Gautam C. Patil scite author profile

Results of a detailed parametric study of a self-switched mutually inductively coupled high voltage parallel spark preionizer are presented. The maximal behavior exhibited by the breakdown voltage of the parallel gaps with respect to the number of mutually coupled turns has been explained. It has been found that there exists a threshold rise time of the current pulse beyond which simultaneous closure of the parallel gaps is not possible and that this threshold value is independent of the nature and geometry of the cores used for the mutual coupling. The degree of simultaneity of the closure of the self-switched parallel gaps matched that of the conventional operation of such gaps.

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Enhanced efficiency of a mutually coupled parallel spark preioniser

Patil

Raote

Nilaya

et al. 2009

Optics Communications

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Performance of a self-switched TEA CO2 laser with multi/two/single spark channel preioniser

Patil

Jonnalagadda

Biswas

2011

Optics Communications

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Gautam C. Patil

Switch-less operation of a TEA CO2 laser with extended electrodes

Switching of a TEA CO₂laser with its own UV emitting parallel spark channels

Simultaneous closure of multiple high voltage parallel spark channels without switch: A parametric study

Enhanced efficiency of a mutually coupled parallel spark preioniser

Performance of a self-switched TEA CO2 laser with multi/two/single spark channel preioniser

Contact Info

Product

Resources

About

Gautam C. Patil

Switch-less operation of a TEA CO2 laser with extended electrodes

Switching of a TEA CO2laser with its own UV emitting parallel spark channels

Simultaneous closure of multiple high voltage parallel spark channels without switch: A parametric study

Enhanced efficiency of a mutually coupled parallel spark preioniser

Performance of a self-switched TEA CO2 laser with multi/two/single spark channel preioniser

Contact Info

Product

Resources

About

Switching of a TEA CO₂laser with its own UV emitting parallel spark channels