Phase amplitude controller

What is claimed is: 1 . A transceiver comprising: a phase amplitude controller (PAC) comprising: a power splitter configured to provide two signals; a first variable phase shifter coupled to the power splitter and configured to phase shift a first signal of the two signals, wherein the first variable phase shifter is configured to provide a selected phase shift between zero and one hundred eighty degrees; a second variable phase shifter coupled to the power splitter and configured to phase shift a second signal of the two signals; and a power combiner coupled to the first variable phase shifter and the second variable phase shifter and configured to combine even modes of the first signal and the second signal while discarding odd modes of the first signal and the second signal such that phase and amplitude are adjusted based on phase shifts provided by the first variable phase shifter and the second variable phase shifter. 2 . The transceiver of claim 1 , wherein the first variable phase shifter comprises a six-bit phase shifter, wherein bits of the six-bit phase shifter indicate the selected phase shift. 3 . The transceiver of claim 1 , wherein the first variable phase shifter comprises an eight-bit phase shifter, wherein bits of the eight-bit phase shifter indicate the selected phase shift. 4 . The transceiver of claim 1 , wherein the first variable phase shifter comprises a switched line circuit. 5 . The transceiver of claim 1 , wherein the first variable phase shifter comprises a bridge T-type circuit. 6 . The transceiver of claim 1 , wherein the first variable phase shifter comprises a switched high pass low pass circuit. 7 . The transceiver of claim 1 , wherein the PAC does not include an attenuator. 8 . The transceiver of claim 1 , wherein the PAC further comprises a first adjustable attenuator serially positioned between the power splitter and the first variable phase shifter. 9 . The transceiver of claim 8 , wherein the PAC further comprises a second adjustable attenuator serially positioned between the power splitter and the second variable phase shifter. 10 . The transceiver of claim 8 , wherein the first adjustable attenuator has no more than three bits of adjustment available. 11 . The transceiver of claim 1 , wherein the power splitter comprises a Wilkinson power splitter. 12 . The transceiver of claim 1 , wherein the power combiner comprises a Wilkinson power combiner. 13 . An antenna panel configured to be coupled to a tower to provide wireless communication service to user equipment, the antenna panel comprising: a housing; a plurality of antenna elements on a front face of the housing; and a corresponding plurality of transceivers for respective ones of the plurality of antenna elements, wherein each of the corresponding plurality of transceivers comprises: a phase amplitude controller (PAC) comprising: a power splitter configured to provide two signals; a first variable phase shifter coupled to the power splitter and configured to phase shift a first signal of the two signals by a selected phase shift; a second variable phase shifter coupled to the power splitter and configured to phase shift a second signal of the two signals; and a power combiner coupled to the first variable phase shifter and the second variable phase shifter and configured to combine even modes of the first signal and the second signal while discarding odd modes of the first signal and the second signal such that phase and amplitude are adjusted based on phase shifts provided by the first variable phase shifter and the second variable phase shifter. 14 . The antenna panel of claim 13 , wherein respective phase and amplitudes of signals passing through the PACs may be adjusted for beam forming by the antenna panel. 15 . The antenna panel of claim 13 , wherein the first variable phase shifter comprises a six-bit phase shifter, wherein bits of the six-bit phase shifter indicate the selected phase shift. 16 . The antenna panel of claim 13 , wherein the PAC further comprises a first adjustable attenuator serially positioned between the power splitter and the first variable phase shifter. 17 . The antenna panel of claim 16 , wherein the PAC further comprises a second adjustable attenuator serially positioned between the power splitter and the second variable phase shifter. 18 . The antenna panel of claim 13 , further comprising a look-up table configured to provide settings for elements of the PAC. 19 . A method of adjusting phase and amplitude of a signal, comprising: splitting a signal using a power splitter into a first signal and a second signal; using a first variable phase shifter to adjust a first phase of the first signal; using a second variable phase shifter to adjust a second phase of the second signal; and combining the first signal and the second signal with a power combiner such that even modes of the first signal and the second signal are constructively summed while discarding odd modes of the first signal and the second signal such that phase and amplitude are adjusted based on phase shifts provided by the first variable phase shifter and the second variable phase shifter. 20 . The method of claim 19 , further comprising attenuating the first signal before adjusting the first phase.