Title :
Compact, flexible, wideband and efficient power combining technique for spatial applications
Author :
Fraysse, Jean-Philippe ; Raynaud, L. ; Lopez, D. ; Maignan, M. ; Soubercaze-Pun, Geoffroy ; Lapierre, L. ; Picard, N. ; Peden, Alain
Author_Institution :
THALES ALENIA SPACE, France
fDate :
Oct. 31 2012-Nov. 2 2012
Abstract :
This paper presents a new power combining technique for Solid State Power Amplifier. The compactness, the flexibility and the efficiency of this technique are underlined with the measurements of a back-to-back 8-way power combining network and several HPAs in the Ku-band. The measured combining losses are almost negligible from two to eight combined amplifier modules over a wide frequency range. The size of the 8-way HPA is 12.6cm × 6.2cm × 3.2cm. Its section is 3.6 times lower than the one of active antenna radiating element in the Ku-band. The 8-way HPA delivers an output power at 2dB compression gain higher than 30W with an associated Power Added Efficiency greater than 32% over 1GHz frequency bandwidth. The developed HPAs use proven technologies for space application.
Keywords :
power amplifiers; power combiners; 8-way HPA; Ku-band; active antenna radiating element; back-to-back 8-way power combining network; combined amplifier modules; compact flexible wideband combining technique; gain 2 dB; high power amplifiers; power added efficiency; power combining technique; solid state power amplifier; spatial combining applications; Antennas; Power amplifiers; Power generation; Power measurement; Rectangular waveguides; Solid modeling; Waveguide transitions; HPA; power combining; septum; spatial combining;
Conference_Titel :
Radar Conference (EuRAD), 2012 9th European
Conference_Location :
Amsterdam
Print_ISBN :
978-1-4673-2471-7
