Title :
Groundbreaking helix slow-wave structures with diamond heat sinks for power TWTs
Author :
Galdetskiy, A.V.
Author_Institution :
´´RPC Istok´´ Fed. State-Owned Unitary Enterprise, Moscow Region, Russia
Abstract :
The helical slow-wave structure (HSWS) is the pioneering and prevailing type of slow-wave structure for traveling-wave tubes. One serious drawback found in the conventional HSWS is low heat removal, which limits tube output power. Attempts at improving heat removal by employing soldered helixes or support rods made of beryllium oxide or diamonds usually result in very complicated production processes and higher costs. Apart from that, the net effect is less than expected. For diamond support rods this is due in particular to the small surface and large thermal resistance in the area of the helix in contact with the rod. We propose a new design and technology for manufacturing HSWS employing CVD diamonds. The proposed design offers excellent thermal properties and high interaction impedance over extensive bandwidths.
Keywords :
chemical vapour deposition; cooling; diamond; heat sinks; slow wave structures; CVD diamonds; diamond heat sinks; heat removal; helical slow-wave structures; interaction impedance; power TWT; thermal properties; traveling-wave tubes; Bandwidth; Contact resistance; Costs; Heat sinks; Manufacturing; Power generation; Production; Surface impedance; Surface resistance; Thermal resistance;
Conference_Titel :
Microwave and Telecommunication Technology, 2004. CriMico 2004. 2004 14th International Crimean Conference on
Print_ISBN :
966-7968-69-3
DOI :
10.1109/CRMICO.2004.183155
