ผลงานทางวิชาการ |
ตำรา
[1] CMOS Analog Integrated Circuits (2nd edition), 2013, KMITL, ISBN:9786163380449
วารสารวิชาการระดับนานาชาติ
[1] Y. Sundarasaradula and A. Thanachayanont, “A Low-Noise, Low-Power, Wide Dynamic Range Logarithmic Amplifier for Biomedical Applications, ”Journal of Circuits, Syst. and Computers, vol.27, no.07, p.1850104, Nov.2017.
[2] Y. Sundarasaradula and A. Thanachayanont, “A 1-V, 6-nW programmable 4th-order bandpass filter for biomedical applications,” Analog Integrated Circuits Signal Processing, vol.89, no.1, pp.89–98, Oct.2016.
[3] A. Thanachayanont, “Design of a low-power wide dynamic range CMOS RF power detector, ”International Journal of Electronics Letters, vol.3, no.4, pp.213–224, Oct.2015.
[4] S. Sakphrom, P. Georgiou, and A.Thanachayanont, “A Sub-100ppm/oC Temperature-Compensated High Frequency CMOS Relaxation Oscillator,” Circuits Systems Signal Processing, pp.1–14, Apr.2015.
[5] A. Thanachayanont, “A 1-V, 330-nW, 6-Bit Current-Mode Logarithmic Cyclic ADC for ISFET-Based pH Digital Readout System, ”Circuits Systems Signal Processing, vol.34, no.5, pp.1405–1429, Oct.2014.
[6] T. Tippo, C. Thanachayanont, P. Muthitamongkol, C.Junin, M.Hietschold, and A.Thanachayanont, “The effects of solvents on the properties of ultra-thin poly (methyl methacrylate) films prepared by spin coating,” Thin Solid Films, vol.546, pp.180–184, Nov.2013.
[7] A. Yodtean and A. Thanachayanont, “Sub 1-V highly-linear low-power class-AB bulk-driven tunable CMOS transconductor, ”Analog Integrated Circuits Signal Processing, vol.75, no.3, pp.383–397, Jun.2013.
[8] A. Thanachayanont and M. Krairiksh, “Implementation of an RF CMOS quadrature LC voltage-controlled oscillator based on the switched tail transistor topology,” Journal of Circuits, Systems and Computers, vol.19, no.05, pp.931–937, Aug.2010.
[9] A. Thanachayanont and S. Sirimasakul, “Ultra-Low-Power Differential ISFET/REFET Readout Circuit,” ETRI Journal, vol.31, no.2, pp.243–245, Apr.2009.
[10] A. Thanachayanont, “Low-voltage compact CMOS variable gain amplifier, ”AEU-International Journal of Electronics and Communications, vol.62, no.6, pp.413–420, Jun.2008.
[11] A. Thanachayanont and S. Sangtong, “Low-voltage current-sensing CMOS interface circuit for piezoresistive pressure sensor, ”ETRI journal, Vol.29, No.1, Feb.2007, pp.70-78
[12] K. Opasjumruskit, T. Thanthipwan, O. Sathusen, P. Sirinamarattana, P. Gadmanee, E. Pootarapan, N. Wongkomet, A. Thanachayanont, and M. Thamsirianunt, “Self-powered wireless temperature sensors exploit RFID technology, ”IEEE Pervasive Computing, Volume 5, Issue 1, Jan-Mar 2006, pp.54-61.
[13] A. Thanachayanont and P. Naktongkul, “Low-voltage wideband compact CMOS variable gain amplifier, ”Electronics Letters, Volume:41 Issue:2, 20 Jan. 2005, Page(s):51–52
[14] A. Thanachayanont, “Low-voltage low-power high-Q CMOS RF bandpass filter, ”Electronics Letters, Volume:38 Issue:13, 20 June 2002, Page(s):615–616
[15] A. Thanachayanont and A. Payne, “CMOS floating active inductor and its applications to bandpass filter and oscillator designs, ”IEE Proceedings-Circuits, Devices and Systems, Volume:147 Issue:1, Feb.2000, Page(s):42–48
[16] A. Payne, A. Thanachayanont and C. Papavassilliou, “A 150-MHz translinear phase-locked loop, ”IEEE Transactions on Circuits and Systems II:Analog and Digital Signal Processing, Volume:45 Issue:9, Sept.1998, Page(s):1220–1231
[17] A. Payne and A. Thanachayanont, “Translinear circuit for phase detection,” Electronics Letters, Volume:33 Issue:18, 28 Aug.1997, Page(s):1507–1509
งานประชุมวิชาการ
[1] N. Rajit and A. Thanachayanont, “A 1-V CMOS Low-Power Resistor-Based Temperature Sensor for Human Body Temperature Monitoring,” in 2019 34th International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC), 2019, pp.1–4.
[2] S. Sakphrom, T. Limpiti, N. Wichaipanich, and A. Thanachayanont, “Sub-30 ppm/°C High-frequency Temperature-compensated CMOS Relaxation Oscillator,” in 2018 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON), 2018, pp.305–308.
[3] S. Sirimasakul and A. Thanachayanont, “A logarithmic level-crossing ADC,” in 2017 14th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON),2017, pp.576–579.
[4] Y. Sundarasaradula, T.G. Constandinou, and A. Thanachayanont, “A 6-bit, two-step, successive approximation logarithmic ADC for biomedical applications,” in 2016 IEEE International Conference on Electronics, Circuits and Systems (ICECS), 2016, pp.25–28.
[5] N. Minwong, K. Sooksood, and A. Thanachayanont,“A Low Dropout Voltage Regulated Bulk-driven CMOS Current Mirror,” Procedia Computer Science, vol.86, pp.95–99, 2016.
[6] P. Choetchai and A. Thanachayanont, “A Self-starting AC-to-DC Step-up Converter for Energy Harvesting Applications,” Procedia Computer Science, vol.86, pp.144–147, 2016.
[7] Y. Sundarasaradula and A. Thanachayanont, “A 1-V, 6-nW programmable 4th-order bandpass filter for biomedical applications,” in New Circuits and Systems Conference (NEWCAS), 2015 IEEE 13th International, 2015, pp.1–4.
[8] R. Trakoolwattana and A. Thanachayanont, “1-V low-power high-accuracy CMOS potentiostat circuit for amperometric sensor,” in 2014 11th International Conference on Electrical Engineering/Electronics, Computer,Telecommunications and Information Technology (ECTI-CON), 2014, pp.1–4.
[9] Y. Sundarasaradula and A. Thanachayanont, “A 1.3-V, 9.1uW wide-dynamic range logarithmic amplifier for cochlear implant system,” in 2014 11th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON), 2014, pp.1–4.
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