True time phase shifter for MM-wave radio

What is claimed is: 1. A real-time phase shifter, comprising: a first meandering transmission line having a first input configured to receive a first input signal and a first output configured to provide a first output signal, the first meandering transmission line being formed of a single continuous conductor between the first input and the first output; and a plurality of switches configured to adjust an effective electrical length of the first meandering transmission line, each of the plurality of switches being configured to directly connect two points of the first meandering transmission line, wherein the first meandering transmission line is configured to form a plurality of segments and wherein each segment of the plurality of segments includes at least one of the plurality of switches configured to control the effective electrical length of the first meandering transmission line within the segment by directly connecting two points of the first meandering transmission line in the segment, and wherein each segment provides a portion of a phase shift of the real-time phase shifter. 2. The phase shifter of claim 1 , wherein the plurality of segments are each formed from a “U-shaped” portion of the first meandering transmission line and are cascaded, wherein the plurality of switches are arranged interior to each of the plurality of segments to shorten the “U-shaped” portion when closed. 3. The phase shifter of claim 1 , wherein each of the plurality of segments includes a plurality of loops formed in the first meandering transmission line, wherein one of the plurality of switches is positioned at each intersection of the first meandering transmission line linking adjoining loops in each segment, the switches in each of the plurality of segments determining a number of the plurality of loops in that segment that are engaged to carry current, thereby controlling a length of the segment by controlling a number of loops engaged in each segment. 4. The phase shifter of claim 3 , wherein adjoining loops of the plurality of loops in each of the plurality of segments that are engaged carry current in opposite directions, thereby canceling fields generated by each of the plurality of loops in each of the plurality of segments. 5. The phase shifter of claim 1 , wherein the plurality of segments include a first set of segments and a second set of segments, each of the second set of segments being a mirror image of one of the first set of segments and the second set of segments are positioned relative to the first set of segments such that a segment from the first set of segments is positioned relative to the corresponding mirror image of the second set of segments to reduce coupling between segments of the plurality of segments. 6. The phase shifter of claim 1 , wherein each of the at least one of the plurality of switches positioned within each of the plurality of segments has an off capacitance such that a capacitance of each segment is changed when each of the plurality of switches is turned on or turned off. 7. The phase shifter of claim 6 , wherein a real impedance of each of the plurality of segments provides a desired effective impedance of the phase shifter. 8. The phase shifter of claim 7 , wherein a switch size and a width of the first meandering transmission line is varied along the first meandering transmission line to optimize an impedance to maintain the desired effective impedance across phase states. 9. The phase shifter of claim 1 , wherein a switching sequence of the plurality of switches is configured to provide the portion of the phase shift for each segment. 10. The phase shifter of claim 9 , wherein the configuration of the plurality of switches includes optimizing a characteristic impedance according to a defined cost function. 11. The phase shifter of claim 1 , further including an active phase inverter coupled to the first meandering transmission line. 12. The phase shifter of claim 1 , further including a second meandering transmission line having a second input receiving a second input signal and a second output configured to provide a second output signal, the second meandering transmission line being formed of a second single continuous conductor between the second input and the second output; and a plurality of second switches configured to adjust a second effective electrical length of the second meandering transmission line, each of the plurality of switches being configured to directly connect two points of the second meandering transmission line, wherein the second meandering transmission line is configured to form a plurality of segments and wherein each segment of the plurality of segments includes at least one of the plurality of second switches configured to control the effective electrical length of the second meandering transmission line with the segment by directly connecting two points of the second meandering transmission line in the segment, wherein the first input signal and the second input signal are a differential input signal, and wherein the first output signal and the second output signal form a differential output signal. 13. The phase shifter of claim 12 , wherein the first meandering transmission line and the second meandering transmission lines are mirror images of each other. 14. The phase shifter of claim 12 , wherein an inverting cross-switch is coupled to the phase shifter. 15. The phase shifter of claim 12 , wherein the phase shifter formed by the first meandering transmission line and the second meandering transmission line is bi-directional and is coupled to a bi-directional buffer, the bi-directional buffer providing transmission signals for transmission in an antenna array and receiving receive signals from the antenna array. 16. The phase shifter of claim 12 , wherein the first meandering transmission line and the second meandering transmission line form a true time phase shifter. 17. The phase shifter of claim 16 wherein the true time phase shifter is coupled to an active phase inverter. 18. A method for processing a millimeter wave communication signal in a phase-array antenna, comprising determining a phase shift appropriate for the millimeter wave communication signal; determining configuration of a plurality of switches configured to adjust an effective electrical length of a first meandering transmission line configured to receive the millimeter wave communication signal; and setting the plurality of switches with the configuration phase shift, wherein the first meandering transmission line is formed of a single continuous conductor between the first input and the first output, and wherein each of the plurality of switches is configured to directly connect two points of the first meandering transmission line, and wherein the first meandering transmission line is configured to form a plurality of segments and wherein each segment of the plurality of segments includes at least one of the plurality of switches configured to control the effective electrical length of the first meandering transmission line within the segment by directly connecting two points of the first meandering transmission line in the segment, and wherein each segment provides a portion of a phase shift of the real-time phase shifter. 19. A phase shifter, comprising: a meandering transmission line, the meandering transmission line being formed of a single continuous conductor between a first input and a first output; and means for controlling an effective electrical length of the meandering transmissio