Three-phase current source rectifier for power supplies

What is claimed is: 1. A three-phase current source rectifier (CSR) with three alternating-current (AC) inputs, comprising: a free-wheeling diode, a first leg, a second leg, and a third leg connected in parallel between a positive line and a negative line, wherein the first leg includes a first pair of diodes and a second pair of diodes connected in parallel with each other and in series between a first pair of switches, the second leg includes a third pair of diodes and a fourth pair of diodes connected in parallel with each other and in series between a second pair of switches, the third leg includes a fifth pair of diodes and a sixth pair of diodes connected in parallel with each other and in series between a third pair of switches, the first AC input is connected between the first pair of diodes and between the sixth pair of diodes, the second AC input is connected between the second pair of diodes and between the third pair of diodes, and the third AC input is connected between the fourth pair of diodes and between the fifth pair of diodes; and a controller to control operation of the three pairs of switches. 2. The rectifier of claim 1 , wherein each of the switches is controlled by the controller based upon the three AC inputs. 3. The rectifier of claim 1 , wherein the controller determines a present phase sector from a plurality of phase sectors of the three AC inputs. 4. The rectifier of claim 1 , further comprising a sensor to measure at least one of voltages of the three AC inputs, direct-current (DC) inductor current, and DC capacitor voltage. 5. The rectifier of claim 1 , wherein the controller generates control signal sequences to selectably turn on or off the switches. 6. The rectifier of claim 5 , wherein the controller controls the duration of the control signal sequences based upon the voltage of the three AC inputs. 7. The rectifier of claim 1 , wherein the controller controls the switches to conduct current through two of the switches to the positive line and to conduct current through two different switches from the negative line. 8. The rectifier of claim 1 , wherein at least one of the switches, the diodes, and the free-wheeling diode is a Silicon Carbide based device. 9. A three-phase alternating-current (AC) to direct-current (DC) converter, comprising: a three-phase AC filter receiving a three-phase AC power supply; at least one three-phase current source rectifier (CSR) connected to the three-phase AC filter; and an output filter connected to the at least one three-phase CSR to generate a DC output, wherein each of the at least one three-phase CSR has three AC inputs and comprises: a free-wheeling diode, a first leg, a second leg, and a third leg connected in parallel between a positive line and a negative line, wherein the first leg includes a first pair of diodes and a second pair of diodes connected in parallel with each other and in series between a first pair of switches, the second leg includes a third pair of diodes and a fourth pair of diodes connected in parallel with each other and in series between a second pair of switches, the third leg includes a fifth pair of diodes and a sixth pair of diodes connected in parallel with each other and in series between a third pair of switches, the first AC input is connected between the first pair of diodes and between the sixth pair of diodes, the second AC input is connected between the second pair of diodes and between the third pair of diodes, and the third AC input is connected between the fourth pair of diodes and between the fifth pair of diodes; and a controller to control operation of the three pairs of switches. 10. The converter of claim 9 , wherein the controller controls the switches to conduct current through two of the switches to the positive line and to conduct current through two different switches from the negative line. 11. The converter of claim 9 , wherein the controller determines a present phase sector from a plurality of phase sectors of the three AC inputs. 12. The converter of claim 9 , further comprising a sensor to measure at least one of voltages of the three AC inputs, DC inductor current, and DC capacitor voltage. 13. The converter of claim 9 , wherein the controller generates control signal sequences to selectably turn on or off the switches. 14. The converter of claim 13 , wherein the controller controls the duration of the control signal sequences based upon the voltage of the three AC inputs. 15. The converter of claim 9 , wherein at least one of the switches, the diodes, and the free-wheeling diode is a Silicon Carbide based device. 16. A method of generating a direct-current (DC) voltage comprising: receiving three-phase alternating-current (AC) voltages; based on the three-phase AC voltages, determining a present phase sector from a plurality of phase sectors; and generating, with a three-phase current source rectifier (CSR) having three AC inputs coupled to the three-phase AC voltages, two currents from a first of the three-phase AC voltages to a positive line of an output, and two currents from a negative line of the output to a second of the three-phase AC voltages, based on the present phase section, the CSR comprising: a free-wheeling diode, a first leg, a second leg, and a third leg connected in parallel between the positive line and the negative line, wherein the first leg includes a first pair of diodes and a second pair of diodes connected in parallel with each other and in series between a first pair of switches, the second leg includes a third pair of diodes and a fourth pair of diodes connected in parallel with each other and in series between a second pair of switches, the third leg includes a fifth pair of diodes and a sixth pair of diodes connected in parallel with each other and in series between a third pair of switches, the first AC input is connected between the first pair of diodes and between the sixth pair of diodes, the second AC input is connected between the second pair of diodes and between the third pair of diodes, and the third AC input is connected between the fourth pair of diodes and between the fifth pair of diodes; and a controller to control operation of the three pairs of switches. 17. The method of claim 16 , further comprising generating, with the controller, control sequences to selectably turn on and off the switches for controlling the current generation based on the present phase sector. 18. The method of claim 16 , wherein the current generation comprises controlling, with the controller, the switches to conduct current through two of the switches to the positive line and to conduct current through two different switches from the negative line.