Junfeng Rao, Xiuzhi Wang, Yonggang Wang, Zi Li, Song Jiang. Voltage droop compensation based on resonant circuit for solid-state Marx generators[J]. High Power Laser and Particle Beams, 2022, 34(7): 075005
- High Power Laser and Particle Beams
- Vol. 34, Issue 7, 075005 (2022)
Fig. 1. Unipolar SSMG with multi-stage voltage droop compensation
Fig. 2. Principle of resonant compensation
Fig. 3. Charging operating mode of the circuit
Fig. 4. Resonance process of the circuit
Fig. 5. Discharge operating mode of the circuit
Fig. 6. Discharge operating mode without compensation
Fig. 7. Recharging operating mode and progress of truncating the wave tail
Fig. 8. Drive signals of switches of the circuit
Fig. 9. A 16-stage Marx generator with 4 resonant voltage droop compensation stages
Fig. 10. Voltage waveforms with different voltage droop over (a) 400-Ω and (b) 5-kΩ resistive loads
Fig. 11. Voltage waveforms with voltage droop compensation over (a) 400-Ω and (b) 5-kΩ resistive loads
Fig. 12. Waveforms with different number of stages of resonant voltage droop compensation
Fig. 13. Waveform of the 2.5-kV output voltage after compensation and voltage of its capacitor Cres1
Fig. 14. Waveform of the 2.5-kV output voltage after compensation with different pulse widths
Fig. 15. Waveform of the 13.3-kV output voltage increased by 4 compensation stages
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