7.1:

Instantaneous Power

JoVE Core
Electrical Engineering
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JoVE Core Electrical Engineering
Instantaneous Power

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01:22 min

July 08, 2024

Instantaneous power is important in electrical circuits, mainly when dealing with sinusoidal input. Instantaneous power, denoted as p(t), results from the multiplication of the instantaneous voltage (v(t)) across an element and the instantaneous current (i(t)) flowing through it. This relationship adheres to the passive sign convention and represents a fundamental principle in electrical engineering.

Equation 1

When examining instantaneous power, it can be expressed as a combination of two distinct terms. The first term, which remains constant, is dependent on the phase difference between voltage and current. The second term, characterized by sinusoidal oscillation, exhibits a frequency twice that of either the voltage or current.

Equation 2

In circuits encompassing resistance and reactance elements, instantaneous power is dynamic, oscillating between positive and negative values. In cases of purely resistive circuits, where voltage and current are perfectly in phase, instantaneous power consistently dissipates positively.

Conversely, in circuits dominated by inductive and capacitive components, the phase shift between voltage and current leads to intermittent fluctuations in instantaneous power between positive and negative values. This phenomenon can be attributed to the cyclic storage and release of energy by inductors and capacitors as current traverses through the former and voltage appear across the latter. During the energy release phase, these reactive elements act as power sources, effectively supplying energy back into the circuit resulting in the manifestation of negative instantaneous power. This intricate interplay of voltage, current, and power dynamics underscores the fundamental principles governing electrical circuits. An understanding of these principles is critical for efficient energy management and the design of electrical systems.