![]() So, if there is ‘n’ number of branches of path In The parallel circuit and V1, V2, V3, …. The overall voltage of a parallel circuit has the same magnitude as the voltage across each branch or part of the circuit is constant. The total(or over all) power dissipated in a parallel combination is equal to the summation of solitary power dissipated by every circuit element in a parallel circuit.The circuit is also a current divider circuit as the overall current throughout the circuit gets divided in all the paths in parallel combinations.When more than one resistor, inductor, capacitor, and current source are linked in parallel combinations, that can be replaced by a one equivalent value of resistor, inductor, capacitor, and current source, respectively.The total current in the overall circuit is equal to the summation of current across each discrete path in a parallel combination.The current through each part in parallel combination depends on the overall impedance or resistance across the path or branch of the circuit.The voltage (or potential drop) across each path in parallel combination is identical.Some characteristics of the basic (or elementary) parallel circuit: Image Credit: By Omegatron – Own work, CC BY-SA 3.0, Parallel Circuit Function: Parallel circuit combination is when one terminal of more than one circuit element is connected to one node of a circuit, and another terminal of the circuit element is connected to another node resulting in more than one path for current to flow. Parallel circuit combination is one of the basic (or fundamental) electric circuit combination. This article has described the parallel circuit function and its essential characteristics when different circuit elements are connected in parallel combinations. Any circuit element that has two terminals can form a parallel topology. ![]()
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