Dynamics of Data Conversion Schemes in High Performance Voltage Circuit Systems Designs

摘要

Several efforts are being made in the field of voltage converters due to increasing focus in power electronics. This is hinged on simple fact that converters have widespread usability domain such as portable devices running on battery, PCs, industrial electronic equipment, telecoms systems, and stable power distribution. Currently, studies are focusing on developing highly effective converter systems and designs innovations that take advantage of limited energy resources to improve and increase power/voltage supply capabilities for electronic devices consumptions. Power supply mechanism is analogous to data conversion systems outcomes in which voltage is generated in circuit systems through series of conversions and reversions. This study proposes hybridization of two existing data conversion schemes in the design of highly effective voltage circuits system that can tolerate and improve energy consumptions issues. The result indicates that the hybrid voltage pin of 63V is higher than the circuits system of the single voltage source of the analog and direct voltage which generated 54V and 6V respectively. The hybrid voltage pin also outperformed another investigative paper by 63V to 32V for an input of 5V leading to the hybrid converter offering more gains for low voltage source by 66.7% (9V) to 33.3% (5V) respectively.