23.12 Rlc series ac circuits (Page 2/9)

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I_{0} Z = \sqrt{I_{0}^{2} R^{2} + (I_{0} X_{L} - I_{0} X_{C})^{2}} = I_{0} \sqrt{R^{2} + (X_{L} - X_{C})^{2}} .

$I_{0}$ cancels to yield an expression for $Z$ :

Z = \sqrt{R^{2} + (X_{L} - X_{C})^{2}},

which is the impedance of an RLC series AC circuit. For circuits without a resistor, take $R = 0$ ; for those without an inductor, take $X_{L} = 0$ ; and for those without a capacitor, take $X_{C} = 0$ .

The figure shows graphs showing the relationships of the voltages in an RLC circuit to the current. It has five graphs on the left and two graphs on the right. The first graph on the right is for current I versus time t. Current is plotted along Y axis and time is along X axis. The curve is a smooth progressive sine wave. The second graph is on the right is for voltage V R versus time t. Voltage V R is plotted along Y axis and time is along X axis. The curve is a smooth progressive sine wave. The third graph is on the right is for voltage V L versus time t. Voltage V L is plotted along Y axis and time is along X axis. The curve is a smooth progressive cosine wave. The fourth graph is on the right is for voltage V C versus time t. Voltage V C is plotted along Y axis and time t is along X axis. The curve is a smooth progressive cosine wave starting from negative Y axis. The fifth graph shows the voltage V verses time t for the R L C circuit. Voltage V is plotted along Y axis and time t is along X axis. The curve is a smooth progressive sine wave starting from a point near to origin on negative X axis. The first and the fifth graphs are again shown on the right and their amplitudes and phases compared. The current graph is shown to have a lesser amplitude. — This graph shows the relationships of the voltages in an *RLC* circuit to the current. The voltages across the circuit elements add to equal the voltage of the source, which is seen to be out of phase with the current.

Calculating impedance and current

An RLC series circuit has a $40.0 Ω$ resistor, a 3.00 mH inductor, and a $5.00 μF$ capacitor. (a) Find the circuit’s impedance at 60.0 Hz and 10.0 kHz, noting that these frequencies and the values for $L$ and $C$ are the same as in [link] and [link] . (b) If the voltage source has $V_{rms} = 120 V$ , what is $I_{rms}$ at each frequency?

Strategy

For each frequency, we use $Z = \sqrt{R^{2} + (X_{L} - X_{C})^{2}}$ to find the impedance and then Ohm’s law to find current. We can take advantage of the results of the previous two examples rather than calculate the reactances again.

Solution for (a)

At 60.0 Hz, the values of the reactances were found in [link] to be $X_{L} = 1 . 13 Ω$ and in [link] to be $X_{C} = 531 Ω$ . Entering these and the given $40.0 Ω$ for resistance into $Z = \sqrt{R^{2} + (X_{L} - X_{C})^{2}}$ yields

\begin{array}{l} Z & = & \sqrt{R^{2} + (X_{L} - X_{C})^{2}} \\ = & \sqrt{(40.0 Ω)^{2} + (1.13 Ω - 531 Ω)^{2}} \\ = & 531 Ω at 60 . 0 Hz . \end{array}

Similarly, at 10.0 kHz, $X_{L} = 188 Ω$ and $X_{C} = 3 . 18 Ω$ , so that

\begin{array}{l} Z & = & \sqrt{(40.0 Ω)^{2} + (188 Ω - 3 . 18 Ω)^{2}} \\ = & 190 Ω at 10 . 0 kHz. \end{array}

Discussion for (a)

In both cases, the result is nearly the same as the largest value, and the impedance is definitely not the sum of the individual values. It is clear that $X_{L}$ dominates at high frequency and $X_{C}$ dominates at low frequency.

Solution for (b)

The current $I_{rms}$ can be found using the AC version of Ohm’s law in Equation $I_{rms} = V_{rms} / Z$ :

$I_{rms} = \frac{V_{rms}}{Z} = \frac{120 V}{531 Ω} = 0 . 226 A$ at 60.0 Hz

Finally, at 10.0 kHz, we find

$I_{rms} = \frac{V_{rms}}{Z} = \frac{120 V}{190 Ω} = 0 . 633 A$ at 10.0 kHz

Discussion for (a)

The current at 60.0 Hz is the same (to three digits) as found for the capacitor alone in [link] . The capacitor dominates at low frequency. The current at 10.0 kHz is only slightly different from that found for the inductor alone in [link] . The inductor dominates at high frequency.

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Resonance in RLC Series ac circuits

How does an RLC circuit behave as a function of the frequency of the driving voltage source? Combining Ohm’s law, $I_{rms} = V_{rms} / Z$ , and the expression for impedance $Z$ from $Z = \sqrt{R^{2} + (X_{L} - X_{C})^{2}}$ gives

I_{rms} = \frac{V_{rms}}{\sqrt{R^{2} + (X_{L} - X_{C})^{2}}} .

The reactances vary with frequency, with $X_{L}$ large at high frequencies and $X_{C}$ large at low frequencies, as we have seen in three previous examples. At some intermediate frequency $f_{0}$ , the reactances will be equal and cancel, giving $Z = R$ —this is a minimum value for impedance, and a maximum value for $I_{rms}$ results. We can get an expression for $f_{0}$ by taking

X_{L} = X_{C} .

Substituting the definitions of $X_{L}$ and $X_{C}$ ,

2 {πf}_{0} L = \frac{1}{2 {πf}_{0} C} .

Solving this expression for $f_{0}$ yields

f_{0} = \frac{1}{2π \sqrt{LC}},

where $f_{0}$ is the resonant frequency of an RLC series circuit. This is also the natural frequency at which the circuit would oscillate if not driven by the voltage source. At $f_{0}$ , the effects of the inductor and capacitor cancel, so that $Z = R$ , and $I_{rms}$ is a maximum.

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Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

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