Transformers with multi-turn primary windings for dynamic power flow control

What is claimed is: 1. An apparatus for injecting a voltage or impedance in series with a high-voltage transmission line comprising: an injection module having; an injection transformer having a multiple-turn primary winding and a multiple-turn secondary winding on a non-gapped core, the primary winding being adapted for connection in series with the high-voltage transmission line by being directly attached to the high-voltage transmission line and by cutting the high-voltage transmission line and splicing respective ends of the primary winding in series with the high-voltage transmission line, wherein the injection transformer is suspended and insulated from ground at the high-voltage transmission line during operation; the secondary winding being connected to a converter, and having a virtual ground established at the high-voltage transmission line by connecting one end of the second winding to the high-voltage transmission line; the converter being coupled to a controller for controlling the controller; and the secondary winding being connected across a bypass switch for providing protection to connected circuits coupled to the secondary winding. 2. The apparatus of claim 1 wherein the injection module is contained in a housing supported by the high-voltage transmission line, a transmission line tower, or a special purpose tower. 3. The apparatus of claim 2 wherein the housing is insulated from ground and is also virtually grounded to the high-voltage transmission line. 4. The apparatus of claim 1 wherein the number of turns in the primary winding is selected to reduce the operating voltage of circuitry connected to the secondary winding, and to increase the coupling to the high-voltage transmission line. 5. The apparatus of claim 4 wherein the number of turns in the secondary winding is selected to reduce the operating voltage of circuitry connected to the secondary winding and to allow use of off-the-shelf power electronic components. 6. The apparatus of claim 4 , wherein the apparatus is enabled to inject any of an inductive or a capacitive impedance generated by the injection module on to the high-voltage transmission line, via the injection transformer, for line balancing and control of power transfer. 7. The apparatus of claim 1 wherein the injection module is contained in a housing, the housing being supported by the high-voltage transmission line, a transmission line tower or a special-purpose tower, the apparatus being insulated from its support. 8. The apparatus of claim 1 wherein the modules are also virtually grounded to the high-voltage transmission line. 9. The apparatus of claim 1 , wherein power for operation of the apparatus is extracted from the power transmitted over the high-voltage transmission line. 10. The apparatus of claim 9 , wherein the power for operation of the apparatus is extracted from the high-voltage transmission line using a current transformer. 11. An active impedance injection module for distributed dynamic line balancing and power flow control over a high-voltage grid system, the active impedance injection module comprising: a transformer having an un-gapped transformer core, the un-gapped transformer core having one or more multiple-turn primary winding and at least one multiple-turn secondary winding thereon; a converter coupled to each of the secondary windings; and a controller coupled to the converter; wherein the transformer, the converter and the controller are all housed in a single housing forming the active impedance injection module for suspending on a high-voltage power line of the grid system; wherein the active impedance injection module is suspended from the high-voltage power line by cutting the high-voltage power line into two cut ends and splicing two ends of the multiple-turn primary winding to the two cut ends of the high-voltage power line, thereby suspending the active impedance injection module on the high-voltage power line for operation and isolating the active impedance injection module from ground at a line voltage of the high-voltage power line.