Tiga Fase Industri Daya
Perhitungan untuk sistem industri berat. Tangani matematika vektor √3 yang kompleks untuk motor dan panel distribusi pabrik.
Konfigurasi Industri
AC Tiga Fase
Hasil diperbarui secara real-time saat Anda memasukkan parameter.
Hasil saat ini memperhitungkan pengali tegangan saluran (√3 ≈ 1,732) dan kehilangan efisiensi sistem. Cocok untuk verifikasi FLA motor.
Rumus Daya Tiga Fase
Daya tiga fase memberikan 73% lebih banyak daya dibandingkan satu fase pada tegangan dan arus yang sama — hanya menggunakan satu konduktor tambahan.
Daya Nyata (kW)
P = √3 × V × I × PF Faktor √3 (1,732) memperhitungkan pergeseran fase 120° antara tiga bentuk gelombang arus, yang menghasilkan penyaluran daya instan yang konsisten.
Daya Semu (kVA)
S = √3 × V × I Daya semu adalah kapasitas total yang harus disediakan oleh sumber, terlepas dari faktor daya. Digunakan untuk menentukan ukuran transformator dan generator.
Understanding Three-Phase AC Power
Three-phase power is the standard for industrial and commercial electrical distribution. It consists of three sinusoidal voltages, each offset by 120°, that together produce a constant, smooth power delivery. This makes three-phase motors smoother and more efficient than single-phase equivalents — and allows a given amount of power to be transmitted with less conductor material.
Why √3 (1.732)?
The three-phase power formula uses the square root of 3 because of the vector relationship between line voltage and phase voltage. In a balanced three-phase system, line-to-line voltage (V_LL) equals √3 times the line-to-neutral phase voltage (V_LN). For example, 208V line-to-line corresponds to 120V phase voltage (208 ÷ 1.732 ≈ 120).
Three-Phase Advantages
- Constant Power Delivery: The three phases sum to a constant total at every instant — unlike single-phase which pulses at twice the supply frequency. This makes motors run smoother with less vibration.
- Higher Power Density: A three-phase system delivers 73% more power than single-phase at the same conductor size and voltage, making it far more economical for large loads.
- Simpler Large Motor Design: Three-phase induction motors have no starting capacitors or split-phase windings — the rotating magnetic field forms naturally from the three phases.
- Lower Neutral Current: In a balanced three-phase system, the neutral conductor carries zero current, saving conductor material in distribution systems.
Common Three-Phase Voltages
- 208V / 120V: US commercial — line-to-line / line-to-neutral. Common in office buildings and light industrial.
- 480V / 277V: US industrial standard. Used for large motors, HVAC, and industrial equipment.
- 400V / 230V: International (IEC) standard across most of Europe, Asia, and Australia.