[2] Vikharev A L, Petelin M I, Pavelyev V G, et al. High power microwave pulse compresss[C]4th IEEE International Conference on Vacuum Electronics. 2003: 53.
[3] Yushkov Y G, Artemenko S N, Novikov S N, et al. Development of microwave pulse compresss[C]9th RussianKean International Symposium on Science Technology. 2005: 838842.
[4] Brown P, Syratchev I. 3 GHz barrel open cavity (BOC) RF pulse compress f CTF3[C]IEEE MTTS International Microwave Symposium. 2004: 10091012.
[5] Artemenko S N, Igumnov V S, Shlapakovsky A S. Compact active S-band microwave compressors for producing rectangular pulses of up to 100ns[J]. IEEE Trans Microwave Theory and Techniques, 67, 597-605(2019).
[7] Xiong Z F, Cheng C, Yu J. Switching speed effect of phase shifter keying in SLED for generating high power microwaves[J]. Chinese Physics C, 40, 1-5(2016).
[8] Farkas Z D, Hogg H A. SLED: A method of doubling SLAC’s energy[R]. SLACPUB1453.
[10] Pei S L, Li X P, Xiao O Z. Error and jitter effect studies on the SLED for the BEPCⅡ-linac[J]. Chinese Physics C, 36, 456-463(2012).
[11] Sherman V, Setter N, Tagantsev A. Digital reflection-type phase shifter based on a ferroeletric planar capacitor[J]. IEEE Microwave and Wireless Components Letters, 11, 407-409(2001).
[12] Glance B. A fast low-loss microstrip p-i-n phase shifter[J]. IEEE Trans Microwave Theory and Techniques, 27, 14-16(1979).
[13] Glance B, Amitay N. A fast-switching low-loss 12-GHz microstrip 4-PSK path length modulator[J]. IEEE Trans Communications, 28, 1824-1828(1980).
[14] Chongcheawchamnan M, Bunnjaweht S, Kpogla D. Microwave I-Q vector modulator using a simple technique for compensation of FET parasitics[J]. IEEE Trans Microwave Theory and Techniques, 50, 1642-1646(2002).