Transformer having a stacked core

What is claimed is: 1. A three-phase distribution transformer comprising: (a.) a ferromagnetic core comprising: first and second yokes, each having an inner longitudinal side and an outer longitudinal side and each comprising a stack of consecutive yoke plates, each of the yoke plates having a unitary construction; and first and second outer legs each having a cruciform cross-section, each of which comprises a stack of outer leg plates, each of the outer leg plates having a unitary construction and a trapezoidal shape with an inner longitudinal edge, an outer longitudinal edge and mitered edges extending between the inner and outer longitudinal edges, the mitered edges meeting the inner longitudinal edges at inner points, respectively; and an inner leg disposed between the first and second outer legs, the inner leg comprising a stack of inner leg plates; wherein the core is arranged in a plurality of layers, each of the layers comprising a pair of the yoke plates, at least one inner leg plate and a pair of the outer leg plates; wherein in an innermost layer, the width of each yoke plate is less than the width of each outer leg plate; wherein in outermost layers on opposing sides of the core, the yoke plates have the same width as the outer leg plates; and wherein in each of the layers, the inner points of the outer leg plates are in contact with the yoke plates; and (b.) at least one coil winding mounted to one of the outer legs. 2. The three-phase transformer of claim 1 , wherein in each of the outer leg plates, the mitered edges meet the outer longitudinal edges at outer points, respectively, and wherein all of the outer points are disposed outwardly from the yokes. 3. The three-phase transformer of claim 1 , wherein in the innermost layer, the width of each yoke plate is from about 1% to about 15% less than the width of each outer leg plate. 4. The three-phase transformer of claim 1 , wherein the first and second yokes each have a semi-cruciform cross-section with an inner side that approximates a semi-circle and an outer side that is substantially flat. 5. The three-phase transformer of claim 1 , wherein the outer legs and the yokes each have a rectangular cross-section. 6. The three-phase transformer of claim 5 , wherein in each of the layers, each yoke plate has a width that is less than the width of each outer leg plate. 7. The three-phase transformer of claim 6 , wherein in each of the layers, the width of each yoke plate is from about 1% to about 15% less than the width of each outer leg plate. 8. The three-phase transformer of claim 1 , wherein each of the yoke plates includes an inner longitudinal edge with a V-shaped notch formed therein, the V-shaped notches of the yoke plates forming a groove in each of the yokes that extends in the stacking direction of the yoke plates and is located inwardly from the outer longitudinal side of the yoke; and wherein the inner leg has opposing ends disposed in the grooves of the yokes, respectively. 9. A three-phase distribution transformer comprising: (a.) a ferromagnetic core comprising: first and second yokes, each having an inner longitudinal side and an outer longitudinal side and each comprising a stack of consecutive yoke plates, each of the yoke plates having a unitary construction, wherein each of the yoke plates includes an inner longitudinal edge with a V-shaped notch formed therein, the V-shaped notches of the yoke plates forming a groove in each of the yokes that extends in the stacking direction of the yoke plates and is located inwardly from the outer longitudinal side of the yoke; and first and second outer legs, each of which comprises a stack of outer leg plates, each of the outer leg plates having a unitary construction and a trapezoidal shape with an inner longitudinal edge, an outer longitudinal edge and mitered edges extending between the inner and outer longitudinal edges, the mitered edges meeting the inner longitudinal edges at inner points, respectively; and an inner leg disposed between the first and second outer legs, wherein the inner leg has opposing ends disposed in the grooves of the yokes, respectively, the inner leg comprising a stack of inner leg plates, wherein the stack of inner leg plates is a first stack of inner leg plates and wherein the inner leg further comprises a second stack of inner leg plates abutting the first stack of inner leg plates; wherein the core is arranged in a plurality of layers, each of the layers comprising a pair of the yoke plates, at least one inner leg plate and a pair of the outer leg plates, and wherein each of the layers of the core comprises a pair of the inner leg plates that adjoin each other along their inner longitudinal edges; wherein in an innermost layer, the width of each yoke plate is less than the width of each outer leg plate; and wherein in each of the layers, the inner points of the outer leg plates are in contact with the yoke plates; and (b.) at least one coil winding mounted to one of the outer legs. 10. The three-phase transformer of claim 9 , wherein in each of the layers, the width of each of the inner leg plates is the same as the width of each of the yoke plates. 11. The three-phase transformer of claim 1 , wherein the yoke plates form multi-step lap joints with the outer leg plates. 12. The three-phase transformer of claim 1 , wherein each of the yoke plates and the outer leg plates is composed of grain-oriented silicon steel. 13. The three-phase transformer of claim 1 , wherein the transformer is a dry transformer. 14. The three-phase transformer of claim 1 , wherein the first and second yokes each have an outer side that is substantially flat.