Description
The FPV-125 2P 125A 800VDC Mini Circuit Breaker (MCB) is engineered to provide superior protection for electrical circuits in solar photovoltaic (PV) systems. It is specifically designed to handle higher voltage applications, ensuring both safety and reliability in demanding solar installations.
Key Features:
- Pole Configuration: 2P (Double Pole)
- Rated Current (In): 125A
- Rated Operating Voltage (Ue): 800VDC
- Breaking Capacity: High capacity to manage fault conditions, ensuring optimal safety and protection.
- Protection Mechanism: Advanced thermal-magnetic trip unit that offers both overcurrent and short-circuit protection.
- Installation: Convenient DIN rail mounting for secure and straightforward installation.
- Compliance: Meets international safety standards, including CE, RoHS, and TUV certifications.
Technical Specifications:
- Rated Insulation Voltage (Ui): 800VDC
- Ultimate Breaking Capacity (Icu): 10kA
- Run Breaking Capacity (Ics): 100% of Icu
- Mechanical Life: 7800 operations
- Electrical Life: 2000 operations
- Tripping Curve: C-type characteristic for versatile applications
- Ambient Temperature Range: -25°C to +70°C
- Altitude: Suitable for installation up to 2000 meters
Applications:
- Solar PV Systems: Provides essential overcurrent protection for solar panel arrays and other DC circuits.
- Industrial and Commercial Installations: Ensures dependable operation in high-demand environments and critical applications.
- Residential Use: Enhances safety for home solar installations, offering peace of mind.
Dimensions and Weight:
- Width: 36mm
- Height: 80mm
- Depth: 71mm
- Weight: 0.24 kg
Options:
- Auxiliary Contact (AX): Optional for remote signaling
- Alarm Contact (AL): Optional for fault indication
- Shunt Release (SHT): Optional for remote tripping
- Undervoltage Release (UNT): Optional for additional protection
The FPV-125 2P 125A 800VDC MCB from FEEO Electric is an essential component for ensuring the safety and reliability of your solar PV system, providing robust protection against overcurrent and short circuits, specifically designed for higher voltage applications