Actively-controlled power transformer and method for controlling

What is claimed is: 1. A transformer comprising: a magnetic core having multiple limbs; a direct current (DC) bias winding wound around a specified one of the multiple limbs; and a DC amplifier electrically connected to the DC bias winding, the DC amplifier configured to: receive a first signal associated with a load output current or a load output voltage; determine an amount of a current for the DC bias winding based on the first signal; and send the determined amount of current through the DC bias winding. 2. The transformer of claim 1 , wherein the determined amount of current is configured to control flux saturation in the magnetic core. 3. The transformer of claim 1 , wherein the specified limb is a center limb of the magnetic core. 4. The transformer of claim 1 , wherein the first signal is generated based on an integrated value of the load output current or the load output voltage. 5. The transformer of claim 1 , further comprising: a flux sensor disposed in a gap in the specified limb, the flux sensor electrically connected to the DC amplifier and configured to sense an amount of flux across the gap. 6. The transformer of claim 5 , wherein the DC amplifier is configured to determine the amount of the current for the DC bias winding based on the first signal and a second signal from the flux sensor. 7. The transformer of claim 6 , wherein the flux sensor is configured to generate the second signal in response to a measurement of the amount of flux across the gap in the specified limb. 8. The transformer of claim 5 , further comprising: a power filter coupled to a power filter winding that is wound around the magnetic core. 9. The transformer of claim 8 , wherein the DC amplifier is configured to determine the amount of the current for the DC bias winding based on the first signal, a second signal from the flux sensor, and a third signal from the power filter. 10. The transformer of claim 8 , wherein the power filter is galvanically isolated from a primary load. 11. The transformer of claim 8 , wherein the power filter comprises a polyphase power harmonic filter. 12. The transformer of claim 8 , wherein the power filter winding comprises multiple windings, each winding of the multiple windings tuned to a different harmonic. 13. A method comprising: receiving, at a direct current (DC) amplifier, a first signal associated with a load output current or a load output voltage; determining an amount of a current for a DC bias winding based on the first signal; and sending, by the DC amplifier, the determined amount of current through the DC bias winding; wherein the DC bias winding is electrically connected to the DC amplifier; and wherein a magnetic core has multiple limbs, the DC bias winding wound around a specified one of the multiple limbs. 14. The method of claim 13 , wherein the determined amount of current is configured to control flux saturation in the magnetic core. 15. The method of claim 13 , wherein the first signal is generated based on an integrated value of the load output current or the load output voltage. 16. The method of claim 13 , further comprising: sensing, by a flux sensor, an amount of flux across a gap in the specified limb, the flux sensor disposed in the gap and electrically connected to the DC amplifier. 17. The method of claim 16 , wherein determining the amount of the current for the DC bias winding is based on the first signal and a second signal from the flux sensor. 18. The method of claim 16 , further comprising: using a power filter coupled to a power filter winding that is wound around the magnetic core. 19. The method of claim 18 , wherein determining the amount of the current for the DC bias winding is based on the first signal, a second signal from the flux sensor, and a third signal from the power filter. 20. The method of claim 18 , wherein the power filter winding comprises multiple windings, each winding of the multiple windings tuned to a different harmonic. 21. The method of claim 18 , wherein the power filter winding has a voltage level independent of a line voltage or a load voltage. 22. The method of claim 18 , wherein the power filter includes at least one capacitive element and at least one inductive filter element.