Add to ORKGAn analytical and experimental program to demonstrate the technical feasibility of a high efficiency coupled cavity traveling wave tube with periodic permanent magnetic focusing operating at 12.06 GHz, with 1 to 2 kilowatts CW power is described. Such a tube would ultimately be used for broadcasting power transmission from a satellite. The electron gun was designed to be demountable with a replaceable cathode, and the tube to be operable in a bakeable vacuum chamber with its collector replaced by a collector. Therefore, the high efficiency design was concerned with the slow wave structure only, utilizing velocity resynchronization. A special adapter was designed which incorporated an electromagnet refocusing section and a collector basepla...
The design and performance of a high efficiency 70 Watt, 59 to 64 GHz traveling-wave tube (TWT) is d...
The flight model output stage tube for the Communications Technology Satellite is described. The out...
The development of a 25 watt high efficiency travelingwave tube at 8.5 GHz for space communications ...
The design, development, and test results are reported for an experimental PPM focused, traveling-wa...
Design and performance of a highly efficient experimental 200-watt traveling wave tube for space com...
This final report presents the results of the design, development, and test of experimental and prod...
An analytical and experimental program to study design techniques and to utilize these techniques to...
Designs were formulated for four CW, millimeter wavelength traveling-wave tubes having high efficien...
An analytical and experimental program to demonstrate the technical feasibility of a lightweight, hi...
This program covers the initial design and development of a 75 watt, 60 GHz traveling-wave tube for ...
A 200 watt SHF transmitter experiment package is discussed that incorporates a traveling wave tube u...
Feasibility evaluations of klystron amplifiers for conversion of solar power in synchronous orbit in...
A brief survey is presented of areas of progress on traveling wave tube designs. Data demonstrates t...
Design study to develop high efficiency traveling wave tube amplifier for satellite television trans...
Design and operating characteristics of 100 watt, 50 percent efficient, S-band traveling wave tube f...
The design and performance of a high efficiency 70 Watt, 59 to 64 GHz traveling-wave tube (TWT) is d...
The flight model output stage tube for the Communications Technology Satellite is described. The out...
The development of a 25 watt high efficiency travelingwave tube at 8.5 GHz for space communications ...
The design, development, and test results are reported for an experimental PPM focused, traveling-wa...
Design and performance of a highly efficient experimental 200-watt traveling wave tube for space com...
This final report presents the results of the design, development, and test of experimental and prod...
An analytical and experimental program to study design techniques and to utilize these techniques to...
Designs were formulated for four CW, millimeter wavelength traveling-wave tubes having high efficien...
An analytical and experimental program to demonstrate the technical feasibility of a lightweight, hi...
This program covers the initial design and development of a 75 watt, 60 GHz traveling-wave tube for ...
A 200 watt SHF transmitter experiment package is discussed that incorporates a traveling wave tube u...
Feasibility evaluations of klystron amplifiers for conversion of solar power in synchronous orbit in...
A brief survey is presented of areas of progress on traveling wave tube designs. Data demonstrates t...
Design study to develop high efficiency traveling wave tube amplifier for satellite television trans...
Design and operating characteristics of 100 watt, 50 percent efficient, S-band traveling wave tube f...
The design and performance of a high efficiency 70 Watt, 59 to 64 GHz traveling-wave tube (TWT) is d...
The flight model output stage tube for the Communications Technology Satellite is described. The out...
The development of a 25 watt high efficiency travelingwave tube at 8.5 GHz for space communications ...