Digital Monitoring Circuit for Controlling A Limit Based Parameter Value

  • Lianly Rompis Electrical Engineering Study Program, Faculty of Engineering, Universitas Katolik De La Salle Manado; Indonesia
Keywords: Logic Circuit; Digital Electronics; Parameter Control; Medical Tool; Medication

Abstract

Industrial Revolution 4.0 relates to many digital devices, machines or applications that integrates with internet and needs to be controlled on one or two of its parameter values regarding the importance of output in order to function correctly. Those parameter values have standard limitation and essential automation procedures should be taken for keeping the good operation of devices, machines or system. Controlling a limit based parameter is difficult if done manually and needs full concentration.

Digital monitoring circuit would be very helpful for doing that controlling with the support of digital technology development nowadays. The usage of monitoring circuit currently applied in many fields especially for monitoring the condition of a patient in a hospital bed. Regarding health management and digitalization, digital monitoring circuit becomes very important and needs continued improvement.

Based on the problem above, this paper is conducted a research to design a digital monitoring circuit for the purpose of controlling a limit based parameter value for patient medication. The research methodology contains literature study,  analysis and logic simulation. The outcome derives a reliable digital logic circuit that could be implemented into a real digital circuit or Integrated Circuit (IC) components to help people controlling the condition of a patient based on limit parameter value and support medical industries to improve their devices, machines or system performance to work more accurately and give out best medical services.

References

[1] Budiharto, W. Elektronika Digital dan Mikroprosesor. Yogyakarta: Penerbit Andi, 2005.
[2] Widjanarka, W.N. Teknik Digital. Jakarta: Penerbit Erlangga, 2006.
[3] Vemula, N. Asynchronous Sequential Circuit: Introduction and Design Issues. Academia.edu 2021.
[4] Kurniawan, F. Sistem Digital: Konsep dan Aplikasi. Yogyakarta: Penerbit Gava Media, 2005.
[5] University of Michigan, Courtse EeCS 270 (245): Sequential Design Examples. Course Hero, Inc., 2019. Source: https://www.coursehero.com/file/8803636/17-SequentialDesignexamples/
[6] Allan Li, Synchronous Counter. EIE Web Services, 2004.
Source: http://www.ee.usyd.edu.au/tutorials/digital_tutorial/part2/counter05.html
[7] All About Circuits, Synchronous Counters. All About Circuits.com, 2012.
Source: http://www.allaboutcircuits.com/vol_4/chpt_11/3.html
[8] Yan, D., Tong, R., Zhang C. and Li, C. A Modified Technique for Analysis of Synchronous Counters Constructed with Flip-Flops. Journal of Computers, 2011. 6(2): p.1971-1975.
[9] Purnomo, D., Alhamidi, M.R., Wibisono, A., dan Tawakal, M.I. Investigation of Flip-Flop Performance on Different Type and Architecture in Shift Register with Parallel Load Applications. Jurnal Ilmu Komputer dan Informasi. Fakultas Ilmu Komputer, Universitas Indonesia, 2015. 8(2): p.87-95.
[10] Gu, L., Zhou, N., and Li, H. Research of Frequency Divider Based on Programmable Logic Device. 3rd International Conference on Environmental Science and Information Application Technology, 2011. Procedia Environmental Sciences 10: p.820–824.
Published
2021-04-05
How to Cite
Rompis, L. (2021). Digital Monitoring Circuit for Controlling A Limit Based Parameter Value. European Journal of Applied Sciences, 9(2), 97-106. https://doi.org/10.14738/aivp.92.9766