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Texte wiki de la nouvelle page, après la modification (new_wikitext) | '<br>Busbars are used in many electrical applications where the conductor or terminals require a safe and sturdy connection to get the job done. The busbars are also called chassis connectors, rack mounts or rack and pinion fittings. You need to consider a few things before you go out and buy one from the market because as said before there are many types of busbars available and it will depend on your application and your needs which busbar would be best suited for you. There are certain factors which are to be considered while buying a busbar so that you end up getting the right one for your application and your needs. First of all make sure you choose a busbar that meets the current requirements of your application and the load requirements of the equipment or vehicle at hand.<br><br><br>A bus bar standard rating is its electrical current carrying capacities in milliamps per hour or amps per second. The copper busbar has very high electrical current carrying capability and very low thermal conductivity. The [https://www.rhibusbar.com/ copper busbar] has been used in a number of panel manufacturing facilities for over three decades, the current standard electrical current carrying capability of this Copper bus bar is 1.2 amps per square inch, thickness and an inch width. The thickness of one inch bus bars is actually more than sufficient to handle a standard sized panel. The other metal that has been used to create these bars are aluminium. The aluminium bus bars currently have the lowest thermal conductivity rating of the aluminium bus bars.<br><br><br>When you consider the other metal bar options you might be interested in it will help you decide on what type of aluminium busbar current carrying capacity that is most suitable. The other options you will find are the brass, steel and nickel silver bars. You can also choose between different thicknesses. The thicker your aluminium busbar has, the more you will need to utilise the space in the panel because it makes it heavier.<br><br><br>The thickness you want your aluminium busbar current carrying capacity to be will depend on the application you need the aluminium bus bar for. If you are buying this for heavy industrial equipment you may need a thicker aluminium bar. But if you are buying it for a small panel you may be able to get away with a thinner aluminium bar. To find out what the correct thickness is you need to measure the height, width and length of the panel that you are going to use it on. You then need to multiply the measured dimensions by 6 inches to get the inches that your aluminium busbar must have.<br><br><br>This is the electrical requirements of a bus bar, you will need to purchase. Most manufacturers will provide you with the electrical requirements in inches in order for you to calculate the amount of power required for what you are going to use the bar for in terms of long term voltage requirements. By purchasing a pre-measured, pre-built or preset size you avoid having to make any adjustments as they are already set. As with most things in life, there will be trade-offs as you go through your electrical requirements.<br><br><br>One thing you will need to consider when purchasing an aluminium bus curtain is the minimum voltage requirement for an alternating current (AC) circuit of a high current carrying capability. It is not sufficient for you to just purchase a busbar with the highest DC capacity rating. You will need to ensure that the circuit you use has adequate alternating current (AC) power available to cope with the load you intend to draw from it.<br>' |