impedance_inverter
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| impedance_inverter [2025/05/04 08:26] – kl | impedance_inverter [2025/12/27 16:06] (current) – [Definition] admin | ||
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| \end{bmatrix}$$ | \end{bmatrix}$$ | ||
| - | Since the impedance inverter is a reciprocal network, it follows that AD-BC=1, and since A=D=0, we get: B.C=1. | + | Since the impedance inverter is a reciprocal network, it follows that AD-BC=1, and since A=D=0, we get: B.C=-1. |
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| For example, when we choose an inductor, K equals $\omega L$ and we get the following circuit. (Note: a negative inductor corresponds to an capacitance, | For example, when we choose an inductor, K equals $\omega L$ and we get the following circuit. (Note: a negative inductor corresponds to an capacitance, | ||
| + | $$K=\omega L$$ | ||
| {{ immittance_inverter_t-l-network.png? | {{ immittance_inverter_t-l-network.png? | ||
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| {{ immittance_inverter_t-c-network.png? | {{ immittance_inverter_t-c-network.png? | ||
| - | Here, $K=-\frac{1}{\omega C}$ | + | Here, |
| + | |||
| + | $$K=-\frac{1}{\omega C}$$ | ||
| The ABCD matrix of the corresponding two-port network equals: | The ABCD matrix of the corresponding two-port network equals: | ||
impedance_inverter.1746347172.txt.gz · Last modified: by kl · Currently locked by: 216.73.216.38