2006
DOI: 10.1088/0957-0233/17/7/n01
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A fast high-voltage pulse generator with variable amplitude and duration

Abstract: A high-voltage pulse generator based on a self-matched transmission line with variable pulse amplitude and duration is developed. Two avalanche transistor stacks are used as switches. The pulse width is varied by adjusting the delay in triggering two switches whereas amplitude is adjusted by adjusting load resistance. A pulse with amplitude of 800 V to 3.8 kV and width of 5 ns to 38 ns can be obtained using this circuit.

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Cited by 11 publications
(5 citation statements)
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“…One of the most popular solutions dedicated to high-power drivers utilizes single switching devices [1,2,6,7]. For this reason, the avalanche transistors for over 60 years [9] were the commonly used devices in laser pulsed generators [6,7]. However, nowadays most of the modern systems utilize Field Effect Transistors (FET) [1,2].…”
Section: Dual-fet Output Stage Topologymentioning
confidence: 99%
See 3 more Smart Citations
“…One of the most popular solutions dedicated to high-power drivers utilizes single switching devices [1,2,6,7]. For this reason, the avalanche transistors for over 60 years [9] were the commonly used devices in laser pulsed generators [6,7]. However, nowadays most of the modern systems utilize Field Effect Transistors (FET) [1,2].…”
Section: Dual-fet Output Stage Topologymentioning
confidence: 99%
“…The novel topology of the pulsed laser driver described in this paper is shown in Figure 2. It combines two symmetrical structures from Figure 2b, although a single shared delay line is used [7]. The operation of the circuit can be divided into two adjacent phases.…”
Section: Dual-fet Output Stage Topologymentioning
confidence: 99%
See 2 more Smart Citations
“…One can also utilize telescopic antenna and ferrites in the pulse-forming line of the generator to produce 1–10 ns pulses with tens of kilovolts of amplitude and subnanosecond rise-times [ 38 ]. Another approach used two avalanche transistor stacks as switches to generate 800 V to 3.8 kV pulses with 5–38 ns pulse widths [ 39 ]. Alternatively, one can configure two MOSFET based 10 kV switches in differential mode to generate 1 kV to 10 kV pulses with rise-times shorter than 5 ns [ 40 ].…”
Section: Introductionmentioning
confidence: 99%