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Suite Kuasa Industri

Tiga Fasa Industri Kuasa

Pengiraan untuk sistem industri berat. Kendalikan matematik vektor √3 yang kompleks untuk motor dan panel pengagihan loji.

Konfigurasi Industri

AC Tiga Fasa

Jumlah Kuasa Output
kW

Keputusan dikemas kini secara masa nyata semasa anda memasukkan parameter.

Vektor Pengiraan BEBAN SEIMBANG

Keputusan semasa mengambil kira pengganda voltan talian (√3 ≈ 1.732) dan kehilangan kecekapan sistem. Sesuai untuk pengesahan FLA motor.

Formula Kuasa Tiga Fasa

Kuasa tiga fasa menyampaikan 73% lebih banyak kuasa daripada fasa tunggal pada voltan dan arus yang sama — hanya menggunakan satu konduktor tambahan.

Kuasa Nyata (kW)
P = √3 × V × I × PF

Faktor √3 (1.732) mengambil kira anjakan fasa 120° antara tiga bentuk gelombang arus, yang menghasilkan penyampaian kuasa serta-merta yang konsisten.

Kuasa Ketara (kVA)
S = √3 × V × I

Kuasa ketara ialah kapasiti keseluruhan yang mesti disediakan oleh bekalan, tanpa mengira faktor kuasa. Digunakan untuk menentukan saiz transformer dan penjana.

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.