The Advanced Transformer Simulated Heart System

Authors

  • Anubhav Soni SOMC, Sanskriti University, Mathura, Uttar Pradesh, India Author
  • Pooran Singh SOMC, Sanskriti University, Mathura, Uttar Pradesh, India Author

Keywords:

Artificial Heart, Heart Failure, LVAD, TAH, Transcutaneous Transformer

Abstract

A transcutaneous strength transmission system was produced  out of a few loops, which designed a transformer over the  skin, a driving circuit, and an amending circuit. By using  coreless loops and a high driving recurrence (100–160 kHz),  beyond what 25 W of electric power might be transferred with  78.5 percent of maximum proficiency (dc to dc) (dc to dc). In  creature testing, the critical loop temperature during activity  was under 39°C on thermo-grams. Following 10 months of  implantation of an auxiliary loop coated with epoxy pitch, it  was wrapped by a thin casing of associated tissue. No  noticeable tissue reaction was observed. Innovative  geometrical architecture of the transformer for an artificial  heart system is described in this article. The ferrite is utilised  to build the main core and the amorphous magnetic material is  used for creating the secondary core of the transformer. 20 W  is adequate to operate the heat pump which can be readily  transferred has been experimentally confirmed. The spacing in  between the coils is usually of 5mm that gives the 90 percent  transmission efficiency with 102.5 kHz switching frequency.  Few features of the built transformer are described and  illustrated in this article. 

Downloads

Download data is not yet available.

References

Shankar MAR, Reddy DSK, Feisso DS. Prototype of Total Artificial Heart System. Int J Trend Sci Res Dev. 2017;

Zhao L, Foo CF, Tseng KJ. A new structure transcutaneous transformer for artificial heart system. IEEE Trans Magn. 1999;

Strüber M, Meyer AL, Malehsa D, Kugler C, Simon AR, Haverich A. The Current Status of Heart Transplantation and the Development of „Artificial Heart Systems“. Dtsch Aerzteblatt Online. 2009;

Yambe T, Nanka SS, Shiraishi Y, Tanaka A, Yoshizawa M, Abe KI, et al. Recording Vagal Nerve Activity for the Control of an Artificial Heart System. ASAIO J. 2003;

Weber S, Doi K, Massiello AL, Byerman BP, Takagaki M, Fukamachi K, et al. In vitro controllability of the MagScrew total artificial heart system. ASAIO J. 2002; [6] Homma A, Sumikura H, Ohnuma K, Ohgoe Y, Takewa

Y, Tatsumi E, et al. Development of a pneumatic ventricular assist device and a pnumatic total artificial heart system. Trans Japanese Soc Med Biol Eng. 2014;

Westerhof N, Elzinga G, Sipkema P. An artificial arterial system for pumping hearts. J Appl Physiol. 1971; [8] Snyder A, Rosenberg G, Weiss W, Pierce W, Pae W, Marlotte J, et al. Completely implantable total artificial heart system. ASAIO Trans. 1991;

Pelletier B, Spiliopoulos S, Finocchiaro T, Graef F, Kuipers K, Laumen M, et al. System overview of the fully implantable destination therapy--ReinHeart-total artificial heart. Eur J Cardiothorac Surg. 2015;

Beyersdorf F. Heart Transplant and Artificial Heart Systems. Dtsch Aerzteblatt Online. 2009;

Downloads

Published

2021-11-30

Issue

Vol. 8 No. 6 (2021): International Journal of Innovative Research in Engineering & Management (Nov) 2021

Section

Articles

How to Cite

The Advanced Transformer Simulated Heart System . (2021). International Journal of Innovative Research in Engineering & Management, 8(6), 314–317. Retrieved from https://acspublisher.com/journals/index.php/ijirem/article/view/11735