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LC1DWK12p7 is a three-phase capacitor switching contactor specially designed by Schneider Electric for reactive power compensation systems. It is mainly used to switch power capacitors so as to improve grid power factor, reduce line loss and enhance power quality.
- Definirea segmentului de model
| Segmentul de model | Sens | Descriere |
| LC1 | Contactor series code | Basic code for Schneider TeSys series contactors |
| D | Seria de produse | TeSys seria D, standard industrial contactor |
| W | Special application | Dedicated for capacitor switching |
| K | Capacitate nominală | Matches 63kVAR capacitor at 400V/50Hz |
| 12 | Curent nominal | 12O (special rating for capacitor switching) |
| p7 | Tensiunea bobinei | 230V AC 50/60Hz |
- Principalele scenarii de aplicare
2.1 Industrial Power System Power Factor Compensation
Factory power distribution system: Heavy industries such as steel, chemical and machinery manufacturing with intensive inductive loads like motors and inverters, requiring dynamic reactive power compensation.
Substație / Distribution station: 10kV/0.4kV power distribution system adopting centralized compensation to improve overall power supply efficiency.
Production line dedicated compensation: Linii de producție mari, compressor stations, water pump rooms, etc., automatically switching capacitors according to load changes.
2.2 Clădiri Comerciale & Facilități publice
Office buildings / Shopping malls: Large electrical equipment such as central air conditioning, elevators and lighting systems adopting centralized compensation to reduce electricity costs.
Centre de date: Non-linear loads such as UPS and server clusters requiring precise compensation to maintain voltage stability.
Spitale / Schools: Power supply systems for critical loads to improve power supply reliability and power quality.
2.3 Energie Nouă & Special Industries
PV / Wind power systems: Compensate reactive power loss at the output of grid-connected inverters to meet grid connection standards.
Tranzit feroviar: Traction substations and depots for compensating inductive reactive power of traction loads.
Minerit / Oilfield: Off-grid power supply systems in remote areas to improve power generation equipment utilization.
- Special Design Advantages for Capacitor Switching
- Pre-wired damping resistor: Suppresses inrush current (până la 100 ori curentul nominal) during capacitor switching, protecting capacitors and contactor contacts.
- Early-make auxiliary contact: Ensures the damping resistor is connected first before the main contacts close, achieving inrush-free switching.
- Optimized contact material: Adapted to high-frequency operation (până la 240 cycles/hour) and arc characteristics of capacitor switching.
- Design larg de temperatură: -25℃ ~ +60℃, potrivit pentru medii industriale dure.
- Typical Application Topology
Power Grid → Circuit Breaker → Reactor → LC1DWK12p7 Contactor → Power Capacitor → Load
Used together with reactors to further suppress inrush current and harmonics.
Linked with power factor controllers (de ex., Schneider Varlogic series) to realize automatic compensation, switching capacitor banks automatically according to grid power factor.
- Same Series Capacitor Contactor Comparison (400V/50Hz)
| Model | Matched Capacitor Capacity | Tensiunea bobinei | Scenariul aplicației |
| LC1DWK12p7 | 63kVAR | 230V și | Industrial general & commercial compensation |
| LC1DWK12M7 | 63kVAR | 220V și | Standard for Asian market |
| LC1DWK12U7 | 63kVAR | 240V și | Standard for North American market |
| LC1DWK09p7 | 40kVAR | 230V și | Small compensation systems |
- Considerații cheie de selecție
- Capacitor capacity matching: 63kVAR for 400V system, 60kVAR for 415V system, 80kVAR for 575V system.
- Tensiunea bobinei: Potriviți tensiunea circuitului de control (230V/220V/240V AC).
- Frecvența de funcționare: ≤240 cycles/hour to meet dynamic compensation requirements.
- Environmental conditions: Wide-temperature type suitable for outdoor and harsh industrial environments.
Core Product Advantages of LC1DWK12p7 Schneider Capacitor Switching Contactor
As a dedicated capacitor contactor in the Schneider TeSys D series, LC1DWK12p7 is designed for 63kVAR/400V three-phase capacitor switching. Its core advantages focus on four aspects: inrush current suppression, high-frequency reliability, wide environmental adaptability, compliance and easy maintenance, delivering outstanding professional performance compared with general-purpose contactors in reactive power compensation applications.
- Dedicated Capacitor Switching Design — Solve Inrush Current & Arc Problems Fundamentally
1.1 Pre-wired Damping Resistor + Early-make Auxiliary Contact (Core Patent Advantage)
Built-in current-limiting damping resistor: Suppresses capacitor inrush current up to 100 times the rated current during switching, protecting capacitors and contacts from overload impact.
Early-make auxiliary contact design: Ensures the damping resistor is connected to the circuit first, then the main contacts close, realizing inrush-free switching and greatly reducing contact ablation risk.
Special contact alloy: Adopts AgSnO₂ material with excellent arc resistance and welding resistance, perfectly adapting to high-frequency operation (până la 240 cycles/hour) and capacitive load characteristics.
1.2 Precise Capacity Matching
Rated for direct use with 63kVAR/400V/50Hz capacitors, enabling simple selection without complex calculation and avoiding damage caused by capacity mismatch.
Compatible with 690V systems (max. 104kVAR), offering strong voltage adaptability for various power distribution systems.
- Fiabilitate ridicată & Durability — Industrial-Grade Stable Operation
2.1 Ultra-long Mechanical & Electrical Lifespan
Durata de viata mecanica: ≥10 milioane de operațiuni, far exceeding the standard of ordinary contactors.
Durata de viata electrica: ≥300,000 capacitor switching cycles, meeting long-term dynamic compensation demands.
