Multi-element antenna beam forming configurations for millimeter wave systems

What is claimed is: 1. An apparatus, comprising a transmitter configured to: modulate first and second radio frequency (RF) signals with respective first and second baseband signals; split each of the first and second modulated RF signals into multiple components; phase shift the components of the first modulated RF signal relative to one another; phase shift the components of the second modulated RF signal relative to one another; and output the phase shifted components of the first and second modulated RF signals to elements of an antenna to radiate the first modulated RF signal from the elements of the antenna in a first pattern and to radiate the second modulated RF signal from the elements of the antenna in a second pattern. 2. The apparatus of claim 1 , wherein the transmitter is further configured to process the first and second baseband signals concurrently to radiate the first and second modulated RF signals concurrently with respect to one another. 3. The apparatus of claim 1 , wherein the transmitter is further configured to process the first and second baseband signals sequentially with respect to one another to radiate the first and second modulated RF signals sequentially with respect to one another. 4. The apparatus of claim 1 , wherein: the transmitter includes programmable phase shifters to phase shift the components of the first and second modulated RF signals; and the apparatus further includes an integrated circuit device that includes the transmitter, the antenna, and a controller to control the programmable phase shifters. 5. The apparatus of claim 4 , wherein the transmitter and antenna are configured to radiate the first and second modulated RF signals as millimeter wavelength RF signals. 6. The apparatus of claim 1 , wherein the transmitter includes: first and second frequency converters to modulate the first and second RF signals with the respective first and second baseband signals; first and second signal power splitters, each to split a respective one of the first and second modulated RF signals into the multiple components; a first phase shifter to phase shift the components of the first modulated RF signal relative to one another; a second phase shifter to phase shift the components of the second modulated RF signal relative to one another; and multiple signal combiners, each to receive a phase shifted component of each of the first and second modulated RF signals; wherein the transmitter is further configured to provide an output of each of the signal combiners to a respective element of the antenna. 7. The apparatus of claim 1 , further including a receiver configured to: split a receive output of each element of the antenna into first and second receive components; phase shift the first components relative to one another; combine the phase shifted first components to provide a first RF receive signal; demodulate a first baseband receive signal from the first RF receive signal; phase shift the second components relative to one another; combine the phase shifted second components to provide a second RF receive signal; and demodulate a second baseband receive signal from the second RF receive signal. 8. The apparatus of claim 7 , further including an integrated circuit device that includes the transmitter, the receiver, and the antenna to radiate and receive millimeter wavelength RF signals. 9. An apparatus, comprising a receiver that includes: multiple signal splitters, each to receive an output of a respective one of multiple elements of an antenna; a first receive path to receive a first output of each of the signal splitters, phase shift the first outputs relative to one another, combine the phase shifted first outputs to provide a first RF receive signal, and demodulate a first baseband receive signal from the first RF receive signal; and a second receive path to receive a second output of each of the signal splitters, phase shift the second outputs relative to one another, combine the phase shifted second outputs to provide a second RF receive signal, and demodulate a second baseband receive signal from the second RF receive signal. 10. The apparatus of claim 9 , wherein: the first and second receive paths each includes programmable phase shifters to phase shift the respective outputs of the signal splitters; and the apparatus further includes an integrated circuit device that includes the receiver, the antenna, and a controller to control the programmable phase shifters. 11. A method, comprising: modulating first and second radio frequency (RF) signals with respective first and second baseband signals; splitting each of the first and second modulated RF signals into multiple components; phase shifting the components of the first modulated RF signal relative to one another; phase shifting the components of the second modulated RF signal relative to one another; and outputting the phase shifted components of the first and second modulated RF signals a multi element antenna to radiate the first modulated RF signal from the elements of the antenna in a first pattern and to radiate the second modulated RF signal from the elements of the antenna in a second pattern. 12. The method of claim 11 , further including processing the first and second baseband signals concurrently to radiate the first and second modulated RF signals concurrently with respect to one another. 13. The method of claim 11 , further including processing the first and second baseband signals sequentially with respect to one another to radiate the first and second modulated RF signals sequentially with respect to one another. 14. The method of claim 11 , wherein the phase shifting the components of the first modulated RF signal and the phase shifting the components of the second modulated RF signal each includes phase shifting the components of the respective modulated RF signal based on programmable phase shift parameters. 15. The method of claim 11 , further including: splitting a receive output of each of the elements of the antenna into first and second receive components; phase shifting the first receive components with respect to one another; combining the phase shifted first components to provide a first RF receive signal; demodulating a first baseband receive signal from the first RF receive signal; phase shifting the second receive components with respect to one another; combining the phase shifted second components to provide a second RF receive signal; and demodulating a second baseband receive signal from the second RF receive signal. 16. A method of concurrently recovering multiple baseband signals from radio frequency (RF) energy received at a phased array antenna, comprising: splitting RF energy received by each of multiple radiation elements of the antenna into first and second portions of RF energy, in respective power splitters; phase shifting the first portions of RF energy relative to one another based on a first beam pattern, in a first beam former; phase shifting the second portions of RF energy relative to one another based on a second beam pattern, in a second beam former, concurrently with the phase shifting the first portions of RF energy; combining the phase shifted first portions of RF energy to provide a first RF signal, in the first beam former; combining the phase shifted second portions of RF energy to provide a second RF signal, in the second phased array beam former, concurrently with the combining the phase shifted first portions of RF energy; demodulating the first and second RF signals in a demodulator