VOLTAK Recloser / Sectionalizer: High-Efficiency Power Distribution Solutions
Conforming Standards and Specifications:
⬩Meets international standards IEC62271-111 and IEEE C37.60.
⬩Suitable for voltage ratings ranging from 6kV to 38kV.
⬩Capable of handling a continuous current of up to 800A.
⬩Short time current rating up to 16kA for 3 seconds.
Versatile Applications:
Designed for a broad range of applications, our reclosers and sectionalizers are ideal for:
⬩Smart grid applications, including auto-changeover schemes.
⬩Connection solutions for mobile switchgears, underground to overhead transitions, and generator integrations.
⬩Use in mining equipment connections, substation circuit breakers, and renewable and distributed generation connections.
Innovative Design Features:
⬩Utilizes solid dielectric and vacuum interruption for enhanced performance, free from oil and SF6.
⬩Equipped with arc fault venting for safety.
⬩Incorporates 3 integrated current transformers and 6 integrated voltage sensors for accurate monitoring.
⬩Bidirectional operation with no active electronics, ensuring reliability.
⬩Hermetically sealed with durable stainless steel construction.
⬩Includes a steel mounting bracket for easy installation.
⬩Features an IP66 stainless steel enclosure, operable in extreme temperatures ranging from -40°C to +55°C.
⬩The connection between switchgear and controller uses a fully armored cable.
⬩Integrated GPS in RC15 model for precise event timestamping without the need for external communications.
Key Technical Parameters:
⬩Current Sensing: Enabled by 3 current transformers.
⬩Voltage Sensing: Managed by 6 voltage screens.
⬩Fault Make Capacity: Ranging from 12.5kA to 16kA RMS, with a peak capacity of 31.5kA to 40kA.
⬩Rated Continuous Current: Consistently manages 800A.
⬩Mechanical / Full Load Operations: Up to 30,000 cycles.
⬩Fault Break Capacity: Efficiently handles 12.5kA to 16kA.
⬩Short Time Current Withstand: Robust design withstands up to 16kA for 3 seconds.
With VOLTAK's recloser and sectionalizer units, enhance the efficiency, safety, and reliability of your power distribution networks.