Novel FGMOS Based PCS Device for Low Power Applications

[in Chinese]; [in Chinese]

doi:10.1007/s13320-015-0224-5

[1] L. L. W. Chow, M. M. F. Yuena, P. C. H. Chanb, and A. T. Cheung, “Reactive sputtered TiO2 thin film humidity sensor with negative substrate bias,” Sensors and Actuators B: Chemical, 2001, 76(1-3): 310-315.

[2] P. Whig and S. N. Ahmad, “Simulation of linear dynamic macro model of photo catalytic sensor in SPICE,” Compel The International Journal of Computation and Mathematics in Electrical and Electronic Engineering, 2013, 33(1/2): 611-629.

[3] P. Whig and S. N. Ahmad, “A novel Pseudo NMOS integrated ISFET device for water quality monitoring,” Active and Passive Electronic Components, 2013, 10(1): 1-6.

[4] P. Whig and S. N. Ahmad, “Development of economical ASIC for PCS for water quality monitoring,” Journal of Circuits, Systems and Computers, 2014, 23(6): 1-13.

[5] D. Kahng and S. M. Sze, “A floating gate and its application to memory devices,” The Bell System Technical Journal, 1967, 46(4): 1288-1295.

[6] Y. Berg, T. S. Lande, and S. Naess, “Low-voltage floating-gate current mirrors,” in Proceedings of the 10th Annual IEEE International ASIC Conference and Exhibit, Portland, OR, pp. 21-24, 1997.

[7] T. S. Lande, D. T. Wisland, T. Saether, and Y. Berg, “FLOGIC-floating-gate logic for low-power operation,” in Proceedings of the 3rd IEEE International Conference on Electronics, Circuits, and Systems, Rodos, pp. 1041-1044, 1996.

[8] E. Rodriguez-Villegas, Low Power and Low Voltage Circuit Design with the FGMOS Transistor, vol. 20 of IET Circuits, Devices & Systems Series, London, UK: The Institution of Engineering and Technology, 2006.

[9] G. Massobrio and P. Antognetti, Semiconductor Device Modeling with SPICE, New York, USA: McGraw-Hill, 1993.

[10] M. Peterson, J. Turner, and A. Nozik, “Mechanistic studies of the photocatalytical behavior of TiO2 particles in photo electrochemical slurry and the relevance to photo detoxification reactions,” Journal of Physical Chemistry B, 1991, 95(1): 221-225.

[11] M. M. Polycarpou, J. G. Uber, W. Zhong, S. Feng, and M. Brdys, “Feedback control of water quality,” IEEE Control Systems Magazine, 2002, 22(3): 68-87.

[12] Y. C. Kim, S. Sasaki, K. Yano, K. Ikebukuro, K. Hashimoto, and I. Karube, “Photocatalytic sensor for the determination of chemical oxygen demand using flow injection analysis,” Analytica Chimica Acta, 2001, 432(2): 59-66.

[13] P. Whig and S. N. Ahmad, “Performance analysis of various readout circuits for monitoring quality of water using analog integrated circuits,” International Journal of Intelligent Systems and Applications, 2012, 4(11): 91-98.

[14] P. Whig and S. N. Ahmad, “On the performance of ISFET-based device for water quality monitoring,” International Journal of Communications Network and System Sciences, 2011, 4(11): 709-719.

[15] P. Whig and S. N. Ahmad, “DVCC based readout circuitry for water quality monitoring system,” International Journal of Computer Applications, 2012, 49 (22): 1-7.