CMOS TEMPERATURNI SENZOR MALE POTROŠNJE OD 60 nW
Ključne reči:
CMOS, temperaturni senzor, MOSFET
Apstrakt
Tema ovog rada jeste projektovanje CMOS temperaturnog senzora zasnovanog na MOSFET uređajima. Senzor je projektovan u UMC 0.18 µm tehnologiji. Projektovani senzor postiže nisku potrošnju od 60 nW i zauzima malu površinu od 0.023 mm2 sa maksimalnom greškom merenja od +1.8°C/-1.3°C u temperaturnom opsegu od 20-80°C.
Reference
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[6] A. Ballo, G. Bruno, A. D. Grasso, M. Vaiana, "A Compact CMOS Temperature Sensor for On-Chip Thermal Monitoring", 2020 Inter. Conf. on Electrical, Communication, and Computer Engineering, Istanbul, Turkey, 12-13 June 2020, pp. 1-5.
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[8] G. Popov, F. C. Dualibe, V. Moeyaert, P. Ndungidi, H. García-Vázquez, C. Valderrama, “A 65-nm CMOS battery-less temperature sensor node for RF-powered wireless sensor networks”, in Proc. IEEE Wireless Power Transfer Conf., Aveiro Municipality, Portugal, 5-6 May 2016, pp. 1–4.
[9] E.M. Camacho-Galeano, J.Q. Moreira, M.D. Pereira, A.J. Cardoso, C. Galup-Montoro, M. Schneider, „Temperature performance of sub-1V ultra-low power current sources“, 2008 IEEE International Symp. on Circuits and Systems, Seattle, USA, 18-21 May 2008, pp. 2230-2233.
[10] F. Deng, H. Yigang, B. Li, L. Zuo, X. Wu, Z. Fu, „A CMOS Pressure Sensor Tag Chip for Passive Wireless Applications“, Sensors (Basel, Switzerland), vol. 15, no. 15. pp: 6872-6884, 2015.
[11] W. Yang, H. Jiang, Z. Wang, “A 0.0014 mm2 150 nW CMOS Temperature Sensor with Nonlinearity Characterization and Calibration for the −60 to +40°C Measurement Range”, Sensors, vol. 19, no. 8, pp: 1777, 2019.
[2] S. Jeong, Z. Foo, Y. Lee, J. -Y. Sim, D. Blaauw, D. Sylvester, "A Fully-Integrated 71 nW CMOS Temperature Sensor for Low Power Wireless Sensor Nodes", IEEE J. Solid-State Circuits, vol. 49, no. 8, pp. 1682-1693, Aug. 2014.
[3] Z. Shenghua, W. Nanjian, "A novel ultra low power temperature sensor for UHF RFID tag chip", 2007 IEEE Asian Solid-State Circuits Conference, Jeju, Korea (South), 12-14 Nov. 2007, pp. 464-467.
[4] R. Dastanian, E. Abiri, M. Ataiyan, "A 0.5 V, 112 nW CMOS temperature sensor for RFID food monitoring application", 24th Iranian Conf. on Electrical Engineering (ICEE), Shiraz, Iran, 10-12 May 2016, pp. 1433-1438.
[5] Deng F, He Y, Li B, Zhang L, Wu X, Fu Z, Zuo L. „Design of an Embedded CMOS Temperature Sensor for Passive RFID Tag Chips“, Sensors, vol. 15, no. 5, pp:11442-11453, 2015.
[6] A. Ballo, G. Bruno, A. D. Grasso, M. Vaiana, "A Compact CMOS Temperature Sensor for On-Chip Thermal Monitoring", 2020 Inter. Conf. on Electrical, Communication, and Computer Engineering, Istanbul, Turkey, 12-13 June 2020, pp. 1-5.
[7] C. Zhao, Y. -T. Wang, D. Genzer, D. Chen, R. Geiger, "A CMOS on-chip temperature sensor with −0.21°C 0.17 °C inaccuracy from −20 °C to 100 °C", 2013 IEEE Inter. Symp. on Circuits and Systems, Beijing, China, 19-23 May 2013, pp. 2621-2625.
[8] G. Popov, F. C. Dualibe, V. Moeyaert, P. Ndungidi, H. García-Vázquez, C. Valderrama, “A 65-nm CMOS battery-less temperature sensor node for RF-powered wireless sensor networks”, in Proc. IEEE Wireless Power Transfer Conf., Aveiro Municipality, Portugal, 5-6 May 2016, pp. 1–4.
[9] E.M. Camacho-Galeano, J.Q. Moreira, M.D. Pereira, A.J. Cardoso, C. Galup-Montoro, M. Schneider, „Temperature performance of sub-1V ultra-low power current sources“, 2008 IEEE International Symp. on Circuits and Systems, Seattle, USA, 18-21 May 2008, pp. 2230-2233.
[10] F. Deng, H. Yigang, B. Li, L. Zuo, X. Wu, Z. Fu, „A CMOS Pressure Sensor Tag Chip for Passive Wireless Applications“, Sensors (Basel, Switzerland), vol. 15, no. 15. pp: 6872-6884, 2015.
[11] W. Yang, H. Jiang, Z. Wang, “A 0.0014 mm2 150 nW CMOS Temperature Sensor with Nonlinearity Characterization and Calibration for the −60 to +40°C Measurement Range”, Sensors, vol. 19, no. 8, pp: 1777, 2019.
Objavljeno
2024-03-02
Sekcija
Elektrotehničko i računarsko inženjerstvo