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7 juin 2022 à 18:55 : FranciscoDarke (discussion | contributions) a déclenché le filtre antiabus 4, en effectuant l’action « edit » sur How To Choose A High Quality Bus Bar For Your Electrical Needs. Actions entreprises : Interdire la modification ; Description du filtre : Empêcher la création de pages de pub utilisateur (examiner)

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<br>Definition of busbar in technical dictionary is an aluminium conductor, generally used in a circuit to create a common connection between different circuits, either in series or parallel, with the high rating of the current carrying the input signal being the output. Busbars are generally made of silver or aluminium, the most common type used for computer connections. Another type is the bipolar bus, which has two or more copper posts, connected by a flexible aluminum bus bar. The bendable busbar allows the connection to be made into a number of complex shapes, such as a square, a triangle, or even a circle. However, the most common form is the simple rectangular one, since this is the one most widely used in electrical wiring.<br><br><br>The most important function of the busbar is to provide a path of communication between electrical circuits. However, the physical size and shape should also match the required physical size and shape of the connection, so that the electrical current carrying the signal can flow to the point where it is needed. The physical size of the conductor does not directly affect the current-carrying capacity; rather it impacts only the maximum energy dissipation possible. The smaller the conductor, the larger is the amount of current that can be carried, and thus the higher the voltage of the transformer used for the connection. Moreover, busbars have a varying resistance, which directly affects the efficiency of the connection.<br><br><br>Besides the required flexibility, another important aspect of the busbar is its thermal resistance. In a DC voltage application, the heat generated in the area between the copper conductors will reduce the ability of the conductor to carry current. Consequently, when you look at the design, the number of copper bars is fixed and the shape is set. It's the thermal resistance, which limits the performance of the busbars. The busbars with low resistance are often those made from solid steel, whereas those with higher resistance are often those made from the brass or aluminum bus bars.<br><br><br>The main advantage of the [https://www.Rhibusbar.com/product/product_137_1.html aluminium busbar] is that it is light weight, inexpensive and easy to install. On the other hand, the copper busbar offers good conductivity and is stronger than aluminium. There are even some aluminium busbars that are available in the full voltage rating. They are designed so that they can handle all the power demands of the automobile industry.<br><br><br>The current carrying capacity of the aluminium busbar will vary depending on the current and voltage of the current passing through the circuit. For example, a 10A circuit will require more current than a 5A circuit. Therefore, the size of the circuit should be matched with the required current. The busbars are made using a core filled with ferrous or non-ferrous material. The most common metals used in making these busbars are iron and copper.<br><br><br>Another advantage of using busbar systems is that it helps to save money. The low voltage produced during an electric shock makes the use of conventional switchboards expensive. However, the use of busbar systems reduces this cost because the contact pads do not contact the surface of the circuit boards. Therefore, the total cost of the switchboards is reduced. Apart from this, the use of busbar makes the process of selecting the best circuit breaker to be installed easier.<br>

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How To Choose A High Quality Bus Bar For Your Electrical Needs
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How To Choose A High Quality Bus Bar For Your Electrical Needs
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<br>Definition of busbar in technical dictionary is an aluminium conductor, generally used in a circuit to create a common connection between different circuits, either in series or parallel, with the high rating of the current carrying the input signal being the output. Busbars are generally made of silver or aluminium, the most common type used for computer connections. Another type is the bipolar bus, which has two or more copper posts, connected by a flexible aluminum bus bar. The bendable busbar allows the connection to be made into a number of complex shapes, such as a square, a triangle, or even a circle. However, the most common form is the simple rectangular one, since this is the one most widely used in electrical wiring.<br><br><br>The most important function of the busbar is to provide a path of communication between electrical circuits. However, the physical size and shape should also match the required physical size and shape of the connection, so that the electrical current carrying the signal can flow to the point where it is needed. The physical size of the conductor does not directly affect the current-carrying capacity; rather it impacts only the maximum energy dissipation possible. The smaller the conductor, the larger is the amount of current that can be carried, and thus the higher the voltage of the transformer used for the connection. Moreover, busbars have a varying resistance, which directly affects the efficiency of the connection.<br><br><br>Besides the required flexibility, another important aspect of the busbar is its thermal resistance. In a DC voltage application, the heat generated in the area between the copper conductors will reduce the ability of the conductor to carry current. Consequently, when you look at the design, the number of copper bars is fixed and the shape is set. It's the thermal resistance, which limits the performance of the busbars. The busbars with low resistance are often those made from solid steel, whereas those with higher resistance are often those made from the brass or aluminum bus bars.<br><br><br>The main advantage of the [https://www.Rhibusbar.com/product/product_137_1.html aluminium busbar] is that it is light weight, inexpensive and easy to install. On the other hand, the copper busbar offers good conductivity and is stronger than aluminium. There are even some aluminium busbars that are available in the full voltage rating. They are designed so that they can handle all the power demands of the automobile industry.<br><br><br>The current carrying capacity of the aluminium busbar will vary depending on the current and voltage of the current passing through the circuit. For example, a 10A circuit will require more current than a 5A circuit. Therefore, the size of the circuit should be matched with the required current. The busbars are made using a core filled with ferrous or non-ferrous material. The most common metals used in making these busbars are iron and copper.<br><br><br>Another advantage of using busbar systems is that it helps to save money. The low voltage produced during an electric shock makes the use of conventional switchboards expensive. However, the use of busbar systems reduces this cost because the contact pads do not contact the surface of the circuit boards. Therefore, the total cost of the switchboards is reduced. Apart from this, the use of busbar makes the process of selecting the best circuit breaker to be installed easier.<br>
