.33μV/°C Offset Drift using Room-Temperature Trimming
    M. Bolatkale; M. A. P. Pertijs; W. J. Kindt; J. H. Huijsing; K. A. A. Makinwa;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 76‒77, February 2008.

  88. Sigma delta ADC with a dynamic reference for accurate temperature and voltage sensing
    N. Saputra; M. A. P. Pertijs; K. A. A. Makinwa; J. H. Huijsing;
    In Proc. IEEE International Symposium on Circuits and Systems (ISCAS),
    IEEE, pp. 1208‒1211, May 2008.

  89. Bias circuits
    M. Pertijs; J. Huijsing;
    Patent, United States 7,446,598, November~4 2008.

  90. Bitstream controlled reference signal generation for a sigma-delta modulator
    M. A. P. Pertijs; K. A. A. Makinwa; J. H. Huijsing;
    Patent, United States 7,391,351, June~24 2008.

  91. Smart sensor design: the art of compensation and cancellation
    K. A. A. Makinwa; M. A. P. Pertijs; J. C. van der Meer; J. H. Huijsing;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 76‒82, September 2007.

  92. Precision temperature sensors in CMOS technology
    M. A. P. Pertijs; J. H. Huijsing;
    Springer Science \& Business Media, , 2006.

  93. Sigma Delta ADC with Accurate Dynamic Reference for Temperature Sensing and Voltage Monitoring
    N. Saputra; M. A. P. Pertijs; K. A. A. Makinwa; J. H. Huijsing;
    In Annual Workshop on Circuits, Systems and Signal Processing (ProRISC),
    The Netherlands, pp. 80‒84, November 2006.

  94. A CMOS smart temperature sensor with a 3σ inaccuracy of ±0.1°C from -55°C to 125°C
    M. A. P. Pertijs; K. A. A. Makinwa; J. H. Huijsing;
    IEEE Journal of Solid-State Circuits,
    Volume 40, Issue 12, pp. 2805‒2815, December 2005. (JSSC Best Paper Award).

  95. A CMOS smart temperature sensor with a 3σ inaccuracy of ±0.5°C from -50°C to 120°C
    M. A. P. Pertijs; A. Niederkorn; X. Ma; B. McKillop; A. Bakker; J. H. Huijsing;
    IEEE Journal of Solid-State Circuits,
    Volume 40, Issue 2, pp. 454‒461, February 2005.

  96. Precision interface electronics for a CMOS smart temperature sensor
    M. A. P. Pertijs; J. H. Huijsing;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 4‒pp, October 2005. (invited paper).

  97. A CMOS temperature sensor with a 3σ inaccuracy of ±0.1°C from -55°C to 125°C
    M. Pertijs; K. Makinwa; J. Huijsing;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 238‒596, February 2005. ({ISSCC} 2005 {Jack} {Kilby} Award for Outstanding Student Paper).

  98. Precision temperature measurement using CMOS substrate PNP transistors
    M. A. P. Pertijs; G. C. M. Meijer; J. H. Huijsing;
    IEEE Sensors Journal,
    Volume 4, Issue 3, pp. 294‒300, June 2004.

  99. A sigma-delta modulator with bitstream-controlled dynamic element matching
    M. A. P. Pertijs; J. H. Huijsing;
    In Proc. European Solid-State Circuits Conference (ESSCIRC),
    IEEE, pp. 187‒190, September 2004.

  100. Low-cost calibration techniques for smart temperature sensors
    M. A. P. Pertijs; J. H. Huijsing;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, pp. 17, March 2004.

  101. A second-order sigma-delta ADC using MOS capacitors for smart sensor applications
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 421‒424, October 2004.

  102. Bitstream trimming of a smart temperature sensor
    M. A. P. Pertijs; J. H. Huijsing;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 904‒907, October 2004.

  103. A CMOS Semi-Custom Chip for Mixed Signal Designs
    A. J. van Genderen; S. D. Cotofana; G. de Graaf; A. Kaichouhi; J. Liedorp; R. Nouta; M. A. P. Pertijs; C. J. M. Verhoeven;
    In Annual Workshop on Circuits, Systems and Signal Processing (ProRISC),
    The Netherlands, pp. 491‒496, November 2004.

  104. A CMOS temperature sensor with a 3σ inaccuracy of ±0.5°C from -50°C to 120°C
    M. Pertijs; A. Niederkorn; X. Ma; B. McKillop; A. Bakker; J. Huijsing;
    In Dig. Techn. Papers IEEE International Solid-State Circuits Conference (ISSCC),
    IEEE, pp. 200‒201, February 2003.

  105. A high-accuracy CMOS smart temperature sensor with fast calibration procedure
    M. A. P. Pertijs; A. Niederkorn; X. Ma; B. McKillop; A. Bakker; J. Huijsing;
    In Annual Sensor Technology Workshop Sense of Contact,
    The Netherlands, pp. 37, March 2003.

  106. Non-idealities of temperature sensors using substrate PNP transistors
    M. A. P. Pertijs; G. C. M. Meijer; J. H. Huijsing;
    In Proc. IEEE Sensors Conference,
    IEEE, pp. 1018‒1023, June 2002.

  107. Calibration of Smart Temperature Sensors Using an On-Chip Transistor as Reference Thermometer
    M. A. P. Pertijs; J. H. Huijsing;
    In Annual Workshop on Semiconductor Sensors (SeSens),
    The Netherlands, pp. 657-661, November 2002.

  108. Transistor temperature measurement for calibration of integrated temperature sensors
    M. A. P. Pertijs; J. H. Huijsing;
    In Proc. IEEE Instrumentation and Measurement Technology Conference (IMTC),
    IEEE, pp. 755‒758, May 2002.

  109. Calibration and self-calibration of smart sensors
    M. A. P. Pertijs;
    In Proc. NMI Workshop Internet Measurement and Self-Calibration,
    The Netherlands, May 2002.

  110. Non-linear signal correction
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    Patent, United States 6,456,145, September~24 2002.

  111. An Accurate CMOS Smart Temperature Sensor with Dynamic Element Matching and Second-Order Curvature Correction
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    In Proc. International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS),
    Springer Berlin Heidelberg, June 2001.

  112. A high-accuracy temperature sensor with second-order curvature correction and digital bus interface
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    In Proc. IEEE International Symposium on Circuits and Systems (ISCAS),
    IEEE, pp. 368‒371, May 2001.

  113. A batch-calibrated smart temperature sensor with second-order curvature correction
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    In Annual Workshop on Semiconductor Sensors (SeSens),
    The Netherlands, pp. 852‒855, November 2001.

  114. Non-linear signal correction
    M. A. P. Pertijs; A. Bakker; J. H. Huijsing;
    Patent, WO PCT/EP2001/011,288, September~27 2001.

BibTeX support

Click here for a bibtex representation of the selection.