Voltage regulation device that includes a converter for harmonic current compensation and reactive power management

What is claimed is: 1. A voltage regulation device configured to maintain a voltage in an alternating current (AC) electrical power distribution network to within a range of voltages, the voltage regulation device comprising: an input node configured to receive electrical power from an electrical power source; a primary winding electrically connected to the input node; an output node configured to provide electrical power to a load; a shunt winding electrically connected to the output node; a converter configured to provide a compensation current to the shunt winding; and a control system configured to: determine a harmonic compensation signal based on harmonic frequency data, the harmonic frequency data comprising one or more harmonic components; determine a reactive power compensation signal based on a reactive power set point; and control the converter based on the determined harmonic compensation signal and the determined reactive power compensation signal to produce an output compensation signal, wherein the output compensation signal is configured to reduce the one or more harmonic components in a current that flows in the output node and to control an amount of reactive power at the output node. 2. The voltage regulation device of claim 1 , wherein each harmonic component is a sine wave at a harmonic frequency of a fundamental frequency of the AC electrical power distribution network. 3. The voltage regulation device of claim 1 , wherein the reactive power set point comprises an amount of reactive power to be provided by the converter to the shunt winding. 4. The voltage regulation device of claim 1 , wherein the control system is configured to receive the reactive power set point from an operator. 5. The voltage regulation device of claim 1 , wherein the compensation signal is configured to control the amount of reactive power at the output node by injecting reactive power at the shunt winding or removing reactive power at the shunt winding such that the reactive power at the output node remains within a range of values without changing an amount of reactive power from the electrical power source. 6. The voltage regulation device of claim 1 , wherein the converter comprises an auxiliary winding, and the converter is configured to magnetically couple to the shunt winding with the auxiliary winding. 7. The voltage regulation device of claim 6 , wherein the voltage regulation device further comprises a magnetic core, and wherein the primary winding, the shunt winding, and the auxiliary winding are wound about the magnetic core. 8. The voltage regulation device of claim 7 , wherein the primary winding comprises one or more electrically conductive taps, and the voltage regulation device further comprises: an inverter electrically connected to the converter; and one or more moveable electrical contacts, each of the one or more moveable electrical contacts configured to connect to and disconnect from any one of the electrically conductive taps. 9. The voltage regulation device of claim 8 , wherein the converter further comprises a second auxiliary coil electrically connected to the inverter, and the second auxiliary coil is configured to magnetically couple to the moveable electrical contacts. 10. The voltage regulation device of claim 9 , wherein the control system is configured to control the inverter to thereby control an amount of current in one or more of the movable electrical contacts during a switching operation. 11. The voltage regulation device of claim 8 , wherein the converter further comprises an energy source electrically connected to the inverter. 12. The voltage regulation device of claim 1 , wherein the converter is configured to apply pulse-width modulation to the harmonic compensation signal and the reactive power compensation signal to produce the output compensation signal. 13. The voltage regulation device of claim 1 , wherein the converter comprises a rectifier. 14. The voltage regulation device of claim 1 , wherein the voltage regulation device is a step voltage regulator. 15. A control system for a voltage regulation device, the control system comprising: one or more electronic processors; and an electronic storage coupled to the one or more electronic processors, the electronic storage comprising machine-executable instructions that, when executed, cause the one or more electronic processors to: determine a harmonic compensation signal based on frequency data, the frequency data comprising one or more harmonic components; determine a reactive power compensation signal based on a reactive power set point; and control a converter of the voltage regulation device based on the determined harmonic compensation signal and the determined reactive power compensation signal to provide an output compensation current to a winding of the converter, wherein the winding of the converter is configured to magnetically couple to a winding of the voltage regulation device, and the output compensation current is configured to control an amount of reactive power provided by the converter to the winding of the voltage regulation device and to reduce an effect of the one or more harmonic components. 16. The control system of claim 15 , wherein the amount of reactive power is controlled to be equal to the reactive power set point. 17. The control system of claim 16 , wherein the output compensation current includes one or more components, each of which are 180° out-of-phase with the one or more harmonic components. 18. The control system of claim 15 , wherein the winding of the converter is configured to magnetically couple to a shunt winding of the voltage regulation device, and the voltage regulation device is a step voltage regulator. 19. The control system of claim 15 , wherein the output compensation current is configured to control the amount of reactive power provided by the converter to the voltage regulation device and to reduce the effect of the one or more harmonic components in electrical power received at an input node of the voltage regulation device. 20. A method of controlling a voltage regulation device that comprises a converter, the method comprising: determining a reactive power set point, the reactive power set point being a target amount of reactive power provided by an electrical source electrically connected to the voltage regulation device at an input node; determining harmonic frequency data at a load electrically connected to the voltage regulation device at an output node, the harmonic frequency data comprising one or more harmonic components; determining a converter control signal based on the reactive power set point and the harmonic frequency data; magnetically coupling a winding of the converter to a winding of the voltage regulation device; and providing the converter control signal to the converter such that the converter produces a compensation current at the winding of the converter, wherein the compensation current reduces an effect of the harmonic components and provides reactive power to the output node, and the amount of provided reactive power is based on the reactive power set point. 21. The method of claim 20 , wherein the amount of provided reactive power is equal to the reactive power set point. 22. The method of claim 20 , wherein the reactive power set point is determined based on user input. 23. The method of claim 20 , wherein the reactive power set point is determined based on an amo