In this work, the design and analysis of new Li-Ion battery charger interface using the switching-based technique is proposed for high efficiency, high speed charge and low area. The high efficiency, the lower size area and the fast charge are the more important norms of the proposed Li-Ion battery charger interface. The battery charging is completed passes to each charging mode: The first mode is the trickle charge mode (TC), the second mode is the constant current mode (CC) and the last mode is the constant voltage mode (CV), in thirty three minutes. The new Li-Ion battery charger interface is designed, simulated and layouted in Cadence software using TSCM 180 nm CMOS technology. With an input voltage V_IN = 4.5 V, the output battery voltage (V_BAT) may range from 2.7 V to 4.2 V and the maximum charging battery current (I_BAT) is 1.7 A. The peak efficiency reaches 97% and the total area is only 0.03mm² .

Constant current mode, Constant voltage mode, Current sensing, LDO based, Li-Ion battery charger interface, Switching based