Implementation of Line Type High Voltage Nanosecond Rectangular Pulse Generator with Adjustable Pulse Widths for Liquid Discharge Applications

“…The other group of pulse forming circuits is based on the charge and discharge of the transmission lines. This is a common type of circuit topology for generation of high-voltage pulses with less than 100 ns duration [39,59]. As illustrated in Figure 8, the pulse forming circuit is composed of coaxial cable, which is used as a conductor of length l and charged through a resistor R to a voltage V. The transmission line discharge and pulse forming are controlled by the switch SW.…”

Concepts and Capabilities of In-House Built Nanosecond Pulsed Electric Field (nsPEF) Generators for Electroporation: State of Art

“…The other group of pulse forming circuits is based on the charge and discharge of the transmission lines. This is a common type of circuit topology for generation of high-voltage pulses with less than 100 ns duration [39,59]. As illustrated in Figure 8, the pulse forming circuit is composed of coaxial cable, which is used as a conductor of length l and charged through a resistor R to a voltage V. The transmission line discharge and pulse forming are controlled by the switch SW.…”

Concepts and Capabilities of In-House Built Nanosecond Pulsed Electric Field (nsPEF) Generators for Electroporation: State of Art

“…The other group of pulse forming circuits is based on the charge and discharge of the transmission lines. This is a common type of circuit topology for generation of high-voltage pulses with less than 100 ns duration (Redondo 2017;Deshpande et al 2019). As illustrated in Figure 1.10, the pulse forming circuit is composed of coaxial cable, which is used as a conductor of length l and charged through a resistor R to a voltage V. The transmission line discharge and pulse forming are controlled by the switch SW.…”

Research and development of the high-frequency square-wave pulse electroporation system