65nW CMOS Temperature Sensor for Ultra-Low Power Microsystems
Seokhyeon Jeong, Jae-yoon Sim, David Blaauw, Dennis Sylvester

Citation
Seokhyeon Jeong, Jae-yoon Sim, David Blaauw, Dennis Sylvester. "65nW CMOS Temperature Sensor for Ultra-Low Power Microsystems". IEEE Custom Integrated Circuits Conference, 22, September, 2013.

Abstract
A temperature sensor using a novel process-invariant temperature sensing element and voltage to current converter for battery-operated ultra-low power micro systems is proposed. By introducing a new temperature-to-voltage sensing element that outputs only 75mV, the sensor achieves ultra-low power. The sensor was implemented in 180nm CMOS process and uses 0.09mm2 of area. Measurements from test chips show 65nW power consumption, the lowest reported to date, with an inaccuracy of +1.3oC /-1.4oC across 0oC to 100oC after 2-point calibration.

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  • HTML
    Seokhyeon Jeong, Jae-yoon  Sim, David Blaauw, Dennis
    Sylvester. <a
    href="http://www.terraswarm.org/pubs/62.html"
    >65nW CMOS Temperature Sensor for Ultra-Low Power
    Microsystems</a>, IEEE Custom Integrated Circuits
    Conference, 22, September, 2013.
  • Plain text
    Seokhyeon Jeong, Jae-yoon  Sim, David Blaauw, Dennis
    Sylvester. "65nW CMOS Temperature Sensor for Ultra-Low
    Power Microsystems". IEEE Custom Integrated Circuits
    Conference, 22, September, 2013.
  • BibTeX
    @inproceedings{JeongSimBlaauwSylvester13_65nWCMOSTemperatureSensorForUltraLowPowerMicrosystems,
        author = {Seokhyeon Jeong and Jae-yoon  Sim and David Blaauw
                  and Dennis Sylvester},
        title = {65nW CMOS Temperature Sensor for Ultra-Low Power
                  Microsystems},
        booktitle = {IEEE Custom Integrated Circuits Conference},
        day = {22},
        month = {September},
        year = {2013},
        abstract = {A temperature sensor using a novel
                  process-invariant temperature sensing element and
                  voltage to current converter for battery-operated
                  ultra-low power micro systems is proposed. By
                  introducing a new temperature-to-voltage sensing
                  element that outputs only 75mV, the sensor
                  achieves ultra-low power. The sensor was
                  implemented in 180nm CMOS process and uses 0.09mm2
                  of area. Measurements from test chips show 65nW
                  power consumption, the lowest reported to date,
                  with an inaccuracy of +1.3oC /-1.4oC across 0oC to
                  100oC after 2-point calibration.},
        URL = {http://terraswarm.org/pubs/62.html}
    }
    

Posted by David Blaauw on 13 May 2013.
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