In resent years, with spiraling fuel costs and enhancement of environmental consciousness, people put more emphasis on energy crisis problem. Many countries are encouraging and promoting the development of renewable energy and green energy. Solar cell plays an important role in green energy. However, solar PV system requires high voltage for back-end application even when sunlight is insufficient. So we need a high step-up ratio DC-DC boost converter. Therefore, emphasis of this thesis is placed on developing a high efficiency and high step-up ratio DC-DC boost converter. Compared with some other conventional multilevel DC-DC boost converter, the multilevel DC-DC boost converter we discuss in this thesis features lower power loss, lower output voltage ripples, lower equivalent series resistance (ESR), bidirectional current, modular structure, small switching device count, lower capacitance and ripple current requirement for the two output capacitors and etc.. This boost converter is good to supply power to solar PV system since its output voltage is stable. The operating principle is based on pumping up the capacitor voltage one by one to make the output voltage. But it was verified that TSMC 0.25um 60V HV process is not suitable for this four stages topology by analyzing measurement results. Efficiency can exceed 90% if we only introduce single modular stage to a 1.9×1.9mm chip which is fabricated with TSMC 0.25um 60V HV process. Hence, when 2N voltage ratio is demanded, just connecting N chips in a proper way.