Systems and methods for high power microwave combining and switching

What is claimed is: 1. A system, the system comprising: a plurality of inputs, wherein there are M inputs in the plurality of inputs; a plurality of power dividers, wherein there are M power dividers in the plurality of power dividers; a plurality of phase shifters, wherein there are N phase shifters in the plurality of phase shifters and N is a multiple of two times M, wherein the plurality of power dividers are configured to divide and couple signals received by the plurality of inputs to respective N/M phase shifters of the plurality of phase shifters such that each phase shifter in the plurality of phase shifters only receives signals from the respective input and wherein the phase shifters of the plurality of phase shifters are configured to be controllable to either a reference phase state 0° or a reference phase state 180°; a plurality of outputs; and an N:N Butler matrix coupled between outputs of the N phase shifters in the plurality of phase shifters and the plurality of outputs, wherein each of the outputs of the N phase shifters is coupled to an input of the N:N Butler matrix. 2. The system of claim 1 , wherein the plurality of outputs comprises N outputs. 3. The system of claim 1 , wherein a signal received through the plurality of inputs is divided by one or more 3 dB couplers, wherein one input of the 3 dB coupler is coupled to a matched load and another input is coupled to one of an input in the plurality of inputs or an output from another 3 dB coupler. 4. The system of claim 1 , wherein the plurality of inputs receive signals from a plurality of travelling wave tube amplifiers. 5. The system of claim 1 , wherein the plurality of outputs connect to a plurality of antennas in an antenna array. 6. The system of claim 5 , wherein the plurality of phase shifters are controllable to route the propagation of signals through the N:N Butler matrix to specific antennas in the plurality of antennas. 7. A method for combining signals, the method comprising: receiving a plurality of signals through a plurality of inputs; distributing each signal in the plurality of signals to a set of phase shifters in a plurality of phase shifters, wherein there are a multiple of two times as many phase shifters in the plurality of phase shifters as there are inputs in the plurality of inputs and the number of phase shifters in the set of phase shifters is equal to the number of phase shifters in the plurality of phase shifters divided by the number of inputs in the plurality of inputs, wherein each phase shifter in the plurality of phase shifters only receives a distributed signal from one input, wherein the phase shifters ( 106 ) are configured to be controllable to either a reference phase state 0° or to a reference phase state 180°; and routing signals output from the plurality of phase shifters through a Butler matrix to a plurality of outputs by controlling the phase shifts of the plurality of phase shifters. 8. The method of claim 7 , wherein distributing each signal in the plurality of signals comprise routing the signal through one or more 3 dB couplers, wherein one input of the 3 dB coupler is coupled to a matched load and another input is coupled to one of an input in the plurality of inputs or an output from another 3 dB coupler. 9. The method of claim 7 , wherein the plurality of signals are received from a plurality of travelling wave tube amplifiers. 10. The method of claim 7 , further comprising providing the signals to a plurality of antennas in an antenna array, wherein the plurality of outputs connect to the plurality of antennas. 11. The method of claim 10 , wherein the signals output from the plurality of phase shifters are routed to specific antennas in the plurality of antennas. 12. A combining and switching system, the system comprising: a plurality of inputs, wherein the plurality of inputs receive radio frequency signals; a plurality of power dividers coupled to the plurality of inputs; a plurality of phase shifters, wherein there are a multiple of two times as many phase shifters in the plurality of phase shifters as there are inputs in the plurality of inputs, wherein each power divider in the plurality of power dividers distributes a signal received through an input in the plurality of inputs to a set of phase shifters, wherein the number of phase shifters in the set of phase shifters is equal to the number of phase shifters in the plurality of phase shifters divided by the number of inputs in the plurality of inputs, wherein each phase shifter in the plurality of phase shifters only receives a distributed signal from one input in the plurality of inputs, wherein the phase shifters are configured to be controllable to either a reference phase state 0° or to a reference phase state 180°; a Butler matrix coupled to outputs for the plurality of phase shifters, wherein the Butler matrix routes signals received from the phase shifters to a plurality of outputs. 13. The system of claim 12 , wherein a signal received through the plurality of inputs is divided by one or more 3 dB couplers, wherein one input of the 3 dB coupler is coupled to a matched load and another input is coupled to one of an input in the plurality of inputs or an output from another 3 dB coupler. 14. The system of claim 12 , wherein the plurality of inputs receive signals from a plurality of travelling wave tube amplifiers. 15. The system of claim 12 , wherein the plurality of outputs connect to a plurality of antennas in an antenna array, wherein the plurality of phase shifters are controllable to route the propagation of signals through the Butler matrix to specific antennas in the plurality of antennas.