Variable load for reflection-type phase shifters

What is claimed is: 1. A phase-shifter, comprising: a hybrid quadrature coupler having an input, an output, and two termination loads, where each termination load comprises: a plurality of terminations, each comprising a varactor; one or more transmission lines separating the terminations; and a control module configured to determine a phase shift and gain to apply to the input and to independently control a capacitance of each varactor such that the output of the hybrid quadrature coupler is shifted by the determined phase shift relative to the input with the determined gain. 2. The phase shifter of claim 1 , wherein the gain is determined based on a constant output loss across phase shift variations. 3. The phase shifter of claim 1 , wherein each termination comprises a bypass capacitor arranged in series with the varactor. 4. The phase shifter of claim 1 , further comprising a lookup table that stores predetermined capacitance values for the varactors associated with phase shifts and gains. 5. The phase shifter of claim 4 , wherein the control module is further configured to read varactor values from the lookup table in accordance with the determined phase shift and gain to independently control the capacitance of each varactor. 6. A phase-shifter, comprising: a hybrid quadrature coupler having an input, an output, and two termination loads, wherein each termination load comprises: a plurality of terminations comprising a capacitor and a switch; one or more transmission lines separating the terminations; and a control module configured to determine a phase shift and gain to apply to the input and to independently control each switch such that the output of the hybrid quadrature coupler is shifted by the determined phase shift relative to the input with the determined gain. 7. The phase shifter of claim 6 , wherein the gain is determined based on a constant output loss across phase shift variations. 8. The phase shifter of claim 6 , wherein each termination comprises a varactor having a capacitance that is independently controlled by the control module to produce the determined phase shift. 9. The phase shifter of claim 8 , further comprising a lookup table that stores predetermined capacitance values for the varactors associated with phase shifts and gains. 10. The phase shifter of claim 9 , wherein the control module is further configured to read varactor values from the lookup table in accordance with the determined phase shift and gain to independently control the capacitance of each varactor. 11. The phase shifter of claim 6 , further comprising a lookup table that stores predetermined settings for the switches to produce the determined phase shift. 12. A communication device, comprising: a plurality of antennas, each antenna having an associated phase shifter comprising a hybrid quadrature coupler having an input, an output, and two termination loads, wherein each termination load comprises: a plurality of terminations comprising a varactor and a switch; one or more transmission lines separating the terminations; and a control module configured to determine a phase shift and gain to apply to the input and to independently control each switch and a capacitance of each varactor such that the output of the hybrid quadrature coupler is shifted by the determined phase shift relative to the input with the determined gain to produce a beam steering effect. 13. The communication device of claim 12 , wherein the gain is determined based on a constant output loss across phase shift variations. 14. The communication device of claim 12 , wherein each termination comprises a bypass capacitor arranged in series with the varactor. 15. The communication device of claim 12 , wherein the control module further comprises a lookup table that stores predetermined capacitance values for the varactors associated with phase shifts and gains. 16. The communication device of claim 15 , wherein the control module is further configured to read varactor values from the lookup table in accordance with the determined phase shift and gain to independently control the capacitance of each varactor. 17. The communication device of claim 12 , wherein the communication device is a transmitter. 18. The communication device of claim 12 , wherein the communication device is a receiver. 19. A method for phase shifting a signal, comprising: determining a phase shift and gain to apply to an input signal; and adjusting a capacitance for a plurality of varactors in each termination load in a hybrid quadrature coupler to produce a phase shifted output signal having the determined gain, said adjusting comprising: reading voltage values from a lookup table corresponding to the determined phase shift and gain to determine a voltage to apply to each of the plurality of varactors; and applying the voltage to each of the plurality of varactors to adjust the capacitance. 20. The method of claim 19 , further comprising phase receiving a plurality of signals, each corresponding to one of a plurality of antennas, such that each of the plurality of signals is phase shifted in accordance with a beam steering direction. 21. The method of claim 19 , wherein the determined phase shift corresponds to a beam steering direction.