Views: 0 Author: Site Editor Publish Time: 2020-10-14 Origin: Site
Installing our lighting bus bar is typically 50% quicker than traditional lighting trunking, conduits and cables. Quicker installation means cheaper labour costs and more jobs won.
Bus bars reduce system costs, improve reliability, increase capacitance, and eliminate wiring errors. They also lower inductance and increase capacitance. Plus, the physical structure of bus bars offers unique features in mechanical design. For example, complete power distribution subsystems can also act as structural members of a total system. Multilayer bus bars offer a structural integrity that wiring methods just can't match.
The article contains following:
1,The bus bar fabrication is more available
2,Bus Bars Reduce System Costs
3,Bus Bars Fabrication Allows Flexibility and Improve Reliability
4,Bus Bars Lower Inductance, Impedance, Eliminate Wiring Errors
5,Bus Bars Provide Wider Variety of Interconnection Methods
Power supplies are vital to businesses, so when looking to install a new lighting or power system it is not only paramount to adhere to technical standards and regulations but it’s also essential to look at the power/lighting system overall to ensure the best result possible on all fronts. This can depend on the building itself, external limitations applied by authorities and the requirements of the power distribution system. Common needs for businesses seeking power distribution are aspects like:
Flexibility if areas of the building change
Long lifespan
Ease and speed of installation
Cost
Better than cable
A laminated bus bar will lower manufacturing costs by decreasing assembly time as well as internal material handling costs. Various conductors are terminated at customer specified locations to eliminate the guesswork usually associated with assembly operating procedures. A reduced parts count will reduce ordering, material handling and inventory costs.Lower costs – easy installation mean less labour for less time
Low disruption, many places remain operational whilst bus bar is being fitted.
Bus bar is 50% quicker to install
Low space requirements
Easily adaptable to changing business needs
Bus bar for high power distribution
Traditionally the supply from the transformer or incoming supply point to other distribution points around the building has been provided using large SWA cables, and these are then installed on a support system of cable ladder or tray. This can be both expensive and time consuming to install.
Fabricated bus bars fit your specific needs and are customized for maximum efficiency.
Laminated bus bars can help your organization build quality into processes. The reduction of wiring errors results in fewer reworks, lower service costs and lower quality costs.
Laminated Bus Bars Increase Capacitance
Increased capacitance results in decreasing characteristic impedance. This will ultimately lead to greater effective signal suppression and noise elimination. Keeping the dielectrics thin and using dielectrics with a high relative K factor will increase capacitance.
By replacing a standard cable harnesses with bus bars, the possibility for miss-wirings is eliminated. Wiring harnesses have high failure rates relative to bus bars, which have virtually none. These problems are very costly to repair. Adding bus bars to your systems is effective insurance.
Any conductor carrying current will develop an electromagnetic field. The use of thin parallel conductors with a thin dielectric laminated together minimizes the effect of inductance on electrical circuits. Magnetic flux cancellation is maximized when opposing potentials are laminated together. Laminated bus bars have been designed to reduce the proximity effect in many semiconductor applications as well as applications that involve high electromagnetic interference (EMI) such as SiC or GaN high frequency circuits.
Increasing the capacitance and reducing the inductance is a determining factor in eliminating noise. Keeping the dielectric thickness to a minimum will accomplish the highly desired low impedance.
The use of wide, thin conductors laminated together led to decreased space requirements. Laminated bus bars have helped decrease total system size and cost.
The flexibility of bus bars have allowed an unlimited number of interconnection styles to choose from. Bushings, embossments, and faston tabs are most commonly used. Wire harnesses, solderable connectors, and pressed-in fittings are also integrated into the design, making a bus bar compatible with virtually any type of interface.
The wide, thin conductors are favorable to allowing better airflow in systems. As package sizes decrease, the cost of removing heat from systems is greatly increased. A bus bar not only reduces the overall size of system package required, but it can also improve airflow with its sleek design, we also provide basway machine including 3 in 1 busbar machine, digital bus bar punching machine.