Nowadays multilevel inverter (MLI) technologies become extremely main choice in the area of high power medium voltage energy control. Although multilevel inverter has a number of advantages it has drawbacks in the layer of higher levels because of using large number of semiconductor switches. This may leads to large size and price of the inverter is very high and also increase in losses. So in order to reduce these difficulties in the new multilevel inverter is proposed to reducing the switches. The increase in the level of output, number of switching equipments besides with the switching states enhances. As a consequence, higher switching losses occurs that prompts power loss. Accordingly, the efficiency of the complete conversion network diminishes. The significant characteristics of this submitted work is that the module can be accomplished as sub multiple level assembly. Progressively, with minimal rise in the switching elements, all number of levels can be elongated. This paper is subdivided into introduction explaining in short about the structural components of the inverter then after that analysis of the proposed inverter that is switching strategy and operational principles are given. This paper represents Symmetric Cascaded Multilevel inverter which utilizes variable frequency carrier predicated pulse width modulation techniques. This topology helps in decreasing total harmonic distortion and helps to reduce the switching losses for various level inverters. The simulation study about the performance and operation of the suggested topology has been performed in MATLAB/SIMULINK. The objective of this paper is to implement less number of switches and DC power source to achieve a different level of MLI as compared to the traditional converter topologies.