Abstract
This paper explains about wide range of applications for Laminated Bus Bar used for high and low power applications. Authors also explains ways to effective utilize laminated bus bar when compared to conventional bus bar. Laminated bus bars are designed with low stray inductance and high capacitance with a uniform current distribution in conducting plate. Parameters like Length, Width, material thickness and other miscellaneous parameters effect Laminated bus bar performance. With a proper design of Laminated bus bar it can best utilized, laminated bus bar are suitable for many low and high power applications which are discussed in this paper. Replacing conventional bus bar with laminated bus bar additional advantages are achieved like lighter weight, less space and lower maintenance.
Highlights
Conventional bus bars used these days require lot of space and create hazardous situations in many cases
Laminated bus bars overcome these problems by maintaing lower stray inductance and high capacitance on using different material and sandwiching them in a suitable and required manner
Many applications today demands for low stray inductance, low weight, safe to operate, lower maintenance, low space requirement which can be fulfilled by using laminated bus bars
Summary
Conventional bus bars used these days require lot of space and create hazardous situations in many cases. Many hazardous situations are due to weak connections between points or insulation failure and so on. Apart from arrangement they posses more stray inductance and low capacitance which make the bus bar to create spikes in transient cases. Laminated bus bars overcome these problems by maintaing lower stray inductance and high capacitance on using different material and sandwiching them in a suitable and required manner. This paper describes laminated bus bars uses in different range of power applications and how to modify Laminated bus bar based upon the performance obtained after simulations. Models are designed and are modified to obtain uniform current distribution
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