Power cable which reduces skin effect and proximity effect

The invention claimed is: 1. A power cable comprising: an outer grounded shell; a central ground conductor; a plurality of individual power conductors positioned in the outer grounded shell about the central ground conductor, the individual power conductors having a cross sectional area which is optimized wherein the individual power conductors have the same diameter and each individual power conductor being configured to support 100% cross sectional usage to maximize power carrying capability; wherein the diameter of each respective individual power conductor of the individual power conductors is proximate to, but below, the skin effect cutoff diameter of the respective individual power conductor of the individual power conductors for the maximum operating frequency of the power cable; wherein the individual power conductors reduce the skin effect; and wherein the individual power conductors are arranged in a phase interweave, the phase interweave cancels the electrical proximity effect, minimizing the effective resistance of each of the individual power conductors. 2. The power cable as recited in claim 1 , wherein the plurality of individual power conductors are positioned circumferentially about a central ground conductor. 3. The power cable as recited in claim 2 , wherein an insulative filler is provided between the central ground conductor and the plurality of individual power conductors. 4. The power cable as recited in claim 1 , wherein for a three phase power system, the plurality of individual power conductors include at least one power conductor for each phase. 5. The power cable as recited in claim 1 , wherein the power cable has nine power conductors positioned circumferentially about a central ground conductor. 6. The power cable as recited in claim 5 , wherein the phase interweave has a 1,2,3-2,3,1-3,1,2, configuration, where: 1 represents current carrying lines carrying current in the first phase; 2 represents current carrying lines carrying current in the second phase; and 3 represents current carrying lines carrying current in the third phase wherein for any given power conductor, if the preceding phase is lagging, the subsequent phase is always leading. 7. The power cable as recited in claim 5 , wherein the phase interweave has a 1,2,3-1,2,3-1,2,3 configuration, where: 1 represents current carrying lines carrying current in the first phase; 2 represents current carrying lines carrying current in the second phase; and 3 represents current carrying lines carrying current in the third phase wherein for any given power conductor, if the preceding phase is lagging, the subsequent phase is always leading. 8. The power cable as recited in claim 5 , wherein the phase interweave has a 1,2,1-2,3,2-3,1,3 configuration, where: 1 represents current carrying lines carrying current in the first phase; 2 represents current carrying lines carrying current in the second phase; and 3 represents current carrying lines carrying current in the third phase wherein for any given power conductor, if the preceding phase is lagging, the subsequent phase is always leading.