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In this paper, a self-triggering linear transformer driver (LTD) technology based on the principle of electromagnetic induction is presented. A detailed circuit model of the self-triggering LTD module is established in PSPICE to explore the feasibility of the self-triggering method. Through simulation and analysis, an original design of a prototype self-triggering LTD is established. Some factors,...
As the new generation of pulsed power architecture, linear transformer drivers (LTDs) are attached importance to the main countries all over the world in recently years. Though the LTDs can dramatically reduce the size and cost of high power accelerators, the triggering system of the gas switches is complex, especially the triggering timing is hard to control. To simplify the control system of triggering,...
Owing to the significant advantages of linear transformer driver (LTD) technology, it becomes an advanced pulsed power technology for the construct of high-voltage, high-current pulsed-power accelerators. One of the most difficulties of implementation of LT D is required triggering all the switches in the cavities synchronously with the arrival of the electromagnetic pulse propagating downstream....
Owing to the significant advantages of linear transformer driver (LTD) technology, it becomes a new pulsed power technology for the construct of high-voltage, high-current pulsed-power accelerators. However, the LTD technology requires that the closure of the switches in the cavities are synchronized with the arrival of the electromagnetic pulse propagating downstream and the trigger technology is...
As a novel pulsed power technology, linear transformer driver (LTD) developed rapidly recent years, it is able to generate high power pulses with rising time less than 100ns and drive the load directly without any pulse compression. With the expansion of the LTD's scale, the problem that whether the switches can be reliably turned on and whether they can be triggered synchronously becomes the key...
As a novel pulsed power technology, linear transformer driver (LTD) developed rapidly recent years, it is able to generate high power pulses with rising time less than 100ns and drive the load directly without any pulse compression. With the expansion of the LTD's scale, the problem that whether the switches can be reliably turned on and whether they can be triggered synchronously becomes the key...
This paper explores the feasibility of a new triggering technology that is based on reversed-LTD (linear transformer driver) principle. The triggering technology which is named as LTD-trigger has a similar structure to LTD device, but it operates reversely relative to LTD. The LTD-trigger is small size and can obtain multiple trigger pulsed voltages flexible with one single primary high-voltage pulsed...
The Linear Transformer Driver (LTD) technology is a new approach to construct high-voltage, high-current pulsed-power accelerators. Linear Transformer drivers, however, place stringent demands on synchronous trigger system. The paper proposes a new synchronous triggering technology, which is named as LTD-trigger. The LTDtrigger divides a pulse to a number of synchronous pulses through inductive transformer...
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