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Transcript
Basic Circuit Analysis – by Colin Brown, Ava Zebzda, Jon Josten and Joseph Hemmingson Circuit Elements & Variables Voltage (Symbol: V| Units: Volts (V) ) o Symbolized by plusses and minuses (+ -) Current (Symbol: I | Units: Amperes (A)) o Symbolized by arrows () Resistance (Symbol: R| Units: Ohms (Ω)) o Symbolized by squiggly lines Node– Any point you measure on a circuit. Every node has a voltage associated with it. Wires – Connecting nodes and elements, there is no voltage decrease across a wire o Elements/Nodes must be connected with wire for current to flow through them Current flows from high voltage to low voltage, the rate of this flow is proportional to the difference in voltage between two points (as described by Ohm’s Law). Ohm’s Law – 𝑉 = 𝐼𝑅 – The equation that relates Voltage, Current, And Resistance. Basic circuit variables can be thought using water as an analogy: o Voltage = Pressure Increasing pressure increases how much goes through a hose/pipe o Current = Amount of water flowing in a given time Higher pressure or less resistance allow for more water to flow o Resistance = Reducing the width of the pipe If you have kink a hose, the amount of water flowing from it (aka current) will be reduced Circuit Elements Sources – Objects that provide either voltage or current Resistors – Elements that have a set resistance Circuit – Elements arranged in a way so that current can flow (i.e. a loop) Kirchhoff’s Laws Kirchhoff’s Current Law (KCL) – The total amount of current going into any node is equal to the amount of current going out. (In the picture to the right, i2 + i3 = i1 + i4) Kirchhoff’s Voltage Law (KVL) – The sum of the voltages going around any loop in a circuit is zero (In the picture to the left, V1 + V2 + V3 = VS) Mesh Current Analysis: 1. Label each mesh of the circuit with a mesh current, going in the clockwise direction. 2. Write KVL equations for each mesh. Each term is a voltage, but will write the terms using Ohm's law to put them in terms of the mesh currents (V=IR). 3. Solve for the unknown currents using an augmented matrix Basic Circuit Analysis – by Colin Brown, Ava Zebzda, Jon Josten and Joseph Hemmingson Color conventions: = color to denote current = color to denote voltage Circuit Practice Problems Circuit #1 Circuit #3 Circuit #4 Circuit #2
