Schneider BlokSeT Intelligent Power Distribution Operation and Maintenance System
Relying on Schneider’s EcoStruxure end-to-end IoT architecture, this solution creates a digital power distribution hub that integrates real-time monitoring, AI-based predictive analysis, energy efficiency assessment, and remote operation and maintenance. It fundamentally transforms the traditional reactive repair model of power distribution, enabling intelligent and refined management of the distribution system.
Schneider BlokSeT Intelligent Power Distribution Operation and Maintenance System
Schneider Electric BlokSeT is Schneider Electric’s new-generation high-end modular low-voltage switchboard, fully compliant with IEC 61439-2 and GB/T 7251.2 standards, and certified through comprehensive Type Tested Assembly (TTA) verification.
Built on Schneider Electric’s EcoStruxure IoT architecture, the product integrates four core advantages: ultimate safety, intelligent operation and maintenance, ultra-high-density modular design, and long-term durability. It is engineered to meet both the demanding operating conditions of industrial applications and the refined power distribution requirements of high-end buildings.
As a premium low-voltage power distribution solution for smart manufacturing, data centers, renewable energy, and large-scale public infrastructure projects, BlokSeT has been deployed in hundreds of thousands of projects worldwide, with its performance and quality thoroughly proven by the market.
Advantages and Features
Comprehensive Real-Time Status Monitoring: Equipped with smart meters, wireless temperature sensors, and arc flash detection units, the system captures over 200 electrical parameters at millisecond intervals. It provides real-time monitoring of busbars, terminal, and circuit breaker contact temperatures, while simultaneously tracking voltage, current, harmonics, power, energy consumption, and power quality. The operating status of all devices is fully visualized with no blind spots.
AI-Predictive Maintenance and Early Warning: Leveraging intelligent algorithms and massive operational data modeling, the system can predict potential faults—such as loose connections, overheating, insulation aging, and component wear—7 to 30 days in advance. With over 95% prediction accuracy, it significantly reduces unplanned downtime, enabling proactive intervention and zero-fault operation.
Precise Energy Efficiency Management and Optimization: Supports circuit-level and time-segmented metering, automatically generating energy consumption reports and efficiency analysis. It accurately identifies energy waste, excessive harmonics, and power factor imbalances, helping enterprises achieve 12%-18% energy savings. The system is aligned with green factory and low-carbon building standards.
Seamless System Compatibility and Interoperability: Supports mainstream industrial protocols such as Modbus, Profinet, MQTT, and EtherNet/IP. It can be seamlessly integrated with DCS, EMS, BMS, and smart campus platforms, and offers remote monitoring via PC or mobile devices, enabling real-time insight into distribution system operation.
Additionally, the system integrates triple-layer protection for arc flash, overheating, and leakage, with millisecond-level fault isolation. Edge computing gateways support resumable transmission, locally caching data during network interruptions to prevent data loss. Each device is linked to a dedicated digital file QR code, providing instant access to schematics, manuals, operational records, and maintenance work orders—realizing full lifecycle digital management.
General Data
| Item | Specification |
Application | Power distribution / Motor control |
Service Index (IS) | 211 to 333 |
Standards | IEC 60439-1 / IEC 60529 / IEC 61641 |
Climate Resistance | Humidity: IEC 60068-2-30 |
Dry heat: IEC 60068-2-2 | |
Cold: IEC 60068-2-1 | |
Salt spray: IEC 60068-2-11 | |
Installation | Indoor |
EMC | Class 2 |
Mechanical Data
| Item | Specification |
Cable Entry | Top / Bottom |
Wiring Access | Front / Rear |
Protection Degree | IP20–IP54 |
Form of Separation | 2b / 3b / 4a / 4b |
Connection Type | FFD / WFD / WFW / WWW |
Dimensions (mm) | Height: 2200 |
Width: 500–1200 | |
Depth: 400 / 600 / 1000 | |
Average Weight | 650 kg |
Enclosure | Epoxy powder coating > 50 µm |
Frame | Galvanized |
Color | RAL9002 / RAL7016 |
Electrical Data
| Item | Specification |
Rated Insulation Voltage (Ui) | 1000 V |
Rated Operating Voltage (Ue) | 400 / 690 V AC |
Frequency | 50 / 60 Hz |
Rated Impulse Voltage (Uimp) | 12 kV |
Auxiliary Circuit Voltage | Max. 230 V AC |
Overvoltage Category | IV |
Pollution Degree | 3 |
Busbar Ratings
| Item | Specification |
Horizontal Busbar Current | Up to 6300 A |
Vertical Busbar Current | Up to 3200 A |
Horizontal Busbar:
Short-time withstand current (Icw/1s): 30 / 50 / 85 / 100 kA
Peak withstand current (Ipk): 63 / 105 / 187 / 220 kA
Vertical Busbar:
Short-time withstand current (Icw/1s): 30 / 50 / 85 kA
Peak withstand current (Ipk): 63 / 105 / 178 kA
Safety & System
| Item | Specification |
Internal Arc Protection (IEC 61641) | 85 kA / 0.3 s |
Earthing System | TT / IT / TNS / TNC |
Max Incoming/Outgoing Switch | 6300 A |
Max Motor Capacity | 250 kW |
