Wideband power combining of Ka-band microfabricated traveling wave tubes

2016 Asia-Pacific Microwave Conference (APMC) Pub Date : 2016-12-01 DOI:10.1109/APMC.2016.7931449
Shaomeng Wang, S. Aditya
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Abstract

Wideband power combining of two Ka-band traveling wave tubes (TWTs) is reported. The TWTs are based on a configuration of planar helix slow-wave structure (SWS) with straight-edge connections (PH-SEC) that can be microfabricated. WR-28 waveguides are used as the input and output ports. A wideband transition between waveguide and PH-SEC enables wideband power division and power combining. Transient simulations of two 150-period SWSs with waveguide power divider and combiner show that in the frequency range 26.5 GHz ∼ 35.5 GHz, S11 is less than −20 dB and S21 is better than − 5.5 dB. Using two 3.7 KV and 10 mA electron beams, the PIC simulation results show that the gain can reach 31 dB at 30 GHz, with a 3-dB bandwidth of 23 % centered at 30.5 GHz.
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ka波段微加工行波管的宽带功率组合
报道了两个ka波段行波管的宽带功率合并。行波管是基于平面螺旋慢波结构(SWS)的配置,具有直边连接(PH-SEC),可以微加工。WR-28波导用作输入和输出端口。波导和PH-SEC之间的宽带转换实现了宽带功率划分和功率组合。对两种带波导功率分配器和合并器的150周期SWSs的瞬态仿真表明,在26.5 GHz ~ 35.5 GHz的频率范围内,S11小于−20 dB, S21优于−5.5 dB。利用两个3.7 KV和10 mA的电子束,PIC仿真结果表明,在30 GHz时增益可达31 dB,在30.5 GHz中心处的3 dB带宽为23%。
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2016 Asia-Pacific Microwave Conference (APMC)
2016 Asia-Pacific Microwave Conference (APMC)
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