Diff unifié des changements faits lors de la modification (edit_diff)
@@ -1,1 +1,1 @@ - +<br>Definition of busbar in technical dictionary is an aluminium conductor, generally used in a circuit to create a common connection between different circuits, either in series or parallel, with the high rating of the current carrying the input signal being the output. Busbars are generally made of silver or aluminium, the most common type used for computer connections. Another type is the bipolar bus, which has two or more copper posts, connected by a flexible aluminum bus bar. The bendable busbar allows the connection to be made into a number of complex shapes, such as a square, a triangle, or even a circle. However, the most common form is the simple rectangular one, since this is the one most widely used in electrical wiring.<br><br><br>The most important function of the busbar is to provide a path of communication between electrical circuits. However, the physical size and shape should also match the required physical size and shape of the connection, so that the electrical current carrying the signal can flow to the point where it is needed. The physical size of the conductor does not directly affect the current-carrying capacity; rather it impacts only the maximum energy dissipation possible. The smaller the conductor, the larger is the amount of current that can be carried, and thus the higher the voltage of the transformer used for the connection. Moreover, busbars have a varying resistance, which directly affects the efficiency of the connection.<br><br><br>Besides the required flexibility, another important aspect of the busbar is its thermal resistance. In a DC voltage application, the heat generated in the area between the copper conductors will reduce the ability of the conductor to carry current. Consequently, when you look at the design, the number of copper bars is fixed and the shape is set. It's the thermal resistance, which limits the performance of the busbars. The busbars with low resistance are often those made from solid steel, whereas those with higher resistance are often those made from the brass or aluminum bus bars.<br><br><br>The main advantage of the [https://www.Rhibusbar.com/product/product_137_1.html aluminium busbar] is that it is light weight, inexpensive and easy to install. On the other hand, the copper busbar offers good conductivity and is stronger than aluminium. There are even some aluminium busbars that are available in the full voltage rating. They are designed so that they can handle all the power demands of the automobile industry.<br><br><br>The current carrying capacity of the aluminium busbar will vary depending on the current and voltage of the current passing through the circuit. For example, a 10A circuit will require more current than a 5A circuit. Therefore, the size of the circuit should be matched with the required current. The busbars are made using a core filled with ferrous or non-ferrous material. The most common metals used in making these busbars are iron and copper.<br><br><br>Another advantage of using busbar systems is that it helps to save money. The low voltage produced during an electric shock makes the use of conventional switchboards expensive. However, the use of busbar systems reduces this cost because the contact pads do not contact the surface of the circuit boards. Therefore, the total cost of the switchboards is reduced. Apart from this, the use of busbar makes the process of selecting the best circuit breaker to be installed easier.<br>
Lignes ajoutées lors de la modification (added_lines)
<br>Definition of busbar in technical dictionary is an aluminium conductor, generally used in a circuit to create a common connection between different circuits, either in series or parallel, with the high rating of the current carrying the input signal being the output. Busbars are generally made of silver or aluminium, the most common type used for computer connections. Another type is the bipolar bus, which has two or more copper posts, connected by a flexible aluminum bus bar. The bendable busbar allows the connection to be made into a number of complex shapes, such as a square, a triangle, or even a circle. However, the most common form is the simple rectangular one, since this is the one most widely used in electrical wiring.<br><br><br>The most important function of the busbar is to provide a path of communication between electrical circuits. However, the physical size and shape should also match the required physical size and shape of the connection, so that the electrical current carrying the signal can flow to the point where it is needed. The physical size of the conductor does not directly affect the current-carrying capacity; rather it impacts only the maximum energy dissipation possible. The smaller the conductor, the larger is the amount of current that can be carried, and thus the higher the voltage of the transformer used for the connection. Moreover, busbars have a varying resistance, which directly affects the efficiency of the connection.<br><br><br>Besides the required flexibility, another important aspect of the busbar is its thermal resistance. In a DC voltage application, the heat generated in the area between the copper conductors will reduce the ability of the conductor to carry current. Consequently, when you look at the design, the number of copper bars is fixed and the shape is set. It's the thermal resistance, which limits the performance of the busbars. The busbars with low resistance are often those made from solid steel, whereas those with higher resistance are often those made from the brass or aluminum bus bars.<br><br><br>The main advantage of the [https://www.Rhibusbar.com/product/product_137_1.html aluminium busbar] is that it is light weight, inexpensive and easy to install. On the other hand, the copper busbar offers good conductivity and is stronger than aluminium. There are even some aluminium busbars that are available in the full voltage rating. They are designed so that they can handle all the power demands of the automobile industry.<br><br><br>The current carrying capacity of the aluminium busbar will vary depending on the current and voltage of the current passing through the circuit. For example, a 10A circuit will require more current than a 5A circuit. Therefore, the size of the circuit should be matched with the required current. The busbars are made using a core filled with ferrous or non-ferrous material. The most common metals used in making these busbars are iron and copper.<br><br><br>Another advantage of using busbar systems is that it helps to save money. The low voltage produced during an electric shock makes the use of conventional switchboards expensive. However, the use of busbar systems reduces this cost because the contact pads do not contact the surface of the circuit boards. Therefore, the total cost of the switchboards is reduced. Apart from this, the use of busbar makes the process of selecting the best circuit breaker to be installed easier.<br>
Horodatage Unix de la modification (timestamp)
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