Abstract
Coil inductance and capacitor capacitance depend on overall dimensions, structure, and ambient factors. They do not vary with frequency. Reactive component impedance is determined by inductance or capacitance respectively, if active resistance is not considered. This is true for the frequencies which are significantly lower than the self-resonant frequency of the component. Parasitic parameters contribution increases on approaching the self-resonant frequency. Therefore, the componentʼs actual inductance and actual capacitance on operating frequency are defined. They are provided by manufacturers and differ from the nominal values. The actual values provide more accurate impedance of components near the considered frequency. Significant deviation from the considered frequency can cause impedance mismatch even more than the nominal values can provide. Frequency response of the high-frequency circuits such as analog filters and impedance match networks are determined by components impedance, not the nominal values. Thus, calculated values must be close to the actual values. The purpose of this article is to justify actual values application instead of nominal values.
Highlights
Unlike resistors that dissipate energy, inductors and capacitors accumulate it
This article presents the dependence of the impedance on the frequency for the previously described inductors and capacitors models, a comparison with experimental values, for example, a specific coil and capacitor
The resistance is due to the resistance of the plates and losses in the dielectric. These parasitic parameters are less dependent on frequency, and the RLC model describes the behavior of a capacitor more accurately than for an inductance coil
Summary
Reactive component impedance is determined by inductance or capacitance respectively, if active resistance is not considered. The components actual inductance and actual capacitance on operating frequency are defined They are provided by manufacturers and differ from the nominal values. Индуктивность катушек и емкость конденсаторов представляются физическими величинами, зависящими от геометрических размеров, конфигурации компонентов, параметров окружающей среды, причем эти величины не зависят от частоты протекающего через них переменного тока. Поэтому вводятся понятия эффективной индуктивности и эффективной емкости, значения которых отличаются от номинальных и зависят от частоты. Эффективные индуктивность и емкость дают более точное значение полного сопротивления в окрестности рассматриваемой частоты. Если имеет место существенное отклонение частоты от рассматриваемой, ошибка может оказаться даже больше, чем при использовании номинальных значений. Ключевые слова: катушка индуктивности, индуктивность, конденсатор, керамический конденсатор, емкость, полное сопротивление, реактивное сопротивление
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