Serial Rl Circuit

Serial RL Circuit synopsis Robert Hamilton DeVry University Serial RL Circuit Analysis For week ii iLab, our objectives were to analyze an AC circuit in serial publication with the succeeding(a) subdivisions: 47mH inductor with internal resistance and a 470 ? resistor. each component pull up stakes experience original voltage drops and current alternations delinquent to the frequency changes. The circuit was conducted at 1 kilocycle, 2 kHz, and 3 kHz. Given the initial conditions, we careful voltage across the components accordingly. We were in like manner qualified to measure the current through the components as well. later the expression of the circuit, the simulation of the circuit followed. Overall, the iLab conducts current, voltage measurements in a series circuit. Impedance of Each Component at 1 kHz At the beginning of lab, you are given questions that require turn written calculations. First, you obligate to calculate the resistance o f the inductor in the series circuit. Before you calculate impedance for the inductor component, you adapt to measure its internal resistance. In the real world, the inductor exit permit an internal resistance so the formula was slenderly adjusted. For the 470 ? resistor, the formula remained the same.

* RL+jXL = Z1 = 74 ? + j295 = Inductor impedance * R+j0 = Z2 = 470 ? + j0 = Resistors impedance Total impedance and Current Once we have measured the required nurture, we can put one over it to wreak for tote up impedance and lend current in the series circuit. In order to solve for t otal impedance, you have to put the informat! ion in rectangular form first. The information above has already been converted to rectangular form so we just have to add them together to obtain total impedance. To determine the current through a certain component, we ingestion a certain formula. This formula states that Vs/ZT will give you current. * ZT = Z1 + Z2 = (74 ? + j295) + (470 ? + j0) = 544 ? + j295 * I@1 kHz = Vs/ZT = 2.5VRMS/544 ? Voltage Drops for Each...If you want to get a full essay, order it on our website: OrderCustomPaper.com

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