Title :
Circuit design of a wideband W-band gyroklystron amplifier for radar applications
Author :
Blank, Monica ; Danly, Bruce G. ; Levush, Baruch
Author_Institution :
Vacuum Electron. Branch, Naval Res. Lab., Washington, DC, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
A high power W-band gyroklystron amplifier has been designed as the driver for a millimeter wave radar system currently under development at the Naval Research Laboratory. A time dependent, nonlinear theory was used to design the interaction circuit. Studies to determine the optimal stagger tuning and cavity Q values were performed. Circuit stability was investigated and the effect of beam parameter variation on circuit performance was also studied. The effects of mechanical tolerances and deviation of circuit dimensions from design values were examined. Simulations show that a four cavity circuit operating in the TE011 mode at the fundamental of the cyclotron frequency can achieve 80.2 kW peak output power and 20.6% efficiency at a center frequency of 94.0 GHz with 740 MHz full width half maximum (FWHM) bandwidth for a 65 kV, 6 A electron beam
Keywords :
circuit stability; gyrotrons; klystrons; microwave amplifiers; network synthesis; radar equipment; 20.6 percent; 6 A; 65 kV; 740 MHz; 80.2 kW; 94.0 GHz; Naval Research Laboratory; TE011 mode; beam parameter variation; cavity Q values; center frequency; circuit design; circuit dimensions; circuit performance; circuit stability; cyclotron frequency; four cavity circuit; full width half maximum bandwidth; high power amplifier; interaction circuit; millimeter wave radar system; optimal stagger tuning; peak output power; radar applications; time dependent nonlinear theory; wideband W-band gyroklystron amplifier; Broadband amplifiers; Circuit optimization; Circuit synthesis; Driver circuits; Frequency; High power amplifiers; Klystrons; Laboratories; Millimeter wave circuits; Millimeter wave radar;
Journal_Title :
Plasma Science, IEEE Transactions on