Harsh environment resistance: Operating temperature range -25℃ ~ +60℃, Grad de protectie IP20, suitable for high and low temperature industrial sites.
2.2 High-Frequency Operation Adaptability
Suportă până la 240 switching cycles per hour, ideal for rapidly changing load scenarios such as electric arc furnaces and welding machines.
Optimized coil structure reduces temperature rise during high-frequency operation and extends service life.
2.3 Schneider Patented Process Enhancement
Core iron core with patent anti-rust technology, 5 times higher corrosion resistance for humid, salt-laden and harsh environments.
Exclusive sealing design for dustproof and moistureproof performance, reducing contact contamination and improving connection reliability.
- Instalare ușoară & Maintenance — Lower Engineering & O&M Costs
3.1 Dimensiune compactă & Montaj flexibil
85mm latime (3-pole standard size), saving cabinet space and supporting high-density installation.
Compatible with NS 35/7.5 DIN rail mounting and screw fixing, adapting to various installation conditions.
Screw-type clamping terminals ensure reliable connection and convenient wiring and maintenance.
3.2 Intelligent Diagnosis & Maintenance Prompt
Equipped with QR code identification for quick access to product manuals, installation guides and technical support, simplifying on-site maintenance.
Configurarea contactelor auxiliare (1NU+2NC) supports status monitoring and fault alarm for remote diagnosis.
3.3 Low-Maintenance Design
Wear-part-free structure reduces maintenance frequency and lowers full-lifecycle cost.
Modular construction enables easy parts replacement and shortens downtime.
- Performanță electrică & Safety Compliance — Fully Meet Industrial Standards
4.1 Electrical Safety Design
Conform IEC 60947-4-1 și IEC 60831 (shunt capacitor standard), ensuring safe capacitor switching.
Mechanical interlock structure prevents misoperation and improves system safety.
Built-in coil overvoltage/undervoltage protection, adapting to grid voltage fluctuation and avoiding coil burnout.
4.2 Optimizarea eficienței energetice
Low coil power consumption for energy-saving operation and long-term cost reduction.
Inrush-free switching design reduces grid harmonic pollution and improves overall power quality.
4.3 Certificari globale
Full certifications: CE, UL, CSA, CCC, EAC, Marine Approval for global application.
Green Premium product compliant with RoHS/REACH environmental standards, supporting sustainable development.
- System Integration Advantage — Perfectly Matches Reactive Power Compensation Solutions
5.1 Seamless Compatibility with Schneider Compensation Systems
Perfectly linked with Varlogic power factor controllers (VR6, VR12 series) to realize automatic compensation.
Matches with reactors (de ex., Schneider VArSet series) to further suppress harmonics and inrush current.
Can be combined with TeSys D thermal relays and circuit breakers to build a complete capacitor protection loop.
5.2 Flexible Compatibility with Various Compensation Schemes
Supports Star / Delta capacitor wiring for different capacity and voltage level capacitor banks.
Applicable to static var compensation (SVC) and dynamic var compensation (SVG front-end) systems with wide application coverage.
- Core Difference Comparison with Ordinary Contactors
| Element de comparație | LC1DWK12p7 Capacitor Contactor | General-Purpose Contactor |
| Inrush Suppression | Built-in damping resistor + early-make contact, inrush-free switching | No dedicated design; inrush current up to 100 ori curentul nominal, easy contact & capacitor damage |
| Material de contact | Special AgSnO₂ alloy, arc & welding resistant | Ordinary silver alloy, short service life under capacitive load |
| Frecvența de operare | Până la 240 cycles/hour for dynamic compensation | Normally ≤120 cycles/hour, easy overheating at high frequency |
| Capacity Matching | Directly marked 63kVAR/400V, simple selection | Requires complex calculation, prone to capacity mismatch |
| Protection Performance | Optimized for capacitor characteristics, supra/subtensiune & protecție împotriva pierderii de fază | General protection only, lacking targeted adaptation for capacitor switching |
- Professional & Seif: Specially designed for capacitor switching, eliminating inrush current and arc risks fundamentally to protect equipment.
- Fiabilitate ridicată: Wide temperature tolerance, high-frequency capability and long service life for harsh industrial environments and frequent switching.
- Instalare ușoară & Întreţinere: Structură compactă, flexible mounting and intelligent O&M to reduce project and maintenance costs.
- Compatibilitatea sistemului: Seamlessly integrated with Schneider compensation systems to simplify scheme design and commissioning.
- Global Certification: Fully compliant with international standards, potrivit pentru industria, commercial and special scenarios with stable system operation guaranteed.
LC1DWK12P7 is a Schneider TeSys D series dedicated capacitor contactor, used for switching reactive power compensation capacitors.
Interpretarea modelului
LC1: contactor AC; 1 = Single-pole
D: TeSys seria D
WK: Special for capacitor switching (with pre-connected damping resistor)
12: Specification code (corresponding to 63kvar @ 400V)
P7: Coil voltage 230V AC 50/60Hz
Parametrii de bază
Contacte principale: 3P (3NU), tensiune nominală 690 V AC
Switching Capacity: 63kvar @ 400V/50Hz; 104kvar @ 690V
Contacte auxiliare: 1NU + 2NC
Bobina: 230V AC 50/60Hz
Montare: DIN rail or screw mounting; width 85mm
Caracteristici: Equipped with early-make poles and damping resistor to suppress switching inrush current; maximum operating frequency 240 cycles per hour; ambient temperature ≤ 60°C
Aplicație
Used in low-voltage reactive power compensation cabinets to switch three-phase capacitor banks and improve power factor.
Replaces standard contactors to solve problems of inrush current and contact ablation during capacitor switching.
