AHF & SVG 전력 품질 솔루션

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AHF — Active Harmonic Filter

Targeted harmonic mitigation for non‑linear loads (예를 들어, VFD, SMPS, LED). Typical THDi reduction to ≤5–8% with proper sizing.

• 가장 좋습니다: Harmonics‑dominant sites
• Response: ms‑level dynamic injection
• 능률: typically ≥97%

APF — Active Power Filter

All‑in‑one: 배음 + reactive power + three‑phase unbalance. PF up to 0.99, neutral current reduction, voltage stability support.

• 가장 좋습니다: Mixed issues with PF/unbalance
• Response: sub‑cycle control
• Scalable: modular parallel design

SVG — Static VAR Generator

Fast, precise reactive power compensation (lag/lead) 에게 0.99 pf. Helps mitigate flicker and stabilizes feeders.

• 가장 좋습니다: PF penalties and voltage stability
• Response: real‑time, ms‑level
• 완성: Modbus RTU/TCP

Cut harmonics, eliminate PF penalties, and free capacity for tenant growth—without disrupting operations.

Pain Points

• Nuisance trips and elevator/HVAC disturbances from harmonics/unbalance
• PF penalties and rising demand charges
• LED/VFD stress overheating transformers and busbars
• Capacity bottlenecks blocking tenant expansion and green goals

Our Solution

• AHF: Targeted harmonic mitigation for VFDs, LED, UPS; THDi to ≤5–8% (site‑dependent)
• SVG: Fast PF correction (lag/lead) for lower bills and utility compliance

이익

• Fewer trips; cooler transformers; quieter operation
• Lower losses and penalties; unlock 10–30% headroom
• Stable elevators, HVAC, and tenant critical equipment

Quick Sizing Example

Bus 2500 에이, thdi 28% → target 8%, safety factor 1.3 Compensation current ≈ 2500 × (0.28 − 0.08) × 1.3 ≈ 650 에이 Recommendation: 2 × 300 에이 + 1 × 100 에이 (redundant and scalable)Request a Quote

Stabilize labs, data rooms, and HVAC with clean power—meet sustainability goals without disrupting semesters.

Pain Points

• Sensitive lab gear and IT rooms affected by harmonics and voltage dips
• PF penalties and tight public budgets
• Stadium lighting and workshops causing flicker and THD spikes
• Limited maintenance windows; strict noise expectations

Our Solution

• AHF: Reduce harmonics from HVAC VFDs, LED 조명, lab PSUs; THDi to ≤5–8%
• SVG: PF to 0.99 (lag/lead), supports flicker mitigation for lighting/events

이익

• Fewer disturbances in classrooms, labs, and IT spaces
• Lower utility costs and measurable CO₂ reduction
• More usable transformer capacity for expansion

Quick Sizing Example

Feeder 1200 에이, thdi 30% → target 8%, safety factor 1.25 Compensation current ≈ 1200 × (0.30 − 0.08) × 1.25 ≈ 330 에이 Recommendation: 2 × 200 A modules for growth and redundancyRequest a Quote

Mitigate harmonics from miner PSUs, correct PF in real time, and cool down your transformers—boost ROI and stay grid‑friendly.

Pain Points

• High THDi from SMPS overheating cables/transformers
• PF penalties and capacity caps from utilities
• Voltage dips and trips during ramp‑up/batch restarts
• Harsh sites with dust, heat; containerized layouts

Our Solution

• AHF: Target miner harmonic spectrum; THDi to ≤5–8% (with proper sizing)
• SVG: PF to 0.99 (lag/lead); stabilizes voltage and reduces flicker on long feeders

이익

• Fewer trips; lower I²R losses; cooler transformer temps
• Free 10–30% capacity headroom to add rigs without upgrades
• Utility compliance support (IEEE 519 objectives at PCC)

Quick Sizing Example

Main LV bus 4000 에이, thdi 35% → target 8%, safety factor 1.3 Compensation current ≈ 4000 × (0.35 − 0.08) × 1.3 ≈ 1404 에이 Recommendation: 5 × 300 에이 (1500 A total) for margin and N+1 flexibilityRequest a Quote

VFD Workshop

THDi cut from 32% 에게 7%; PF lifted to 0.99; transformer temperature reduced; fewer nuisance trips.

Commercial Tower

PF penalties eliminated; 15% headroom unlocked for tenant expansion; quieter HVAC operation.

EV Charging Plaza

Voltage dip and flicker improved during peak demand; fewer breaker trips; higher station uptime.