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Design and Implementation of an Analog and Mixed-Signal System on Chip for ECG Monitoring

Pawar A. M.*, Deshpande J. D.**, Patil S. N.***

*_*** Department of Electronics, Tuljaram Chaturchand College of Arts, Science & Commerce, Baramati, Pune, India.

Periodicity:July - September'2024
DOI : https://doi.org/10.26634/jfet.19.4.20881

Abstract

To keep pace with revolutionary advancements in VLSI design, a Programmable System on Chip (PSoC) has been developed to monitor ECG signals, utilizing innovative Analog and Mixed Signal (AMS) technology. Electrocardiographic signals are very weak and have ultra-high impedance, making traditional analog amplifiers unsuitable. The AMS-based PSoC devices from Cypress Semiconductors demonstrate the capability to provide a suitable solution for this issue. The analog section of the PSoC device CY8C55 has ultra-high input impedance. Therefore, by deploying the on-chip resources of this device, an embedded system has been designed to detect and monitor ECG signals. This paper interprets the issues related to the design and validation of both on-chip hardware and embedded firmware. Using electrodes placed only off the chip, the signals are read into the chip with an appropriate reference level. The on-chip PGAs are configured for signal extraction. The analog signals are digitized with 10-bit resolution and then digitally filtered with a low-pass filter configured for Fc = 150 Hz. The signals are recorded in real-time on the DSO. Upon investigating the ECG signals monitored on the DSO, it can be concluded that the current SoC is highly suitable for medical applications.

Keywords

Programmable System on Chip (PSoC), Integrability, Reconfigurability, Electrocardiogram, Ultra High Input Impedance.

How to Cite this Article?

Pawar, A. M., Deshpande, J. D., and Patil, S. N. (2024). Design and Implementation of an Analog and Mixed-Signal System on Chip for ECG Monitoring. i-manager’s Journal on Future Engineering & Technology, 19(4), 26-32. https://doi.org/10.26634/jfet.19.4.20881

References

[1]. Ghatage, S. R., & Patil, S. N. (2021). Design embedded system for monitoring carbon dioxide gas. International Journal of Innovative Research in Technology, 8(5), 426-430.

[2]. Jain, A., Singh, M., & Singh, B. (2022). Real time system on chip based wearable cardiac activity monitoring sensor. Measurement: Sensors, 24, 100523.

[3]. Kho, T. K., Besar, R., Tan, Y. S., Tee, K. H., & Ong, K. C. (2005, November). Bluetooth-enabled ECG monitoring system. In TENCON 2005-2005 IEEE Region 10 Conference (pp. 1-5). IEEE.

[4]. Ladgaonkar, B. P., Patil, S. N., & Tilekar, S. K. (2013). Development of Ni-Zn Ferrite based smart humidity sensor module by using mixed signal programmable System-on-chip. Applied Mechanics and Materials, 310, 490-493.

[5]. Patil, S. N., Deshpande, J. D., & Pawar, A. M. (2023). Development of polycrystalline ferrite based smart sensor module using mixed signal programmable system on chip. The International Research Journal of Science and Engineering (pp. 136-140).

[6]. Patil, S. N., Deshpande, J. D., Tilekar, S. K., Ladgaonkar, B. P., & Pawar, A. M. (2021). Synthesis and implementation of polycrystalline ferrite material for smart sensor module. Materials Today: Proceedings, 43, 2751-2756.

[7]. Patil, S. N., Pawar, A., & Ladgaonkar, B. (2019). Carbon dioxide gas sensing property of nickel substituted zinc ferrite. i-manager's Journal on Material Science, 7(2), 42-48.

[8]. Pawar, A. M. (2021). Implementation of poly crystalline ferrite material as sensor for CO2 detection using cypress CY8C29466 based on SoC. i-manager's Journal on Future Engineering and Technology, 16(4), 29-33.

[9]. Satonkar, V. H., Shilwant, D. S., & Kharde, S. P. (2015). Overview on configurable and mixed ECG signals monitoring system. International Journal of Engineering Trends and Technology, 23(5), 230-232.

[10]. Tilekar, S. K., Tambe, A., Shiakh, S. S., Patil, S. N., Mane-Deshmukh, P. V., Pathan, S. C., & Ladgaonkar, B. P. (2014). Analog mixed signal based SoC for measurement of AC electrical conductivity of water. International Journal of Scientific and Engineering Research, 5(8), 474-478.

[11]. Weiya, W., Zhanfeng, L., Li, G., & Gui, H. (2011). Research on wearable ECG monitoring system based on ZigBee. Proceedings of 2011 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference, 2.

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Design and Implementation of an Analog and Mixed-Signal System on Chip for ECG Monitoring

Abstract

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