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<br>A busbar power connector often has a housing with a single cable end and a bushing or push rod assembly. The housing usually has an outer ring shaped segment, an inner bushing, and a cage-like interlocking snap lock. The bushing or push rod assembly has at least one engagement feature designed to engage a corresponding sleeve extending from a busbar heat sink or condenser. This prevents the busbar from rotating during normal operation. The sleeve can also be designed to prevent damage to the bushing, which can occur if a busbar heats up and shrinks while the cable is being operated.<br><br><br>There are different busbar power connectors available for a variety of bus systems. The two most popular busbar power connectors are the reversible and the modular. If you are you looking for more information about [https://www.rhibusbar.com/product/copper_clad_aluminum_busbar.html Www.rhibusbar.com] look at the web page. Reversible busbar power connectors are those that can be mechanically reversed without physically being dismantled. These connectors typically have the positive and negative terminals on the same side of the connector, so when they are reversed they flip over to match the opposite sides.<br><br><br>Modular busbar power connectors have a predetermined number of terminals on either side of the connector system 100. When these modular power connectors are used, the terminals are typically positioned toward the outside of the system, while the cable is being disconnected. Once the cables are disconnected, the modular power connector system 100 can be easily flipped over to its reversed position. This allows a system with multiple cable assemblies to have the cables located in various directions.<br><br><br>The electrical specifications of each busbar model should be followed to ensure a reliable mating. Each mating end on a busbar should engage a housing. If the housing does not engage the opposite terminal on the appropriate cable end, then the cable is defective. To check for this defect, a small current should be applied to the mating end of the cable. If the current passes, then the housing is engaging the correct cable end and there is no need to replace the busbar assembly.<br><br><br>The busbar connector is commonly incorporated into a socket housing. Socket housing typically includes a pair of terminals on each end for connecting a busbar to a corresponding receptacle. The busbar connector typically has two different contacts face to allow it to be manually twisted into a position that will engage the opposing terminals on the receptacle. The busbar connectors sleeves also allow for cable segregation. The sleeves are designed to guide the cable to the intended location for insertion into the receptacle.<br><br><br>Some busbar power connectors are also used in conjunction with electric bus motors. These power connectors are typically labeled with either PN or PS and may have a double, tri-fold flap at the top or have a plastic cover that protects the busbar from ultraviolet light. There are many different designs of busbar power connectors that are available today, depending on the intended application and the space constraints of the system. For example, some busbar power connectors are equipped with a removable plastic sleeve which allows for cable segregation, allowing the cables to be systematically inserted into the receptacle without requiring too much room.<br><br><br>Cable assemblies may consist of busbar plug power terminals, busbar plugs, cable 110V power terminals, cable assembly couplings, cable connectors, and more. Some assembly couplings include a locking mechanism to prevent extrusion of the plug while the cable is inserted into the appropriate receptacle. Cable couplings can be made from a variety of materials including brass, copper, steel, and nickel. However, the most common cable coupling material is nickel silver. The plug assembly that houses the busbar usually has either a single, double, tri-fold flap or both folds, with one flap on top of the other. This configuration maximizes the available surface area of the busbar and allows for cable couplings that are more secure.<br><br><br>Most busbar connectors are sold with a mating assembly that includes the connector itself, a pair of plug assembly, and a male plug adaptor. However, you may also order a busbar connector with an optional double flap assembly that has a metallic housing having a metallic backing and a metallic tab that attaches to the plug assembly to prevent it from protruding. These double flaps allow the connector to join with other devices while not being attached to the other device. This type of cable connection is most commonly used for outdoor applications where exposure to excess moisture and varying temperatures could damage wires and cables.<br>