Switched capacitor DC-DC converter based distributed maximum power point tracking of partially shaded photovoltaic arrays

We claim: 1. A method for implementing Distributed Maximum Power Point (DMPP) tracking schemes for a Photo Voltaic (PV) array, wherein the method uses Switched Capacitor (SC) DC (Direct Current)-DC (Direct Current) converters, wherein the method comprises: connecting a dedicated SC DC-DC converter across one of: each PV module of a PV string, wherein the PV array comprises a plurality of PV strings connected in parallel, the PV strings each comprise series connected PV modules and the PV modules each comprise a plurality of PV cells connected in series, wherein each dedicated SC DC-DC converter injects an equalization current across each PV module, wherein total current flowing through a parallel combination of each PV module and the corresponding dedicated SC DC-DC converter is equal to maximum current that can be produced by the PV string, and each PV cell of a PV string, wherein the PV array comprises a plurality of PV strings connected in parallel and the PV strings each comprise a plurality of PV modules connected in series, wherein each dedicated SC DC-DC converter injects an equalization current across each PV cell such that the total current flowing through a parallel combination of each PV cell and the corresponding SC DC-DC converter is equal to the maximum current that can be produced by the PV string. 2. The method, as claimed in claim 1 , wherein each dedicated SC DC-DC converter maintains the voltage across each corresponding PV module to be Maximum Power Point (MPP) voltage of the PV module. 3. The method as claimed in claim 1 , wherein each dedicated SC DC-DC converter maintains the voltage across each corresponding PV cell to be Maximum Power Point (MPP) voltage of that cell. 4. A Photo Voltaic (PV) array using a Distributed Maximum Power Point (DMPP) tracking scheme, wherein the PV array uses Switched Capacitor (SC) DC (Direct Current)-DC (Direct Current) converters, wherein the PV array comprises: a dedicated SC DC-DC converter connected across one of: each PV module of a PV string, wherein the PV array comprises a plurality of PV strings connected in parallel, the PV strings each comprise of a plurality of PV modules connected in series and the PV modules each comprise of a plurality of PV cells connected in series, wherein each dedicated SC DC-DC converter is configured for injecting an equalization current across each PV module, wherein total current flowing through a parallel combination of each PV module and the corresponding dedicated SC DC-DC converter is equal to the maximum current that can be produced by the PV string, and each PV cell of a PV string, wherein the PV array comprise a plurality of PV strings connected in parallel and the PV strings each comprise a plurality of series connected PV modules, wherein each dedicated SC DC-DC converter injects an equalization current across each PV cell such that the total current flowing through a parallel combination of each PV cell and the corresponding SC DC-DC converter is equal to the maximum current that can be produced by the PV string. 5. The PV array, as claimed in claim 4 , wherein each dedicated SC DC-DC converter is configured for maintaining voltage across each corresponding PV module to be Maximum Power Point (MPP) voltage of the PV module.