Satu Fase Daya Analisis
Analisis beban daya perumahan dan komersial ringan. Hitung profil energi total di luar wattase sederhana.
Input Sistem
AC Satu Fase
Hasil diperbarui secara real-time saat Anda memasukkan parameter.
Rumus Segitiga Daya
Daya AC satu fase memiliki tiga komponen — nyata, reaktif, dan semu — yang membentuk segitiga daya.
Daya Nyata (kW)
P = V × I × PF Daya yang benar-benar melakukan kerja — diukur dalam kilowatt. Inilah yang dikenakan biaya pada tagihan listrik Anda.
Daya Reaktif (kVAR)
Q = V × I × sin(θ) Daya yang disimpan dan dilepaskan oleh beban induktif dan kapasitif. Ini menyebabkan arus tanpa melakukan kerja yang berguna, meningkatkan kehilangan kabel.
Daya Semu (kVA)
S = V × I = √(P² + Q²) Total daya yang harus disalurkan oleh sumber — jumlah vektor dari daya nyata dan reaktif. Digunakan untuk menentukan ukuran generator dan transformator.
Understanding Single-Phase AC Power
Single-phase AC power is the standard supply for residential buildings and light commercial facilities. Unlike DC, AC voltage reverses direction periodically (50 or 60 times per second), which enables efficient voltage transformation but introduces the concept of power factor — the relationship between the voltage and current waveforms.
The Power Triangle
Real power (kW), reactive power (kVAR), and apparent power (kVA) form a right triangle. The angle θ between the apparent and real power vectors is the phase angle — and the cosine of this angle is the power factor. A PF of 1.0 means the triangle collapses to a straight line: all apparent power is real power.
What Causes Low Power Factor?
- Induction Motors: The most common cause. Motors use reactive power to build rotating magnetic fields. Lightly loaded motors have worse PF than fully loaded ones.
- Transformers at Light Load: The magnetizing current drawn by transformer cores is largely reactive.
- Fluorescent Lighting (older ballasts): Magnetic ballasts introduce significant reactive current. Electronic ballasts largely solve this.
- Variable Speed Drives: Can improve motor PF but introduce harmonic distortion which has its own effects on the supply.
Power Factor Correction
Low power factor can be corrected by adding capacitor banks in parallel with inductive loads. Capacitors supply reactive power locally, reducing the reactive current that must flow from the utility. This reduces cable losses, improves voltage regulation, and avoids utility penalties for industrial customers with PF below 0.9.