Kwụrị oge nke na-ekwu bụkwụnye
Active power, also known as real power, is the portion of electrical power that performs useful work in a circuit—such as producing heat, light, or mechanical motion. Measured in watts (W) or kilowatts (kW), it represents the actual energy consumed by a load and is the basis for electricity billing. This tool calculates active power based on voltage, current, power factor, apparent power, reactive power, resistance, or impedance. It supports both single-phase and three-phase systems, making it ideal for motors, lighting, transformers, and industrial equipment. Parameter Description Parameter Description Current Type Select circuit type: • Direct Current (DC): Constant flow from positive to negative pole • Single-phase AC: One live conductor (phase) + neutral • Two-phase AC: Two phase conductors, optionally with neutral • Three-phase AC: Three phase conductors; four-wire system includes neutral Voltage Electric potential difference between two points. • Single-phase: Enter **Phase-Neutral voltage** • Two-phase / Three-phase: Enter **Phase-Phase voltage** Current Flow of electric charge through a material, unit: Amperes (A) Power Factor Ratio of active power to apparent power, indicating efficiency. Value between 0 and 1. Ideal value: 1.0 Apparent Power Product of RMS voltage and current, representing total power supplied. Unit: Volt-Ampere (VA) Reactive Power Energy alternately flowing in inductive/capacitive components without conversion to other forms. Unit: VAR (Volt-Ampere Reactive) Resistance Opposition to DC current flow, unit: Ohm (Ω) Impedance Total opposition to AC current, including resistance, inductance, and capacitance. Unit: Ohm (Ω) Calculation Principle The general formula for active power is: P = V × I × cosφ Where: - P: Active power (W) - V: Voltage (V) - I: Current (A) - cosφ: Power factor Other common formulas: P = S × cosφ P = Q / tanφ P = I² × R P = V² / R Example: If voltage is 230V, current is 10A, and power factor is 0.8, then active power is: P = 230 × 10 × 0.8 = 1840 W Usage Recommendations Monitor active power regularly to assess equipment efficiency Use data from energy meters to analyze consumption patterns and optimize usage Consider harmonic distortion when dealing with nonlinear loads (e.g., VFDs, LED drivers) Active power is the basis for electricity billing, especially under time-of-use pricing schemes Combine with power factor correction to improve overall energy efficiency Kwakwa da karkara, ko kuma kwakwa da karkara mai yawa, shine babban baki na nafin karkara wanda ya yi aiki a cikin kyautar karkara — kamar tsabta, harsuna, ko hakkin abinci. Ana sani a watt (W) ko kilowatt (kW), wanda ya nuna nafin karkara da aka fi shirya da yanayi da ke gida da ta zama muhimmiyar tushen fitaccen adadin karkara. Karin magana ne ya kasuwa masu kwakwa da karkara daga fassara, karamin karkara, kashi, kwakwa da karkara mai amfani, kwakwa da karkara mai amfani, karamin karkara, ko karamin karkara. Yana taimaka wa karkara da karkara mai uku da karkara da karkara biyu, wanda ya zama daidai da motoci, harsuna, mafi kyau, da kuma kayan aiki. Ta bayyana Masu Karatu Parameter Description Masana Karkara Za su iya zaɓi masana karkara: • Karkara Mai Tsari (DC): Tsarin da ya ci gaba da kullum min tsumma zuwa min haske • Karkara Mai Kyau Da Karkara Mai Uku: Karkara mai kyau (kyau) + karkara mai haske • Karkara Mai Biyu Da Karkara Mai Uku: Karkara mai biyu, kadan da karkara mai haske • Karkara Mai Uku Da Karkara Mai Uku: Karkara mai uku; karkara mai uku da karkara mai haske Fassara Farkon fassara daga birnin biyu. • Karkara Mai Kyau: Zaka iya faɗa **Fassara Kyau-Haska** • Karkara Mai Biyu / Karkara Mai Uku: Zaka iya faɗa **Fassara Kyau-Kyau** Karkara Tsunan karkara har da kaya, unit: Amper (A) Kashi Abubuwan karkara da karkara mai amfani, wanda ya nuna darasi. Daina karkara bayan 0 da 1. Daban-daban da ya danganta: 1.0 Kwakwa da karkara mai amfani Dabbobi da fassara da karkara, wanda ya nuna jumla na karkara da aka bayyana. Unit: Volt-Ampere (VA) Kwakwa da karkara mai amfani Nafin karkara da ya ci gaba a cikin kompain da karkara mai amfani ba ta haɗa da dukamtar abubuwan da duka. Unit: VAR (Volt-Ampere Reactive) Karamin karkara Babban tsaron da karkara mai tsari, unit: Ohm (Ω) Karamin karkara Jumla na babban tsaron da karkara mai uku, sama da karamin karkara, karamin karkara, da karamin karkara. Unit: Ohm (Ω) Sauran Kula Kula da take daidaito da kwakwa da karkara shine: P = V × I × cosφ Me: - P: Kwakwa da karkara (W) - V: Fassara (V) - I: Karkara (A) - cosφ: Kashi Wasu kula da ake amfani da su: P = S × cosφ P = Q / tanφ P = I² × R P = V² / R Misali: Idan fassara ce 230V, karkara ce 10A, da kashi ce 0.8, maka kwakwa da karkara ce: P = 230 × 10 × 0.8 = 1840 W Tambayarwar Amfani Tambaya kwakwa da karkara daidai don tuntuɓi darasiyan kayan aiki Amfani da bayanan karatuwar karkara don tuntubi masu amfani da karkara da kuma zama daidai Yana da ma'ana a kan karkara mai amfani ba da karkara mai amfani (misali, VFDs, LED drivers) Kwakwa da karkara shine muhimmin tushen fitaccen adadin karkara, musamman idan ana samun adadin karkara a lokacin daɗi Haɗa da kashi da karkara don zama daidai wa karkara da karkara
