Title :
Compact probe design for power monitoring from the narrow side of the reduced height waveguide
Author :
Kung, C. ; Bernabei, S. ; Gumbas, J. ; Greenough, N. ; Fredd, E.
Author_Institution :
Plasma Phys. Lab., Princeton Univ., NJ, USA
Abstract :
Due to confined space in a stack of reduced height waveguides, power detection of the incident and reflected wave in the reduced height waveguide is extremely difficult. A new compact probe to monitor the incident and reflected wave from the narrow side of the reduced height waveguide has been developed. This compact probe consists of 2 current loops, a directional coupler, and a small trimmer capacitor. The two current loops are placed on the narrow side of the waveguide with a quarter guide wavelength (λg/4) spacing. The outputs of the current loops are connected to the directional coupler. In order to optimize phase adjustment, a trimmer capacitor is attached in series with one of the current loops. Test results show that more than 30 dB directivity at 4.6 GHz is achieved by using this compact probe.
Keywords :
Tokamak devices; directional couplers; fusion reactor design; fusion reactor instrumentation; optimisation; plasma filled waveguides; plasma hybrid waves; plasma probes; plasma toroidal confinement; power measurement; 4.6 GHz; LHCD; compact probe design; confined space; current loops; directional coupler; directivity; fusion reactors; lower hybrid current drive; narrow side; phase adjustment optimization; power detection; power monitoring; quarter guide wavelength; reduced height waveguide; small trimmer capacitor; tokamaks; Capacitors; Directional couplers; Impedance; Monitoring; Plasma confinement; Power cables; Power transmission lines; Probes; Testing; Tokamaks;
Conference_Titel :
Fusion Engineering, 2002. 19th Symposium on
Print_ISBN :
0-7803-7073-2
DOI :
10.1109/FUSION.2002.1027692
