Hamilton Ventillator C2-Indigenous Development of Rechargeable Lithium-Ion Battery

Abstract

This thesis aims to summarize our contribution in the study and repair of a faulty Rechargeable Lithium-Ion Battery for Hamilton Ventilators. The project focuses on careful selection of high-performance battery cells to ensure optimal capacity and durability. The battery efficiently stores and delivers electrical energy to meet the critical requirements of the Hamilton ventilator system. Advanced battery management techniques are incorporated to optimize charging and discharging cycles and minimize energy loss. Robust protection systems are implemented to prevent overcharging, over-discharging, short-circuiting, and thermal runaway. Safety features, including emergency power-off mechanisms, are integrated into the battery to avoid any potential hazards. Efficient battery management contribute to longer runtimes, enhanced operational efficiency, and improved longevity. This accomplishment marks a significant advancement in the field of Hamilton ventilator electrical systems, ensuring the battery’s effectiveness in meeting the stringent power requirements of the Hamilton ventilator system. Overall, the study and repair of the rechargeable Lithium-ion battery for Hamilton ventilators have been successfully accomplished, resulting in improved functionality and performance.