DC-DC converters and DC-AC inverters are power electronic circuit elements considered for electrical energy conversion. When DC-DC buck boost converter uses the 0-0.5 range as the operating ratio of the power switches, it works in the buck mode, and when it uses 0.5-1, it works in the boosting mode. DC-DC converter, which can operate in both increasing and decreasing mode between 0-1, will provide a wider and more flexible energy conversion ratio for loads. An inverter that will be connected to the converter system will provide a high and wide range of alternating current and voltage. Therefore, this article presents inverter operation with Hybrid Buck-Boost converter input instead of traditional Buck-Boost DC-DC converter. First, the circuit structure and operation of the proposed system are given. Then, applications are made on resistive (R) and inductive (L), RL as in series connected, and RLC (resistive, inductive, capacitive) as in series connected loads. The converter output results obtained are compared with the results obtained from the conventional converter.