Shielding structure for power conversion system

What is claimed is: 1 . A system for driving an AC electric motor, the system comprising: a converter configured to perform power conversion and provide at least a first phase AC current output to a first winding of the AC electric motor via a first conduction path, a second phase AC current output to a second winding of the AC electric motor via a second conduction path, and a third phase AC current output to a third winding of the AC electric motor via a third conduction path; and a cabinet for accommodating the converter therein, the cabinet comprising: a first shielding member disposed on at least one side of the cabinet, the first shielding member capable of absorbing at least a part of first frequency range electromagnetic radiations generated from at least one of the first phase AC current flowing through the first conduction path, the second phase AC current flowing through the second conduction path, and the third phase AC current flowing through the third conduction path; and a second shielding member disposed adjacent to the first shielding member, the second shielding member capable of absorbing at least a part of second frequency range electromagnetic radiations generated from at least one of the first phase AC current flowing through the first conduction path, the second phase AC current flowing through the second conduction path, and the third phase AC current flowing through the third conduction path. 2 . The system of claim 1 , wherein the first shielding member is at least in part steel material. 3 . The system of claim 1 , wherein the first shielding member is configured to absorb the first frequency electromagnetic radiations having a frequency value corresponding to a low rotation speed of the AC electric motor. 4 . The system of claim 1 , wherein the second shielding member comprises material selected from a group consisting of copper and aluminum. 5 . The system of claim 1 , wherein the second shielding member is configured to absorb the second frequency electromagnetic radiations having a frequency value corresponding to a high rotation speed of the AC electric motor. 6 . The system of claim 1 , wherein the first shielding member is disposed on a front side of the cabinet, and the front side of the cabinet is capable of being opened by an operator to perform maintenance operations for the converter located inside of the cabinet. 7 . The system of claim 1 , wherein the second shielding member is disposed in a manner closer to any one of the first, second, and third conduction paths than the first shielding member, and the second shielding member is invisible when the front side of the cabinet is closed. 8 . The system of claim 1 , wherein the first shielding member and second shielding member are substantially spaced apart by a predetermined gap with atmosphere filled between the gap, and the first shielding member and the second shielding member are secured together by fastening means. 9 . An electromagnetic shielding structure for shielding at least a part of electromagnetic radiations generated from at least one electromagnetic radiation source, the electromagnetic shielding structure comprising: a first shielding material disposed at a first location with respect to the at least one radiation source; and a second shielding material attached with the first shielding material by fastening means, the second shielding material disposed at a second location with respect to the at least one electromagnetic radiation source and defining a predetermined gap between the first shielding material and the second shielding material; wherein the first shielding material is configured for shielding at least a part of first frequency range electromagnetic radiations generated from the at least one electromagnetic radiation source and penetrating through the second shielding material and the predetermined gap; and wherein the second shielding material is configured for shielding at least a part of second frequency range electromagnetic radiations generated from the at least one electromagnetic radiation source. 10 . The electromagnetic shielding structure of claim 16 , wherein the electromagnetic shielding structure is disposed at a front side of a cabinet for accommodating a converter therein, the first shielding material is configured for absorbing the first frequency electromagnetic radiations having a relatively low frequency value, and the second shielding material is configured for absorbing the second frequency electromagnetic radiations having a relatively high frequency value. 11 . The electromagnetic shielding structure of claim 16 , wherein the first shielding material is made from steel material. 12 . The electromagnetic shielding structure of claim 16 , wherein the second shielding material is made from high conductivity and low permeability material. 13 . The electromagnetic shielding structure of claim 19 , wherein the high conductivity and low permeability material comprises copper or aluminum.