30-500série de générateurs SVG SVG STATIC VAR PFC pour la correction du facteur de puissance

Générateur VAR statique SVG is a product aimed at Power Factor Correction and Harmonic Filtering, along with a Three-phase balancing Function. Bénéficier de la technologie de l'onduleur, the SVG Static Var Generator PFC series’ compensation is stepless, ce qui signifie que la sortie SVG doit correspondre à la puissance réactive du système, sans trop compensation ni sous-compensation. Pour un seul module, SVG capacity ranges from 30kVA to 100kVA. For the Abinet system, it’s an unlimited parallel design. Lorsque la charge génère un courant inductif ou capacitif, it makes the load current lag or lead the voltage. SVG detects the phase angle difference and generates a leading or lagging current into the grid, Faire l'angle de phase du courant presque le même que celui de la tension du côté transformateur, ce qui signifie que le facteur de puissance fondamental est l'unité.

 

2. Paramètres du produit

Capacité du cabinet	30-500Armoire Kvar
Tension nominale(V)	220V / 400v / 480v / 690v
Fréquence nominale (HZ)	50HZ / 60Hz
Configuration du réseau	1P2w / 3p4w / 3p3w
Ratio CT	100:5~ 6000:5
Conception de topologie	3 Niveau
Correction du facteur de puissance	PF = 0,99
Temps de réponse complet	≤ 10 ms
Fréquence IGBT	20Khz
Interface de communication	Rs485, Ethernet
Protocole de communication	Protocole Modbus
Classe de protection	IP 20
Certificat	Tuv ce / as / url
Niveau de bruit	<60db

3. Product Feature

• Facteur de puissance ≥0,99
• 20Temps de réponse MS
• Correction du facteur de puissance basé sur l'onduleur
• Topologie à trois niveaux& Algorithme FFT
• Facilité de mise en service avec la surveillance et les rapports de la qualité de l'énergie modernes

 

4. SVG Advantages

• Compenser la puissance réactive (menant & à la traîne)
• Facteur de puissance élevé de compensation précise
• Pas de résonance
• Réponse rapide

5. How does the CoEpower Static Var Generator Work？

In modern electrical systems, many types of industrial equipment, such as motors, inverters, and welding machines, draw inductive or capacitive current. This causes the current to lag behind or lead ahead of the voltage, resulting in a non-unity power factor and poor power quality.

The CoEpower Static Var Generator is designed to solve this issue dynamically and precisely.

(1). Real-Time Detection

The CoEpower SVG continuously monitors the electrical load in real time by detecting the phase angle difference between the current and voltage. This phase angle difference indicates whether the system is experiencing:

-Inductive load (current lags voltage)

-Capacitive load (current leads voltage)

(2). Instantaneous Compensation

Once the CoEpower SVG detects a phase mismatch, it uses its built-in fast-switching power electronic components (Par exemple, IGBTs) to generate a compensating current:

-If the load is inductive, it generates a leading (capacitive) current.

-If the load is capacitive, it generates a lagging (inductive) current.

This compensating current is injected into the grid or system at the point of common coupling.

(3). Achieving Unity Power Factor

The goal of the CoEpower SVG is to make the current waveform align closely with the voltage waveform at the transformer or system input. When the current and voltage are in phase, the fundamental power factor is corrected to nearly 1.0, which means:

-Maximum efficiency in power delivery

-Minimal reactive power flow

-Reduced energy loss and equipment stress

(4). Intelligent & Adaptive Operation

Unlike traditional capacitor banks that switch in fixed steps, the CoEpower SVG provides smooth, stepless compensation with millisecond response times. It dynamically adapts to:

-Rapid load changes

-Fluctuating power factor

-Complex harmonic-rich environments

The CoEpower Static Var Generator works by detecting and correcting phase angle imbalances between current and voltage in real time. By injecting an exact amount of reactive power—either leading or lagging—it ensures that your system operates with high efficiency, minimal losses, and maximum power quality.

 

6. Effet de compensation

Le système de contrôle DSP IGBT fait que la compensation de puissance réactive de la compensation mécanique évolue vers une compensation de stabilité électronique de puissance intelligente. Quoi que le courant de charge change, SVG peut toujours produire le courant de compensation correspondant pour réaliser la combinaison parfaite. Gardez toujours le facteur de puissance comme 0.99. Fonctionnant bien dans un environnement sévère comme le THDU élevé / température ambiante élevée / amplitude élevée.

 

7. How to Install a Static Var Generator?

Note: Always consult the manufacturer’s manual and hire a licensed electrician or engineer for actual installation.

(1) Site Assessment & Load Analysis

Measure your system’s power factor, load profile, and reactive power demand using a power quality analyzer.

Identify where the SVG should be placed (main distribution panel, sub-panel, or near heavy loads).

Choose a properly sized SVG unit based on reactive power (gauche) requirements.

(2) Unpacking & Inspection

Carefully unpack the SVG and check for physical damage during transport.

Verify that the voltage rating, current rating, and frequency match your system.

(3)Physical Installation

Mount the SVG in a clean, dry, and well-ventilated location (avoid high temperatures or dusty areas).

Ensure enough space for heat dissipation and future maintenance.

Secure the SVG using floor or wall mounts (depending on the model).

(4) Electrical Connections

Power Connection: Connect the SVG input terminals to the busbar or main distribution line using appropriately rated cables.

CT Connection (Current Transformers):

-Connect the CTs to measure load current.

-Install CTs in the correct phase sequence and direction.

-Typically placed on the incoming lines before the load.

Control Wiring: Connect the CT signals and control communication (Rs485, Modbus, etc.) to the SVG controller.

(5) Commissioning & Configuration

Power on the SVG.

Configure the following settings using the built-in display or external software:

-System voltage and current ratings

-CT ratio

-Target power factor

-Communication parameters

Perform a function test to ensure the SVG is injecting/absorbing reactive power properly.

(6) Final Checks and Monitoring

Monitor the SVG’s performance for a few hours or days to ensure:

-Power factor is improving (near 1.0)

-No abnormal alarms or overheating

-Voltage and current are within safe limits

Set up remote monitoring, if available.

(7) Safety Reminders

Always disconnect power before making any electrical connections.

Use PPE (personal protective equipment) and follow lockout-tagout (LOTO) procedures.

Only qualified personnel should perform the installation.

 

8. Ligne de production de COepower

9. Vidéos

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