International Journal of Sustainable Development in Computing Science

The study describes the performance of a Novel CMOS Integrated Pseudo PMOS UVPCO with 0% static power dissipation. The primary focus is on modeling of power and performance study, as well as comparison with existing devices used for air purification. This method can enhance calibration while avoiding the need for a high-speed digital processor. Traditional gadgets need a lot of electricity and aren't very stable for long-term monitoring. These devices also have a low slew rate, a high power consumption, and nonlinear properties, but this innovative design has virtually zero static power, reduced load capacitance on input signals, faster switching, and fewer transistors, higher circuit density, and the device have better slew rate. This device has a modest architecture and is suitable for Air purification and surface sanitization.

vlsi,simulation,pcs, sanitization, Cmos

P. Whig and S. N. Ahmad, Simulation of linear dynamic macro model of photocatalytic sensor in SPICE, Compel the Int. J. Comput. Math. Electric. Electron. Eng. 33 (2014), 611–629.

P. Whig and S. N. Ahmad, Development of Economical ASIC For PCS For Water Quality Monitoring, JCSC Vol. 23, No. 6, 2014.

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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 Systemsand Applications, vol. 11, pp. 91–98, 2012.

Kim, Y.-C., Sasaki, S., Yano, K., Ikebukuro, K., Hashimoto, K. and Karube, I.,“Photocatalytic sensor for the determination of chemical oxygen demand using flow injection analysis”, Analytica Chimica Acta, Vol. 432 No. 2, pp. 59-66, 2001.

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Velu, A. (2019). The spread of big data science throughout the globe. International Journal of Sustainable Development in Computing Science, 1(1), 11-20. Retrieved from https://ijsdcs.com/index.php/ijsdcs/article/view/6

Velu, A. (2019). A Stable Pre-processing Method for the Handwritten Recognition System. International Journal of Machine Learning for Sustainable Development, 1(1), 21-30. Retrieved from https://ijsdcs.com/index.php/IJMLSD/article/view/60

Whig, P. (2019). Exploration of Viral Diseases mortality risk using machine learning. International Journal of Machine Learning for Sustainable Development, 1(1), 11-20. Retrieved from https://ijsdcs.com/index.php/IJMLSD/article/view/53

Whig, P. (2019). A Novel Multi-Center and Threshold Ternary Pattern. International Journal of Machine Learning for Sustainable Development, 1(2), 1-10. Retrieved from https://ijsdcs.com/index.php/IJMLSD/article/view/54