Add to ORKGThe design and performance of a high efficiency 70 Watt, 59 to 64 GHz traveling-wave tube (TWT) is described. This intersatellite communications TWT, designated the Hughes Aircraft Company Model 961HA, employs a coupled-cavity slow-wave structure with a two-step velocity taper and a four-stage isotropic graphite multistage depressed collector (MDC). This TWT achieved outstanding beam transmission, 96% with RF. This is the highest power and widest bandwidth device of this type. The tube has 45 dB of gain and 30% efficiency. This TWT is conduction cooled and weighs 13 lbs
Design and performance characteristics of high efficiency WJ-274 traveling wave tube for spacecraft ...
An analytical and experimental program to demonstrate the technical feasibility of a high efficiency...
Three simple small size two stage depressed collectors were designed and experimentally evaluated in...
This program covers the initial design and development of a 75 watt, 60 GHz traveling-wave tube for ...
A 75 watt CW high efficiency helix TWT operating at 20 GHz was developed for satellite communication...
Design and operating characteristics of 100 watt, 50 percent efficient, S-band traveling wave tube f...
Design and performance of a highly efficient experimental 200-watt traveling wave tube for space com...
The design, development, and test results are reported for an experimental PPM focused, traveling-wa...
Designs were formulated for four CW, millimeter wavelength traveling-wave tubes having high efficien...
A computational design technique for coupled-cavity tubes (TWTs) equipped with spent-beam refocusers...
The development of a 25 watt high efficiency travelingwave tube at 8.5 GHz for space communications ...
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...
Twenty watt traveling wave tube amplifier design suitable for spacecraft application
A design has been made of a 100 watt traveling-wave tube amplifier for use in space communication ap...
Design and performance characteristics of high efficiency WJ-274 traveling wave tube for spacecraft ...
An analytical and experimental program to demonstrate the technical feasibility of a high efficiency...
Three simple small size two stage depressed collectors were designed and experimentally evaluated in...
This program covers the initial design and development of a 75 watt, 60 GHz traveling-wave tube for ...
A 75 watt CW high efficiency helix TWT operating at 20 GHz was developed for satellite communication...
Design and operating characteristics of 100 watt, 50 percent efficient, S-band traveling wave tube f...
Design and performance of a highly efficient experimental 200-watt traveling wave tube for space com...
The design, development, and test results are reported for an experimental PPM focused, traveling-wa...
Designs were formulated for four CW, millimeter wavelength traveling-wave tubes having high efficien...
A computational design technique for coupled-cavity tubes (TWTs) equipped with spent-beam refocusers...
The development of a 25 watt high efficiency travelingwave tube at 8.5 GHz for space communications ...
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...
Twenty watt traveling wave tube amplifier design suitable for spacecraft application
A design has been made of a 100 watt traveling-wave tube amplifier for use in space communication ap...
Design and performance characteristics of high efficiency WJ-274 traveling wave tube for spacecraft ...
An analytical and experimental program to demonstrate the technical feasibility of a high efficiency...
Three simple small size two stage depressed collectors were designed and experimentally evaluated in...