Solid state traveling wave amplifier for space applications

What is claimed is: 1. An apparatus comprising: a power combining arrangement including an input divider waveguide and a serially fed output combiner waveguide, and at least a first solid-state amplifier and a second solid-state amplifier; wherein one or both of the divider waveguide in the combiner waveguide is configured to operate in the TE10 mode; the power combining arrangement is configured to amplify RF energy having a characteristic wavelength λ; the first amplifier has a first input terminal electrically coupled with a first output port of the divider waveguide and the second amplifier has a second input terminal electrically coupled with a second output port of the divider waveguide, the first output port and the second output port being separated by a first distance corresponding to a phase delay Ø 1 , the first distance being selected substantially independently of the characteristic wavelength λ; one or more of the first output port, the second output port, the first input port and the second input port are hermetic RF transition ports disposed so as to extend through a wall of the divider waveguide; and the first amplifier has a first output terminal electrically coupled with a first input port of the combiner waveguide and the second amplifier has a second output terminal electrically coupled with a second input port of the combiner waveguide, the first input port and the second input port being separated by the first distance corresponding to the phase delay Ø 1 . 2. The apparatus of claim 1 , wherein Ø 1 is not an integer multiple of λ/2. 3. The apparatus of claim 1 , wherein Ø 1 is less than λ/2. 4. The apparatus of claim 1 , wherein the first amplifier and the second amplifier have substantially identical phase delay characteristics. 5. The apparatus of claim 1 , wherein each of the first amplifier and the second amplifier is configured as a monolithic microwave integrated circuit (MMIC). 6. The apparatus of claim 1 , wherein one or more of the first input terminal, second input terminal, first output terminal and the second output terminal is a microstrip. 7. The apparatus of claim 1 , wherein the hermetic RF transition ports are configured to provide a power loss of less than 0.5 dB. 8. The apparatus of claim 1 , wherein: the first input terminal is electrically coupled with the first output port of the divider waveguide only by a first coupling path; the second input terminal is electrically coupled with the second output port of the divider waveguide only by a second coupling path; the first output terminal is electrically coupled with the first input port of the combiner waveguide only by a third coupling path; the second output terminal is electrically coupled with the second input port of the combiner waveguide only by a fourth coupling path; and each of the first coupling path, the second coupling path, the third coupling path and the fourth coupling path excludes directional couplers. 9. The apparatus of claim 1 , wherein one or both of the divider waveguide in the combiner waveguide is configured to operate in the TE10 mode. 10. An apparatus comprising: a power combining arrangement including an input divider waveguide and a serially fed output combiner waveguide, and at least a first solid-state amplifier and a second solid-state amplifier; wherein one or both of the divider waveguide in the combiner waveguide is configured to operate in the TE10 mode; the first amplifier has a first input terminal electrically coupled with a first output port of the divider waveguide and the second amplifier has a second input terminal electrically coupled with a second output port of the divider waveguide, the first output port and the second output port being separated by a first distance corresponding to a phase delay Ø 1 ; the first amplifier has a first output terminal electrically coupled with a first input port of the combiner waveguide and the second amplifier has a second output terminal electrically coupled with a second input port of the combiner waveguide, the first input port and the second input port being separated by the first distance corresponding to the phase delay Ø 1 ; one or more of the first output port, the second output port, the first input port and the second input port are hermetic RF transition ports disposed so as to extend through a wall of the divider waveguide; and each of the first amplifier and the second amplifier is configured as a monolithic microwave integrated circuit (MMIC). 11. The apparatus of claim 10 , wherein the first amplifier and the second amplifier have substantially identical phase delay characteristics. 12. The apparatus of claim 10 , wherein each hermetic RF transition port is configured to provide a power loss of less than 0.5 dB. 13. The apparatus of claim 10 , wherein: the first input terminal is electrically coupled with the first output port of the divider waveguide only by a first coupling path; the second input terminal is electrically coupled with the second output port of the divider waveguide only by a second coupling path; the first output terminal is electrically coupled with the first input port of the combiner waveguide only by a third coupling path; the second output terminal is electrically coupled with the second input port of the combiner waveguide only by a fourth coupling path; and each of the first coupling path, the second coupling path, the third coupling path and the fourth coupling path excludes directional couplers. 14. The apparatus of claim 10 , the power combining arrangement is configured to amplify RF energy having a characteristic wavelength λ and the first distance is selected substantially independently of the characteristic wavelength λ. 15. The apparatus of claim 14 , wherein Ø 1 is not an integer multiple of λ/2. 16. The apparatus of claim 14 , wherein Ø 1 is less than λ/2. 17. An apparatus comprising: a power combining arrangement including an input divider waveguide and a serially fed output combiner waveguide, and at least a first solid-state amplifier and a second solid-state amplifier; wherein one or both of the divider waveguide in the combiner waveguide is configured to operate in the TE10 mode; the first amplifier is electrically coupled with a first output port of the divider waveguide only by a first coupling path, and the second amplifier is electrically coupled with a second output port of the divider waveguide only by a second coupling path, the first output port and the second output port being separated by a first distance corresponding to a phase delay Ø 1 ; the first amplifier is electrically coupled with a first input port of the combiner waveguide only by a third coupling path and the second amplifier is electrically coupled with a second input port of the combiner waveguide only by a fourth coupling path, the first input port and the second input port being separated by the first distance corresponding to the phase delay Ø 1 ; one or more of the first output port, the second output port, the first input port and the second input port are hermetic RF transition ports disposed so as to extend through a wall of the divider waveguide; and each of the first coupling path, the second coupling path, the third coupling path and the fourth coupling path excludes directional couplers. 18. The apparatus of claim 17 , the power combining arrangement is configured to amplify RF energy having a characteristic wavelength λ and the first distance is selected substantially independently of the characteristic wavel