--- id: aliases: [] tags: - destiny/fleeting - topic/construction/electrical - type/encyclopedia - authorship/original - status/incomplete title: Alternating Current --- # Alternating Current > [!quote] [Alternating current (AC)](https://en.wikipedia.org/wiki/AC_power) > is electric current that reverses direction periodically. > The voltage and current in an AC circuit > oscillate in a sinusoidal manner. > The frequency of the oscillation > is the number of complete cycles per second measured in hertz (Hz). > The frequency of the AC power grid in the United States is 60 Hz. * Ungrounded conductor - "Hot" * Grounded conductor - "Neutral" ## 3-Phase Power The conductors between a voltage source and a load are called lines, and the voltage between any two lines is called **line voltage**. The voltage measured between any line and neutral is called **phase voltage**. * Poles vs Phases vs Wires * 3Ø = 3PH 3W * 3ØY = 3PH 4W > [!info] Phase Abbreviations > * PH > * Φ (capital phi) > * Ø (latin O with stroke) ### Formula #### Active Power The formula for active power in a three phase system is given by $$ P = \sqrt{3} \times V_{L} \times I_{L} \times \text{PF} $$ where: * $P$ is the active power, * $V_{L}​$ is the line voltage, * $I_{L}$ is the line current, * $\text{PF}$ is the power factor. #### Apparent Power The formula for apparent power in a three phase system is given by $$ S = \sqrt{3} \times V_{L} \times I_{L} $$ $$ I_{L} = \frac{S}{\sqrt{3} \times V_{L}} $$ where: * $S$ is the apparent power, * $V_{L}​$ is the line voltage, * $I_{L}$ is the line current. ### Voltage Systems 120/240V 1-Phase 3-Wire: * 120V 1-Phase 2-Wire --- Line to Neutral * 240V 1-Phase 2-Wire --- Line to Line 208Y/120V 3-Phase 4-Wire: * 120V 1-Phase 2-Wire --- Line to Neutral * 208V 1-Phase 2-Wire --- Line to Line * 208V 3-Phase 3-Wire --- Line to Lines 480Y/277V 3-Phase 4-Wire: * 277V 1-Phase 2-Wire --- Line to Neutral * 480V 1-Phase 2-Wire --- Line to Line * 480V 3-Phase 3-Wire --- Line to Lines Wiring Configurations * 1-Phase 2-Wire --- Line to Line (2-Pole) or Line to Neutral (1-Pole) * 1-Phase 3-Wire --- Line to Line and Line to Neutral (2-Pole) * 3-Phase 3-Wire --- Line to Lines (3-Pole) * 3-Phase 4-Wire --- Line to Lines and Line to Neutral (3-Pole) ## Active and Reactive Power As a consequence of the periodic nature of AC, and the electromagnetic "inertia" of inductance and capacitance, inherent of all matter, the power in an AC circuit is divided into two components: * **Active Power** (abbreviated $P$, measured in watts) also known as real power, is power that _does work_. * **Reactive Power** (abbreviated $Q$, measured in volt-amperes reactive (VAR)) transfers no net energy to the load. derived from these components are others: * **Complex Power** (abbreviated $S$, measured in volt-amperes (VA)) is the vector sum of the active and reactive components. It is "complex" because it exists on the real and imaginary axes of active and reactive power respectively. * **Apparent Power** (abbreviated $|S|$, measured in volt-amperes (VA)) is the magnitude of the complex power vector. * **Power Factor** (abbreviated $\text{PF}$, unitless) is the ratio of active power to apparent power. $$ P = S \times \text{PF}, \quad S = \frac{P}{\text{PF}}, \quad \text{PF} = \frac{P}{\text{S}} $$ ### Power Factor Correction Capacitance and inductance can both be measured in VAR, but their effects cancel each other out rather than add. ## Ferroelectric Hysteresis The Venn Diagram of ferroelectric and ferromagnetic materials has a large but not complete intersection.