Title :
A 500-W coupled-cavity TWT for Ka-band communication
Author :
Legarra, James R. ; Cusick, Jennifer ; Begum, Rasheda ; Kolda, Peter ; Cascone, Michael
Author_Institution :
Commun. & Power Industries, Palo Alto, CA, USA
fDate :
5/1/2005 12:00:00 AM
Abstract :
Worldwide demand for high-power amplifiers for digital satellite communication at Ka-band frequencies between 27 and 31 GHz is steadily increasing (2003). Communication and Power Industries (CPI) has developed a 500-W periodic permanent magnet focused coupled-cavity traveling wave tube (TWT) for conduction-cooled amplifier systems, which is being introduced into the commercial satellite communication market. The TWT is capable of greater than 500-MHz instantaneous bandwidth and is cathode voltage tunable from 28.3 to 30 GHz. The TWT may be operated saturated at the 500-W output power level or backed off from saturation in the linear mode. CPI´s Satcom Division has integrated the TWT into a conduction-cooled transmitter box suitable for antenna hub-mount applications. The amplifier uses predistortion networks to provide a high degree of linear response when operated in output power back-off mode.
Keywords :
cooling; microwave amplifiers; permanent magnets; satellite communication; travelling wave amplifiers; travelling wave tubes; 27 to 31 GHz; 500 W; Ka-band communication; antenna hub-mount; commercial satellite communication market; conduction-cooled amplifier systems; coupled-cavity traveling wave tube; digital satellite communication; high-power amplifiers; microwave amplifiers; permanent magnet focused TWT; transmitter box; Bandwidth; Cathodes; Couplings; Frequency; High power amplifiers; Permanent magnets; Power amplifiers; Power generation; Power industry; Satellite communication; Coupled-cavity traveling wave tube (CCTWT); microwave amplifiers; traveling wave tubes (TWT); vacuum electron devices;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.845867
